WO2013164783A1 - Fresh water price index based on water quality - Google Patents

Fresh water price index based on water quality Download PDF

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Publication number
WO2013164783A1
WO2013164783A1 PCT/IB2013/053478 IB2013053478W WO2013164783A1 WO 2013164783 A1 WO2013164783 A1 WO 2013164783A1 IB 2013053478 W IB2013053478 W IB 2013053478W WO 2013164783 A1 WO2013164783 A1 WO 2013164783A1
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Prior art keywords
water
water quality
root commodity
root
category
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PCT/IB2013/053478
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English (en)
French (fr)
Inventor
Yaacov Shirazi
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Aqua Index Ltd
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Aqua Index Ltd
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Publication date
Application filed by Aqua Index Ltd filed Critical Aqua Index Ltd
Priority to NZ702491A priority Critical patent/NZ702491A/en
Priority to EP13784537.6A priority patent/EP2867846A4/en
Priority to CA2881595A priority patent/CA2881595C/en
Priority to JP2015509553A priority patent/JP6315614B2/ja
Publication of WO2013164783A1 publication Critical patent/WO2013164783A1/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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    • GPHYSICS
    • G06COMPUTING OR CALCULATING; COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q40/00Finance; Insurance; Tax strategies; Processing of corporate or income taxes
    • G06Q40/06Asset management; Financial planning or analysis
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/152Water filtration

Definitions

  • the present invention relates to systems and methods for making a stable price of fresh water and financial instruments using such price and more particularly, to systems and methods where the price or index value of fresh water is based on the water quality.
  • Fresh water is an essential and irreplaceable commodity that is becoming scarcer. Fresh water is also a very desirable commodity for investment. Investment money is needed for protecting, purifying and distributing water. On the other hand, the market for water is strongly affected by local and temporal factors and prices vary wildly. In order to invest safely in water an investor needs additional protection.
  • water quality refers to the characteristics of a water supply that will influence its suitability for a specific use, i.e. how well the quality meets the needs of the user.
  • Quality is defined by certain physical, chemical and biological characteristics. Even a personal preference such as taste is a simple evaluation of acceptability. For example, if two drinking waters of equally good quality are available, people may express a preference for one supply rather than the other; the better tasting water becomes the preferred supply.
  • emphasis is placed on the chemical and physical characteristics of the water and only rarely are any other factors considered important.
  • One aspect of the present invention is a method for investing in fresh water based on a quality of the fresh water, comprising (a) receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a 2013/053478
  • a preferred embodiment of this method involves measuring at least one water source having fresh water with respect to at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by one or more of (i) water quality category and (ii) water quality grade.
  • a further preferred embodiment involves displaying on a display associated with a computer an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, the current price of the fresh water of the particular water quality being dependent on the current price of the one or more root commodities.
  • a further preferred embodiment involves displaying on a first portion of a display associated with a computer one or more current index values for fresh water and an indicia identifying either water or a category of fresh water whose current index value is displayed on the first portion, the display also displaying on a second portion of the display a current price of at least one root commodity from which the at least one of the current index values is derived and an indicia identifying the at least one root commodity whose current price is displayed on the second portion.
  • a still further preferred embodiment involves updating over time and making accessible to the public a displayed at least one of the current index values and updating over time and making available to the public a displayed current price of the at least one root commodity.
  • a further preferred embodiment involves determining, using a processor, a price of fresh water derived from a particular water source by determining a current level of suitability of fresh water derived from the particular water source for each of the plurality of water quality categories and by combining current index values of the fresh water of each water quality categories by weighting each index value being combined by (i) the determined current level of suitability of the fresh water from the particular water source for each of the plurality of water quality categories and by (ii) a market share of water from each water quality category.
  • a further aspect of the present invention is a method for investing in fresh water based on a quality of the fresh water, comprising (a) receiving, using a processor, updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity; (b) matching each of at least one water quality category with each root commodity of the at least one root commodity such that a quality of water that is constituent in a respective root commodity meets water quality standards of a respective water quality category the water quality standards issued by at least one of EEC, WHO or the U.S.; and (c) determining, using a processor, for each water quality category of the at least one water quality category, an updateable current index value for fresh water meeting said each water quality category, the index value determined based on a current price of said each root commodity that was matched with said each water quality category and based on at least one of (i) a quantity of fresh water constituent in
  • a preferred embodiment of this method comprises displaying on a display associated with a computer an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, the current price of the fresh water of the particular water quality being dependent on the current price of the one or more root commodities.
  • a preferred embodiment of this method also comprises displaying on a first portion of a display associated with a computer one or more of the current index values for fresh water and an indicia, identifying either water or a category of fresh water, whose current index value is displayed on the first portion, the display also displaying on a second portion of the display a current price of at least one root commodity from which the at least one of the current index values is derived and an indicia identifying a root commodity whose current price is displayed on the second portion.
  • a still further aspect of the present invention is a method of using financial instruments to invest in fresh water based of water quality, comprising determining, using a processor, a price of each of the financial instruments identifying on its face a particular amount of fresh water of a particular water quality category, the price of each financial instrument determined using an index value of fresh water of 3 053478
  • each root commodity of the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity;
  • each water quality category of the at least one water quality category with a root commodity of the at least one root commodity such that a quality of water either (i) constituent in a respective root commodity or (ii) used in production of the respective root commodity, meets water quality standards of a respective water quality category from among the following water quality categories; pristine quality, drinking water, domestic water, agricultural water and industrial water, the water quality standards issued by at least one of EEC, WHO or the U.S.; determining, using a processor, for each water quality category of the at least one water quality category, the updateabie current index value for fresh water meeting said each water quality category, the index value determined based on a current price of said each root commodity associated with said each water quality category and based on at least one of (i) a quantity of fresh water constituent in said each root commodity associated with said each water quality category and (ii) a quantity of fresh water used in production of said each root commodity associated with said each water quality category.
  • One preferred embodiment of this method comprises displaying on a display associated with a computer an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, the current price of the fresh water of the particular water quality being dependent on the current price of the one or more root commodities.
  • One further preferred embodiment of this method is displaying on a first portion of a display associated with a computer at least one of the updateable current index values for fresh water, the display also displaying on a second portion of the display a price of at least one root commodity from which the at least one of the index values is derived, the at least one of the index values and the price of the at least one root commodity each being updated over time.
  • the method also comprises the water quality categories having standards specifying ranges for at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio.
  • the method also comprises the water quality categories having standards specifying ranges for TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio. In certain further preferred embodiments, the method also comprises using a specific body of fresh water as collateral for the amount of fresh water on the face of each of the financial instruments.
  • a still further aspect of the present invention is a system for trading fresh water based on water quality, comprising a computer for receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent and (ii) water utilized in production of the said each root commodity, storing water quality standards for at least one water quality category, processing associations between each of at least one water quality category with at least one root commodity of the at least one root commodity such that a quality of water used in production of the root commodity meets water quality standards of the respective water quality category from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the water quality standards issued by at least one of EEC, WHO or the U.S.; and determining an updateable current index value for fresh water of each of the water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said each water quality category and (ii)
  • the system also comprises a display associated with a computer for displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, such that the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • the system has a display associated with the computer for displaying one or more of the updateable current index values for fresh water and an indicia identifying either water or a category of fresh water for each one of the current index value displayed on the first portion, the display also displaying a current price of at least one root commodity from which the at least one of the updateable current index values is derived and an indicia identifying each of the at least one root commodity whose current price is displayed on the display.
  • the system also includes a display associated with the computer for displaying on a first portion of the display one or more of the current index values for fresh water and an indicia identifying either water or a category of fresh water for each one of the current index value displayed on the first portion, the display also displaying on a second portion of the display a current price of at least one root commodity from which the at least one of the current index values is derived and an indicia identifying each of the at least one root commodity whose current price is displayed on the second portion.
  • Certain preferred embodiments of the system further comprise the at least one water quality category including at least one from (i) a first water quality category for water that meets minimal standards for either drinking or domestic use, (ii) a second water quality category for water that does not meet standards for drinking water but meets minimal standards for agricultural quality water and (iii) a third water quality category for water that does not meet standards for agricultural quality water or drinking water but meets minimal standards for industrial quality water.
  • the water quality standards specify ranges for at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio.
  • the system also comprises a water quality measurement device for measuring fresh water from at least one water source that has fresh water, with respect to at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by water quality category.
  • a water quality measurement device for measuring fresh water from at least one water source that has fresh water, with respect to at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by water quality category.
  • the computer is also for determining a price of fresh water that comes from a particular water source by determining a current level of suitability of fresh water derived from the particular water source for each of the at least one water quality category and by combining current index values of the fresh water of each water quality categories by weighting each index value being combined by (i) the determined current level of suitability of the fresh water from the particular water source for each of the at least one water quality category and by (ii) a market share of water from each of the at least one water quality category.
  • a yet still further aspect of the present invention is a further system for trading fresh water based on water quality, comprising a computer for receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent in the root commodity and (ii) water utilized in production of the root commodity, storing water quality standards for at least one water quality category, determining and storing associations between each of at least one water quality category of the at least one water quality categories with at least one root commodity such that a quality of water constituent in a respective root commodity meets water quality standards of a respective water quality category from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the water quality standards issued by at least one of EEC, WHO or the U.S.; and determining an updateable current index value for fresh water of each of the water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said
  • the further system includes a display associated with a computer for displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality categoiy, (u) water quality grade or (iii) water quality category and water quality grade, such that the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • the further system includes a display associated with the computer for displaying one or more of the updateable current index values for fresh water and an indicia identifying either water or a category of fresh water for each one of the updateable current index value displayed on the first portion, the display also displaying a current price of at least one root commodity from which the at least one of the updateable current index values is derived and an indicia identifying each of the at least one root commodity whose current price is displayed on the display.
  • the water quality standards specify ranges for at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio.
  • Another aspect of the present invention is still further system for trading fresh water based on water quality, the system comprising at least one computer of at least one commodities exchange outputting prices of commodities that are not water, at least one of the commodities being a root commodity that either has fresh water as a constituent or whose production utilizes fresh water: a system computer having a processor, the system computer linked with and configured to receive from the at least one computer of the at least one commodities exchange updateable price data for the commodities, the system computer configured to identify root commodities and extract, from the updateable price data, the current price for said identified root commodities, the processor also configured to store water quality standards for at least one water quality category, associate each water quality category of the at least one water quality categories with at least one said identified root commodity such that a quality of water used in production of a respective identified root commodity meets water quality standards of a respective water quality category from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the water quality standards issued by at least one of EEC, WHO or the U.S., compute, for each
  • system computer configured to transmit the computed current index value of each water quality category to the at least one computer.
  • Certain preferred embodiments of this still further system include a display associated with the at least one computer, the display displaying at least one current index value for fresh water of a water quality category and displaying a price of at least one identified root commodity from which the at least one current index value for fresh water is derived, the displayed at least one current index value for fresh water being updated over time and the displayed price of the at least one identified root commodity being updated over time.
  • Other preferred embodiments of this other system include a display associated with the at least one computer, the display displaying at least one current index value for fresh water of a water quality category in a first portion of the display and displaying a price of at least one identified root commodity from which the at least one current index value for fresh water is derived on a second portion of the display, the displayed at least one current index value for fresh water being updated over time and the displayed price of the at least one identified root commodity being updated over time.
  • the still further system may in certain preferred embodiments further comprise a processor for determining a price of each of a plurality of financial instruments identifying on its face a particular amount of fresh water of a particular water quality category, the price of each financial instrument determined using the current index value of fresh water for one water quality category.
  • a yet still further aspect of the present invention is a still further method for investing in fresh water based on a quality of the fresh water, comprising (a) receiving, using a processor, updateable current prices of at least one root commodity, root commodities being other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity; (b) associating each of at least one water quality category with at least one root commodity of the at least one root commodity, the at least one water quality category defined by falling within a range with regard to at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio; and (c) determining, using a processor, for each water quality category of the at least one water quality category, an updateable current index value for fresh water meeting said each water quality category, the index value determined based on a current price of said each root commodity that was associated with said each water quality category and
  • Some preferred embodiments of this still further method also comprise displaying on a display associated with a computer one or more of the updateable current index values for fresh water and an indicia identifying either water or a category of fresh water whose current index value is displayed on the display, the display also displaying a current price of at least one root commodity from which the at least one of the current index values is derived and an indicia identifying each root commodity of the at least one root commodity whose current price is displayed.
  • the still further method also comprises in some preferred embodiments using a processor to adjust a price of pristine water based on a suitability of the pristine water for at least one of (i) drinking, (ii) agricultural use and (iii) industrial use.
  • Some other preferred embodiments of the still further method also comprise using a processor to adjust a price of non-pristine water based on a suitability of the non-pristine water for at least one of (i) drinking, (ii) agricultural use and (iii) industrial use.
  • Some preferred embodiments of the still further method also include determining, using a processor, a price of each of a plurality of financial instruments identifying on its face a particular amount of fresh water of a particular water quality category, the price of each financial instrument determined using the current index value of fresh water for one water quality category.
  • the still further method also includes measuring at least one water source that has fresh water with respect to at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by water quality category.
  • Some preferred embodiments of the still further method involve measuring the at least one water source with respect to at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by water quality grade within a water quality category of the fresh water of the at least one water source.
  • a still further aspect of the present invention is an additional system for trading fresh water based on water quality, comprising a water quality measuring device for measuring fresh water of at least one water source with respect to at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio; a computer for receiving data from the water quality measuring device with respect to the fresh water in regard to the at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio and for comparing the received data to stored water quality standards to determine a water quality category for the fresh water, determining current prices of at least one root commodity, each root commodity being other than water, each root commodity of the at least one root commodi ty having at least one of (i) water as a constituent in the root commodity and (ii) water utilized in production of the root commodity, processing associations between each of at least one water quality category and at least one root commodity; and determining a current index value for fresh
  • the computer is also for determining a water quality grade, processing associations between each of at least one water quality grade with the at least one root commodity, and determining a current index value for fresh water of each water quality grade based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said each water quality grade and (ii) a quantity of fresh water used in production of the root commodity.
  • the additional system also comprises, in some preferred embodiments, a display associated with the computer, the display for displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality' category, (ii) water quality grade or (iii) water quality category and water quality grade, such that the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • the updateable current price of one or more root commodities and the updateable current price of fresh water of a particular are situated in different portions of the display.
  • One aspect of the present invention is a method for investing in fresh water based on a quality of the fresh water, comprising (a) receiving, using a processor, updateable current prices of at least one root commodity, root commodities being other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity; (b) associating at least one water quality category with at least one root commodity; and (c) determining, using a processor, for each water quality category of the at least one water quality category, an updateable current index value for fresh water meeting said each water quality category, the index value determined based on a current price of the at least one root commodity that was associated with said each water quality category and based on at least one of (i) a quantity of fresh water constituent in said at least one root commodity that was associated with said each water quality category and (ii) a quantity of fresh water used in production of said at least one root commodity that was associated with said each water quality category.
  • a further aspect of the present invention is a system for trading fresh water based on water quality, comprising a computer for receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent and (ii) water utilized in production of the said each root commodity, storing water quality standards for at least two water quality categories from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the water quality standards issued by at least one of EEC, WHO or the U.S., processing associations between each of at least one water quality category with financial instruments identifying on their face a particular amount of fresh water that meets water quality standards of the respective water quality category, the price of the financial instrument based on the particular amount of fresh water and a current index value for fresh water of a particular water quality category; and determining the updateable current index value for fresh water of each of the water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity of
  • this system further comprises a display associated with a computer for displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, such that the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • a still further aspect of the present invention is a system for trading fresh water based on water quality, comprising a computer for receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent and (ii) water utilized in production of the said each root commodity, storing water quality standards issued by at least one of EEC, WHO or the U.S.
  • each financial instrument identifying on its face a particular amount of fresh water that meets water quality standards of the respective water quality category from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the price of the financial instrument based on the particular amount of fresh water and a current index value for fresh water of a particular water quality category.
  • each financial instrument identifies on its face a particular amount of fresh water that meets water quality standards of the respective water quality category from among the following water quality categories: domestic water, agricultural water and industrial water. In some preferred embodiments of this system, each financial instrument identifies on its face a particular amount of fresh water that meets water quality standards of the respective water quality category from among the following water quality categories: domestic water, agricultural water and industrial water.
  • FIG. 1 is a flow chart showing a method in accordance with one embodiment of the present invention
  • FIG, 2 is a flowchart showing a further method in accordance with one embodiment of the present invention.
  • FIG. 3 is a flow chart showing a still further method in accordance with one embodiment of the present invention.
  • FIG. 4 is a flowchart showing a further method in accordance with one embodiment of the present invention.
  • FIG. 5 A is a schematic illustration of a display in accordance with one embodiment of the present invention.
  • FIG. 5B is a schematic illustration of a display, different than the display shown in FIG. 5A, in accordance with one embodiment of the present invention
  • FIG. 6A is a schematic illustration of a system of the present invention in accordance with one embodiment of the present invention.
  • FIG. 6B is a schematic illustration of a system of the present invention in accordance with one embodiment of the present invention.
  • FIG. 7 is a schematic illustration of a further system of the present invention in accordance with one embodiment of the present invention.
  • FIG. 8 is a schematic illustration of a further system of the present invention.
  • FIG. 9 is a schematic illustration of a display, in accordance with one embodiment of the present invention.
  • the present invention generally provides a method and system for creating a stable price of fresh water that is based on the quality of the fresh water. This may be applied to fresh water of a particular water source.
  • a financial instrument identifying on its face a particular amount of fresh water of a particular water quality category may state a price determined using an index value of fresh water of a particular water quality category.
  • the method of the present invention may include determining, using a processor, current prices of at least one root commodity, each root commodity being other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity.
  • the method may also include associating or matching each of at least one water quality category and/or quality grade with at least one root commodity such that a quality of water either constituent in the root commodity or used in production of the root commodity meets water quality standards of the respective water quality category.
  • the method may also involve determining, using a processor, a current index value for fresh water for each water quality category of the at least one water quality category.
  • the method may also include measuring fresh water of at least one water source with respect to chemical or physical criteria such as at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium absorption ratio to determine the water quality category and/or the water quality grade of fresh water from that water source.
  • a system of the present invention may include a water quality measuring device for measuring fresh water of at least one water source with respect to at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium absorption ratio.
  • the system may also include a computer for receiving data from the water quality measuring device with respect to the fresh water in regard to the at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium absorption ratio and for comparing the received data to stored water quality standards to determine a water quality category for the fresh water.
  • the computer may also determine current prices of at least one root commodity (the root commodities being other than water), each root commodity of the at least one root commodity having at least one of (i) water as a constituent in the root commodity and (ii) water utilized in production of the root commodity.
  • the computer may also be for processing associations between each of at least one water quality category with at least one root commodity and determining a current index value for fresh water of each of the water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said each water quality category and (ii) a quantity of fresh water used in production of the root commodity.
  • the present invention may also include in the method or system a display associated with a computer displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, the current price of the fresh water of the particular water quality being dependent on the current price of the one or more root commodities.
  • the independent variable prices of root commodities
  • the method and system of the present invention may create a stable price for fresh water, and a financial instrument associated therewith, which takes into consideration the quality of the water.
  • the price may be more accurate, more stable and more tailored to the different water sources throughout the different regions of the world.
  • today certain bottled water that comes from the Swiss Alps may command an inflated price, i.e.
  • a higher price than the quality would dictate, from the fact that the Alps have a reputation for high quality water yet in reality, due to constant pollution from pharmaceutical companies in the area, the quality has suffered.
  • the present invention would lead to a more accurate, quality-based price since the price may be tied to the water quality and since the quality of that water source may be measured and this measurement may be updated at reasonable intervals, for example annually.
  • having the price of water be based on water quality may better enable the utilization of water resources as financial collateral. This may further facilitate trade at a time when new equity is exclusively being sought, particularly in Europe.
  • the present invention by utilizing categories of water quality to create a price and to create financial instruments using that price, may encourage better water quality since one may be able to charge a higher price for water of higher water quality.
  • the present invention may adjust a price of water based on geographical location of the water source.
  • the display used in the method and system of the present invention may display both prices (or an index of) one or more root commodities and a price (or an index) for one or more categories and/or grade of fresh water based on quality, wherein the price of the fresh water may be derived from the price of one or more of the root commodities.
  • the display associated with the system and method of the present invention may display prices of one or more root commodities and prices or indices of one or more water quality categories and/or one or more water quality grades of fresh water wherein the price of the water is derived from the price of one or more of the root commodities.
  • the display of the method and system of the present invention may include a display of prices of one or more root commodities in a first portion of the display and the prices of various quality categories and/quality grades of fresh water in a second portion of the display, wherein the prices of the one or more quality categories and/or grades of fresh water displayed in the second portion of the display may be derived from and dependent on the displayed prices of one or more of the root commodities displayed in the first portion of the display.
  • Each of these displayed prices may be constantly updated.
  • a user of the display may be presented with a graphical illustration, discernable at a glance, of the relationship of the price of water to the price of the root commodities. This may provide users of the display with a better appreciation of this relationship between the commodities. Furthermore, by displaying water indices separately from other commodities, this may draw attention to the new use of water as a commodity and encourage water quality improvement since the prices of the water are tied to the quality category and/or grade of the fresh water.
  • the present invention may include a step of measuring the quality of a source of water (for example for TDS, carbonate, pH etc.) in order to fit the water into water quality categories (i.e. for pristine, for domestic, agricultural, industrial) and optionally grades of quality within each category.
  • a source of water for example for TDS, carbonate, pH etc.
  • the present invention may include a step of measure the quality of the water source in order to create categories of water quality to create separate prices (base prices or otherwise) for each water quality category.
  • “Fresh water” should be understood as including fresh water that has solidified in the form of ice, for example icebergs.
  • “associating”, “association” or “matching” water quality categories with root commodities this should be understood as also encompassing associating or matching root commodities with only a portion of a water quality category (i.e. a grade).
  • a matching of grade Al (where "A" is the water quality category) with a root commodity shall be understood to fall within and be an example of matching or associating water quality categories with root commodities.
  • TDS Total Dissolved Solids
  • water To qualify as pristine, water must come either from a deep confined aquifer or from a protected area (e.g. uninhabited area).
  • Toxins must be within drinking water standards. It is not the intention herein to list all toxins in water since this is known in the standard and since standards may change over time as to what constitutes a toxin. Rather, what is presented below is an example of how criteria may be developed from available knowledge to produce a systematic quality based value system for water. An example of drinking water standards for toxins
  • bottled water (which is an example of water from pristine source) may be broken down into grades and labeled/graded for example as ⁇ (, ⁇ 1, At, ott i ed 3 based on whether relative quality of the bottled water is high, medium or low.
  • TDS Total dissolved solids
  • TDS TDS above 500 mg/1 qualifies water as "low mineral content”; more than 1,500 mg/1 allows a "high mineral content” label.
  • Distilled water has a TDS of 0 mg/1; seawater has about 34,000 mg/1. Most bottled waters fall within a TDS range of 50 to 800 mg/1 (Ducale, 55 mg/1; Panna, 188 mg/1; Fiji, 210 mg/1; Evian, 357 mg/1; Perrier, 475 mg/1), but many highly regarded waters have a much higher TDS (San Pellegrino, 1,109 mg/1; Badoit, 1 ,200 mg/1; Contrex, 2,032 mg/1; Gerolsteiner, 2,527 mg/1). Some of these waters are thought to be curatives— their mineral compositions are believed to have healing properties (Famous Crazy, 2,783 mg/1; Vichy Celestms, 3,378 mg/1). But some curative waters have a low TDS: Fiuggi, for example, has a TDS of only 122 mg/1.
  • Hard water does not negatively affect health or taste. According to the U.S. National Research Council, the magnesium and calcium in hard water can actually contribute to daily dietary requirements, nil
  • pH has a very minor effect on the taste of water and no known health effects.
  • domestic water must also be fit for general use and transport. This puts limits on domestic quality water that are not found in more expensive pristine waters. For example,
  • Toxins must be less than drinking water standards
  • a very important factor in the suitability of water for irrigation is the salt content.
  • the suitability of a water for irrigation is determined not only by the total amount of salt present (measured as TDS) but also by the kind of salt.
  • the problems caused by salts vary both in kind and degree, and are modified by soil, climate and crop, as well as by the skill and knowledge of the water user. As a result, there is no set limit on water quality; rather, its suitability for use is determined by the conditions of use which affect the accumulation of the water constituents and which may restrict crop yield.
  • the soil problems most commonly encountered and used as a basis to evaluate water quality are those related to salinity, water infiltration rate, toxicity and a group of other miscellaneous problems.
  • Salinity - Salts in soil or water reduce water availability to the crop to such an extent that yield is affected.
  • Water Infiltration Rate Relatively high sodium or low calcium content of soil or water reduces the rate at which irrigation water enters soil to such an extent that sufficient water cannot infiltrate to supply the crop adequately from one irrigation to the next.
  • Specific Ion Toxicity Certain ions (sodium, chloride, or boron) from soil or water accumulate in a sensitive crop to concentrations high enough to cause crop damage and reduce yields.
  • SAR sodium Adsorption Ratio
  • SAR sodium Adsorption Ratio
  • TDS > 500 mg/1 500 - 75 mg/1 ⁇ 75 mg/1
  • TDS ⁇ 150 mg/I ⁇ 350 mg/l ⁇ 500 mg/l 2CO3 30 ⁇ J3 ⁇ 4CO 5 ⁇ 250 mg/l ⁇ 400 mg/l ⁇ 500 mg/l
  • the price structure may categorize water by its most strict use. Then the various quality aspects may be used to determine quality categories within each primary use category.
  • Water may be categorized into the following four general categories of use:
  • Pristine water is water from a pristine natural source that is drinkable without treatment. To qualify as pristine, water must come either from deep confined aquifer or from a protected area (e.g. uninhabited area). Toxins must be within drinking water standards. For example, to qualify as "pristine" waters, water will need to fulfill the minimal drinking water standards of some large body e.g. the US, the EEC or WHO for toxin content. In some cases, standards for pristine ready-to-drink water may differ from (and even be less strict than) municipal water standards.
  • Pristine water must come from a protected source, and fulfill the requirements of Table 1, and be within EEC drinking standards except for where they differ from Table 1.
  • Pristine water of municipal quality (Al, A2, A3) may be assigned a value of 1/3 the value of purified water + 2/3 the value of domestic water.
  • Pristine water not of municipal quality (Bl, B2, B3 S CI, C2, C3) may be assigned a value of 1/4 the value of bottled water + 3/4 the value of water for secondary use.
  • pristine water is to be used for drinking, pristine water loses a lot of value if it does not fit drinking standards). It should be understood that these assigned fractions (1/3 and 2/3; 1/4 and 3/4) are merely examples of fractions that may be chosen to effectuate weighted
  • fractional amounts or non-fractional coefficients
  • the value of purified water (used to calculate the value of pristine water) may be calculated from the prices of ready-to-drink waters (bottled water and purified water).
  • An example of such calculation is given in US patent no. 8,024,239; there, the value of purified water is labeled Pb and may sometimes be referred to as "bottled water”.
  • Pb the value of purified water
  • Pb may also be used in the more general sense of "ready to drink waters”.
  • Al water that meets drinking quality standards, but does not necessarily come from a protected source is not recommended for drinking without treatment.
  • Al water must fulfill the requirements of high qual ity drinking water from Table 2, and be within EEC drinking standards except for where they differ from the requirements of high quality drinking water from Table 2.
  • A2 water must fulfill the requirements of medium quality drinking water from Table 2, and be within EEC drinking standards except for where they differ from the requirements of medium quality drinking water from Table 2.
  • A3 water must fulfill the requirements of low quality drinking water from Table 2, and be within EEC drinking standards except for where they differ from the requirements of low quality drinking water from Table 2.
  • Category B is for water that is not pristine and not fit for drinking (domestic) use, but is fit for agricultural use.
  • Bl - fulfills the medium quality standards of Table 3 and the high quality standards of Table 4.
  • B2 - fulfills all of medium quality standards of Table 3 and Table 4.
  • B3 - fulfills all of low quality standards of Table 3 and Table 4.
  • agricultural waters may be graded according to suitability to a given crop.
  • waters suitable for all crops may be defined as B 1 whereas water suitable for grain and trees but not for vegetables may be B2 and water suitable for trees only may be B3.
  • Category C is for water that is not pristine and not fit for drinking (domestic) use, and is not fit for agricultural use, but is fit or industrial use. Subcategories of category C may be created. For example, CI - fulfills all of high quality standards of Table 5.
  • portion - Wi 0.1 ;
  • Pristine water of municipal quality (Al, A2, A3) has been assumed in these calculations to have a value of 1/3 the value of purified water + 2/3 the value of domestic water. It should be understood that these assigned fractions (1/3 and 2/3; 1/4 and 3/4) are merely examples of fractions that may be chosen to effectuate weighted combinations and other fractional amounts (or non-fractional coefficients) may be used.
  • Pristine water not of municipal quality (Bl, B2, B3, CI , C2, C3) has been assumed in these calculations to have a value of 1/4 the value of purified water + 3/4 secondary use.
  • the selection of the fraction may differ and this is only an example of how to mathematically represent a weighted combination.
  • index prices are in dollars per m 3 based on the Shirazi US patent 8,024,23 data: Table 9a - Example category prices Pristine Water
  • the water price index may take into account geographical preferences (i.e. pristine Al water from Iceland may be more valuable that pristine Al water from Brazil),
  • Packaging infrastructure distance from markets and transportation routes may also have to be taken into account when formulating a final price for the fresh water.
  • Transportation and storage costs raay be a significant part of the overall price of a final price that a buyer pays.
  • the price of fresh water displayed in a commodities exchange or which is used for a financial instrument may include the storage and transport costs or in other case do not include such costs.
  • Examples of packaging include shipping containers, large plastic bags holding the fresh water and in situ (at the source of the water) storage.
  • the market for natural gas may be considered as a model for these storage and transportation factors since, like water, a large part of the price of natural gas is for transport.
  • each of the four addends comprise three multiplicands including (1) the suitability factor of the water for a respective water quality category, (2) a market share of the water quality category and (3) a price index for water of that water quality category.
  • the present invention may in general be characterized as a method 100 for investing in fresh water based on a quality of the fresh water.
  • Method 100 may have a step 110 of (a) receiving, for example using a processor (for example a computer processor), updateable current prices of at least one root commodity other than water (all root commodities being other than 3478
  • each root commodity of the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity.
  • Method 100 may also have an additional step of selecting at least one root commodity from a plurality of commodities (some of which are root commodities and some or which are not) including for example identifying those commodities that have water as a constituent and/or those commodities that utilize water in their production and/or those commodities that have water as an output.
  • a processor may perform this additional step pursuant to instructions or criteria. Alternatively, a processor may perform this step by using or processing stored data in a memory storage device associated with the processor.
  • Another step 120 of method 100 may be associating or matching each of at least one water quality category in a plurality of water quality categories with at least one root commodity of the plurality of root commodities.
  • the matching or associating may be such that a quality of water (i) that is used in production of the root commodity and/or (ii) that is constituent in the root commodity, meets (or in other preferred embodiments is related to) water quality standards of the respective water quality category.
  • the water quality categories may be from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water.
  • the water quality standards may be those issued by at least one of EEC, WHO or the U.S.
  • An example of matching/associating is to take corn as a root commodity and match or associate either the water constituent in corn and/or the water used in the production of com, with water quality category Bl , B2 or B3 (water that is suitable for agricultural use and fits certain standards of Tables 3 and 4).
  • water quality category Bl , B2 or B3 water that is suitable for agricultural use and fits certain standards of Tables 3 and 4.
  • Step 120 may in some preferred embodiments be performed by a processor.
  • step 120 may associate or match each of at least one water quality category in at least one water quality categories with at least one root commodity such that a quality of water (i) that is used in production of the root commodity and/or (ii) that is constituent in the root commodity, is related to water quality standards of the respective water quality category in some other way.
  • a quality of water i.e. "AI ”
  • the association may be made between a water quality grade (i.e. "AI ") within the broader water quality category and the at least one root commodity.
  • AI water quality grade
  • a further step 130 of method 100 may be determining, using a processor, for each water quality category of the at least one water quality category, an updateable current index value for fresh water meeting said each water quality category, the index value determined based on a current price of said each root commodity that was matched with said each water quality category and based on at least one of (i) a quantity of fresh water constituent in said each root commodity that was matched with said each water quality category and (ii) a quantity of fresh water used in production of said each root commodity that was matched with said each water quality category.
  • Method 100 may also include physically measuring fresh water of at least one water source with respect to chemical or physical criteria of the water, for example measuring at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio, to determine the water quality category and/or the water quality grade of fresh water from that water source.
  • the results of the measuring may be compared to pre-set water quality standards in the form of ranges of each item (e.g.
  • TDS carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio) associated with each water quality category and/or water quality grade, as set forth in Tables 1 through 5 above and in the suggested definitions of water quality grades Al, A2, A3, B l, B2, B3, CI , C2, C3 discussed above.
  • the water quality measuring may be performed using one or more water quality measuring devices 380, 680, 780 (see FIGS. 6A, 6B, 7, 8). Updates of the water quality of a water source may be performed by re-measuring the water source using a water measuring device at a reasonable interval. Typically, water sources may be re-measured and updated as to quality categories and grades annually or in some cases more frequently or less frequently.
  • Method 100 may have a further step involving a display.
  • the further step may comprise displaying on a display 330 associated with a computer an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, wherein the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • the arrow in FIG. 5B indicates that the displayed prices and indicia are moving like a "ticker tape".
  • a numerically significant change in the current price of the one or more root commodities may result in a visible change in the current price of the fresh water of the particular water quality (which may be viewed as a dependent variable).
  • a "numerically significant" change in the price of the independent variable may be defined as a change that is enough to bring about a change of at least one digit of the displayed price of the dependent variable.
  • the further step involving the display may comprise displaying on a first portion of a display associated with a computer (which may be the computer processor used in step 120) at least one of the current index values for fresh water (which may be updateable) and some name or indicia (i.e. "water B3") identifying water as the commodity and/or the category and/or grade of fresh water whose updateable current index value is displayed on the first portion.
  • a computer which may be the computer processor used in step 120
  • water B3 some name or indicia
  • an indicia may identify a category of fresh water by denoting water of that category even without including the term "water” or the term "!3 ⁇ 40" as part of the indicia such as by using some other symbol known to those who may view the display as indicating water or water of a particular quality category and/or grade.
  • the display may also display on a second portion of the display a current price of at least one root commodity from which the at least one of the updateable current index values is derived and some name or indicia (i.e. "corn") identifying a root commodity (and preferably each such root commodity) whose current price is displayed on the second portion.
  • an independent variable being a current price of at least one root commodity may be displayed on one portion of the display and a dependent variable being a current price of at least one water quality category and/or grade may be displayed on a different portion of the display. This may cause the prices of the fresh water (and its quality) and its dependence on the root commodity prices to be more conspicuous.
  • FIGS. 5 A and 5B are merely examples of how the prices/indices may he displayed.
  • the first and second portions 331, 332 of the display 330 are shown one on top of the other and as a moving "tape". This is of course not a limitation and the first and second portion can be in a static table format or in any other visible format
  • FIG. 9 shows a display device 330 associated with a computer 310 and a processor.
  • the display device 330 is displaying a stable price of fresh water by displaying side by side on a display device (a) a current updateable price of a first root commodity (corn) at a price 338 of 139.2 in this example and (b) a first current updateable price 333 of fresh water (100.2 in this example) of a particular water quality category or grade (water B2 334), wherein the current updateable price of the fresh water may be calculated based on the arrrent updateable price of the first root commodity, the first root commodity being a commodity other than water in any physical form.
  • FIG. 9 shows a display device 330 associated with a computer 310 and a processor.
  • the display device 330 is displaying a stable price of fresh water by displaying side by side on a display device (a) a current updateable price of a first root commodity (corn) at a price 338 of 139.2 in this example and (b)
  • FIG. 9 also further shows display device 330 displaying side by side on the display device (a) a current updateable price of a second root commodity (wheat) 338 at 748.8 and (b) a second current updateable price 333 of fresh water (153.7 in this example) of a particular but different water quality category or grade (water Bl 334), wherein the second current updateable price of the fresh water is calculated based on the current updateable price of the second root commodity, the second root commodity being a commodity other than water in any physical form.
  • corn and wheat are examples of "root commodities”. Corn and wheat are also examples of products that either contain water or wherein water is used in their production and hence using one preferred embodiment of the present invention may be used in calculating or determining a current updateable price of water of a particular water grade or category.
  • corn and wheat are examples of root commodities such that the price of the water may be based on an updateable current price of the corn and/or wheat (at least one root commodity) or other root commodities and may be based also on a physical relationship between a physical quantity of actual water and at least one of (i) a physical quantity of the actual at least one root commodity and (ii) production of a physical quantity of the actual at least one root commodity, wherein each root commodity of the at least one root commodity is a commodity other than water.
  • the current updateable price of the water of a particular grade and/or category may be determined using a processor by using one or more mathematical operations to mathematically combine the updateable current price of the at least one root commodity (for example wheat) and ( ⁇ ) the physical quantity of the actual at least one root commodity (for example wheat) having the physical relationship with the physical quantity of the actual water (i.e. an amount of water constituent in a quantity of actual wheat) and (ii) the physical quantity produced of the actual at least one root commodity (for example wheat) having the physical relationship with the physical quantity of the actual water, for example the amount of water utilized to produce a certain amount of actual wheat.
  • the updateable current price of the at least one root commodity for example wheat
  • the physical quantity of the actual at least one root commodity having the physical relationship with the physical quantity of the actual water
  • the physical quantity of the actual water i.e. an amount of water constituent in a quantity of actual wheat
  • the physical quantity produced of the actual at least one root commodity for example wheat
  • FIG. 9 also shows the display displaying in a second portion of the display device 330 a composite current updateable price 333C of fresh water (112.3) that may be calculated based on the current updateable price of the first and second root commodities (corn and wheat) and based on a respective market share or market weight of the first and second root commodities (respective market shares of corn, wheat).
  • Display 330 is associated with and may be in communication with and may receive current updateable prices (of water, of a root commodity, etc.) or other instructions from, a processor 352, which may be a computer processor.
  • any method of the present invention 100, 200, 800, 300
  • a processor when "a processor” is described as acting during one step of the method and the term "a processor” is described as acting in a further step of the method, this means that in certain preferred embodiments the processor acting in the further step is the same processor as the processor acting in the earlier mentioned step and in certain other preferred embodiments, the processor acting in the further step is a different processor as the processor acting in the earlier mentioned step.
  • the method is thereby referring to the "a processor" in the further method step as a processor which may or may not be the same processor as the earlier mentioned step.
  • the updateable current index values or the at least one of the updateable current index values displayed may be updated over time as the factors used in determining the price themselves get updated.
  • the displayed current price of the one or more root commodities may vary and be updated.
  • the market share of the various respective root commodities may change.
  • the amount of water constituent in the root commodities may change and the amount of water used in production of a root commodity may change, although these latter two factors are not as likely to change as often as the market share or price.
  • the display and in particular the prices and index values on the display may be accessible to the public either by appearing on a web site or on a ticker tape on a building or in other ways known in the art for the display of commodity prices.
  • a further step of the method 100 may be determining, using a processor, a price of fresh water derived from a particular water source (or a specific amount of water being sold) by determining a current level of suitability of that fresh water for each of the plurality of water quality categories and by then combining all of the updateable current index values of the fresh water of each water quality categories together by weighting each index value being combined by (i) the determined current level of suitability of the fresh water being priced (i.e. water from the particular water source or the specific quantity of water being sold) for each of the plurality of water quality categories and by (ii) a market share of water from each water quality category.
  • another method 200 of the present invention is similar to method 100 except that the m tching or associating step 220 may be performed such that a quality of water that is constituent in the respective root commodity meets (or in other preferred embodiments is otherwise related to) water quality standards of the respective water quality category. It should be understood that in any method (or system) of the present invention, there is no limit to the number of root commodities that are used to derive the current price of the fresh water of a particular quality category and/or grade.
  • Method 200 may also have an additional step of selecting at least one root commodity from a plurality of commodities (some of which are root commodities and some or which are not) including for example identifying those commodities that have water as a constituent and/or those commodities that utilize water in their production and/or those commodities that have water as an output.
  • a processor may perform this additional step pursuant to instructions or criteria.
  • a processor may perform this step by using or processing stored data in a memory storage device associated with the processor.
  • Method 800 may be described as a method 800 of using financial instruments to invest in fresh water based of water quality.
  • Method 800 may have a step 810 of receiving, for example using a processor, such as a computer processor, a price of each of the financial instruments identifying on its face a particular amount of fresh water of a particular water quality category, the price of each financial instrument determined using an updateable current index value of fresh water of a particular water quality category.
  • Step 820 may comprise having a data storage device such a memory storage device of a computer, or a computer, store water quality standards for a plurality of water quality categories.
  • Method 800 may have additional steps that are similar to methods 100 or 200 or 400 (or in other embodiments to the steps performed by the computer in systems 300 or 600).
  • method 800 may have a step 830 of receiving, for example using a processor such as a computer processor, updateable current prices of at least one root commodity, the root commodities being other than water, each root commodity in the at least one root commodity having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity.
  • Method 800 may also have an additional step of selecting at least one root commodity from a plurality of commodities (some of which are root commodities and some or which are not) including for example identifying those commodities that have water as a constituent and/or those commodities that utilize water in their production and/or those commodities that have water as an output.
  • a processor may perform this additional step pursuant to instructions or criteria.
  • a processor may perform this step by using or processing stored data in a memory storage device associated with the processor.
  • Step 840 may be associating each water quality category of the at least one water quality category with a root commodity of the least one root commodity.
  • the associating or matching may be such that a quality of water either (i) constituent in a respective root commodity and or (ii) used in production of the respective root commodity, meets (or in other embodiments is related to) water quality standards of the respective water quality category.
  • Step 850 may be determining, using a computer processor, for each water quality category of the at least one water quality category, the updateable current index value for fresh water meeting said each water quality category, the index value determined based on a current price of said each root commodity associated with said each water quality category and based on at least one of (i) a quantity of fresh water constituent in said each root commodity associated with said each water quality category and (ii) a quantity of fresh water used in production of said each root commodity associated, with said each water quality category.
  • Method 800 may, in some preferred embodiments, have a step of displaying on a first portion of a display (such as the display 330 shown in FIG. 5A) associated with a computer processor at least one of the updateable current index values for fresh water, the display also displaying on a second portion of the display (or in some embodiments also on the first portion of the display) a price of at least one root commodity from which the at least one of the updateable current index values is deri ved, the at least one of the updateable current index values and the price of the at least one root commodity each being updated over time.
  • a display such as the display 330 shown in FIG. 5A
  • a computer processor at least one of the updateable current index values for fresh water
  • the display also displaying on a second portion of the display (or in some embodiments also on the first portion of the display) a price of at least one root commodity from which the at least one of the updateable current index values is deri ved, the at least one of the updateable current index values and the price of
  • a user looking at display 330 could discern changes in a price index of at least one root commodity followed by changes in a price index of at least one water quality category or grade within such water quality category such that the changes in the price index of the at least one water quality category may appear to be related to changes in the price index of the at least one root commodity.
  • the water quality categories may have standards specifying ranges for at least one of, at least two of, at least three of, at least four of, at least five of or at least any other number of or all of the following: TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio.
  • a system 300 of the present invention may include a computer processor 352 and may have multiple computer memory devices such as a RAM 354, a boot ROM 356, a mass storage device 358 such as a hard disk 358.
  • the memory devices may communicate to the processor 352 through a bus 66 and may communicate to each other through a common bus 366.
  • Computer-readable program code 3 1 may be stored in a memory device such as mass storage device 58 and may be executed by processor 352 to access the memory device.
  • Mass storage device 358 is an example of a non-transitory computer readable storage medium having computer- readable code for implementing the data storage methodology described.
  • system 300B may include a computer 310 having a computer processor 352 and multiple computer memory devices such as a RAM 354, a boot ROM 356, a hard disk 358 for mass storage and a flash memory device 364 known in the art.
  • the memory devices may communicate to the processor 352 through a bus 366 and may communicate to each other through a common bus 366.
  • a software driver 360 of a memory device such as flash memory device 64 may be stored in mass storage device 358 and may be executed by processor 352 to access the memory device such as flash memory device 364.
  • Driver 360 may include a module 362 for encoding data to be stored in the memory device such as flash memory device 364 and for decoding codewords received from of the memory device such as lash memory device 364.
  • the components of the system 300B other than the flash memory device 364 may comprise a host 370 of flash memory device 364, which may be computer 310.
  • Mass storage device 358 is an example of a non-transitory computer readable storage medium having computer-readable code 1 for implementing the data storage methodology described.
  • the computer-readable program code 361 of FIG. 6A may be embedded in a non- transitory computer readable medium and may be executed by processor 352.
  • the program code 61 may comprise program code for executing any of the several processing functions to be described.
  • FIG. 6A schematically depicts a system 300.
  • FIG. 6B schematically depicts a similar system 300B but one that includes flash memory drive.
  • Each of system 300A, 300B may be for trading fresh water based on water quality, may comprise a computer 310 that may include a processor 352, may be linked to any or all of the multiple computer memory storage devices mentioned above (i.e. 354, 356 (or also flash memory drive 364 in the case of system 300B seen in FIG. 6B) and may have software 361 for operation of computer 310.
  • Computer 10 and/or the program code 361 may comprise program code for receiving current prices of at least one or a plurality of root commodities, the root commodities being other than water, each root commodity in the plurality of root commodities having at least one of (i) water as a constituent in the root commodity and (ii) water utilized in production of the root commodity.
  • Computer 310 and/or the program code 361 may comprise program code for storing water quality standards for at least one or a plurality of water quality categories.
  • Processor 352 associated with system 300 may be programmable or may have program code 361 , in association with computer 310, to implement a step of receiving updateable current prices of at least one root commodity and to implement an additional step of selecting at least one root commodity from a plurality of commodities (some of which are root commodities and some or which are not) including for example identifying those commodities that have water as a constituent and/or those commodities that utilize water in their production and/or those commodities that have water as an output.
  • a processor may perform this additional step pursuant to instructions or criteria.
  • a processor may perform this step by using or processing stored data in a memory storage device associated with the processor.
  • Computer 310, or processor 352 associated with computer 310 may be configured for, and/or the program code 361 may comprise program code for, processing associations between each of at least one water quality category with at least one root commodity. Processing associations may comprise determining associations from data provided and/or may include storing associations for further application. Computer 310 and/or program code 361 may include (or be linked or associated with) a memory storage device (i.e. 354, 356, 358 (and also flash memory storage 364 in the case of system 300B) to store these associations between each of at least one water quality category with at least one root commodity.
  • a memory storage device i.e. 354, 356, 358 (and also flash memory storage 364 in the case of system 300B
  • the associations may be such that a quality of water that is either (or both) (i) used in production of the root commodity or (ii) that is a constituent of the root commodity, meets (or in other embodiments is otherwise related to) water quality standards of the respective water quality category. If the determining of the associations is not performed by the computer then the computer may only store the associations and apply them.
  • Computer 310 and/or the program code 361 may also include program code for determining an updateable current index value for fresh water of each of the water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said each water quality category and (ii) a quantity of fresh water used in production of the root commodity.
  • System 300 may also include a water quality measuring device 380 or measuring fresh water of at least one water source (that has fresh water) with respect to at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by water quality category and/or to categorize the fresh water of the at least one water source by water quality grade within a water quality category of the fresh water of the at least one water source.
  • the water quality measuring device 380 may comprise a device for measuring at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio.
  • the water measuring device 380 may include more than one water measuring devices and/or may be configured to measure at least two, at least three, at least four, at least five, at least six, at least, a majority, and preferably all of the above-mentioned physical or chemical criteria (TDS, carbonate content, pH. Harness, sodium chloride, nitrate, toxins and SAR).
  • TDS physical or chemical criteria
  • Computer 310 may be configured to receive data from water quality measuring device, or from a computer or other device that stores such data and to compare the received data against stored water quality standards to determine a water quality category and/or water quality grade for the fresh water.
  • System 300 may also include a financial instrument (shown as 340 in Shirazi '239 patent FIG. 1), such as a certificate 106 (see, e.g. Shirazi '239 patent FIG. 1) or a bond, a share, a stock, a future, reciting on its face a quantity of fresh water (and/or an index value or price for fresh water of a particular quality category).
  • a financial instrument shown as 340 in Shirazi '239 patent FIG. 1
  • a certificate 106 see, e.g. Shirazi '239 patent FIG. 1
  • the memory devices of system 300 may also be for storing one or more updateabke current index values for fresh water of each water quality category.
  • system 300 may further comprise a display 330 associated with the computer 310 for displaying an independent variable on a first portion 331 of the display 330 such as at least one 333 of the updateable current index values for fresh water and a name or indicia 334 (i.e. "water B3") identifying the commodity as water and/or the category of fresh water whose updateable current index value is displayed on the first portion, the display also displaying on a second portion 332 of the display 330 (or in some embodiments also on the first portion of the display) a dependent variable such as a current price 338 of at least one root commodity from which the at least one of the updateable current index values is derived and a name or an indicia 339 (i.e.
  • a user looking at display 330 is able to see changes in a price index of at least one root commodity (which may be an independent variable) followed by changes in a price index of fresh water that is of at least one water quality category and/or water quality grade (within a water quality category) (which may be a dependent variable) such that the changes in the price index of the at least one water quality category may appear to be related to changes in the price index of the at least one root commodity.
  • a numerically significant change in the independent variable may result in a visible change of at least one digit in the dependent variable.
  • FIG. 5A displays the independent variable and the dependent variable in different portions, in other preferred embodiments, the independent variable and the dependent variable are displayed in the same portion of the display.
  • the system includes a display 330B (as shown in FIG. 5B) associated with a computer for displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category, (ii) water quality grade or (iii) water quality category and water quality grade, such that the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • a display 330B as shown in FIG. 5B
  • the displayed prices of the at least one root commodity 338B and of the current prices of the fresh water 333B are situated in the same portion 332B of the display 330B.
  • the display is for displaying one or more of the updateable current index values for fresh water and an indicia identifying either water or a category of fresh water for each one of the current index value displayed on the first portion, the display also displaying a current price of at least one root commodity from which the at least one of the updateable current index values is derived and an indicia identifying each of the at least one root commodity whose current price i s displayed on the display.
  • the at least one water quality category may include one or two or three from the following categories (i) a first water quality category for water that meets minimal standards for either drinking or domestic use, (ii) a second water quality category for water that does not meet standards for drinking water but meets minimal standards for agricultural quality water and (iii) a third water quality category for water that does not meet standards for agricultural quality water or drinking water but meets minimal standards for industrial quality water.
  • the water quality categories of system 300 may include at least one or at least two or three or four of the four water quality categories (or at least a plurality or majority or some other specific number of categories plus any subcategories referred to as water quality grades).
  • water from icebergs may be viewed as a subcategory of drinking water in any method or system of the present invention.
  • the water quality standards used in the water quality categories and/or grades in any method or system of the present invention may specify ranges for at least one of (or at least two or at least three or four or five or any other plurality or majority or all of the following physical and/or chemical criteria or yardsticks): TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio. Examples of the specific ranges are provided in Tables 1 through 5 herein.
  • the water quality categories in any method or system of the present invention may be a water quality category from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water and the water quality standards may be those issued by at least one ofEEC, WHO or the U.S.
  • Computer 310 of system 300 may in some preferred embodiments also determine, using its processor, a price of fresh water derived from a particular water source (or a specific amount of water being sold) by determining a current level of suitability of that fresh water for each of at least one water quality category and/or grades or at least two water quality categories (and/or grades) and by then mathematically combining all of the updateable current index values of the fresh water of each water quality categories (and/or grade) together, for example by weighting each index value being combined by (i) the determined current level of suitability of the fresh water being priced (i.e.
  • the determination of the current level of suitability may be updated on a regular basis such as daily, weekly, monthly, annually, hourly, each minute or at any other reasonable time interval. This determination of the current level of suitability may also apply to system 600.
  • System 600 may comprise at least one computer 610 of at least one commodities exchange 608 outputting prices of various commodities and in particular various commodities that are not water. At least one of these commodities may be a root commodity that either has fresh water as a constituent or whose production utilizes fresh water or both.
  • a root commodity corn may be a root commodity since it contains water and independently since it utilizes water in it production.
  • System 600 may also include a system computer 620 having the hardware and software elements shown in FIGS. 6A-6B for systems 300 and 300B.
  • system computer 620 may have a processor 622, one or more memory storage devices 624 linked to the processor 622 and code for operating the system computer 620.
  • the system computer 620 may be linked (for example by a telecommunications link) with, and may be configured to receive from, the at least one computer 610 of the at least one commodities exchange updateable price data for the commodities.
  • the system computer 620 may be configured to identify root commodities and extract, from the updateable price data, the current price for the identified root commodities.
  • the system computer 620 and/or processor 622 may also configured to or programmed to
  • Processor 622 may also be programmed to compute the current index value by reference to a market share of respective water sales in respective water quality qualities (and/or grades) and/or by reference to a market share of various root commodities.
  • the system computer 620 may be configured to transmit the computed updateable current index value of each water quality category to the at least one computer 610. As shown by the arrows in FIG. 7, this may complete a data cycle that may include a first leg running from the at least one computer 61.0 to the system computer 620 and a return leg or second leg running from the system computer 620 to the at least one computer 610.
  • the data cycle may involve extracting commodity price data from computer 610 and returning prices of water, for example prices based on water quality, from system computer 620 to the at least one computer 610.
  • System 600 may also include a water quality measuring device 680 for measuring fresh water of at least one water source with respect to at least one of TDS, carbonate content, H, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio to categorize the fresh water of the at least one water source by water quality category and'or to categorize the fresh water of the at least one water source by water quality grade within a water quality category of the fresh water of the at least one water source.
  • System computer 620 may be configured to receive data from water quality measuring device 680, or from a computer or other device that stores such data and to compare the received data against stored water quality standards to determine a water quality category and/or water quality grade for the fresh water.
  • system 600 may also include a display 630 (of the kind shown in FIG. 5 A for example) associated with the at least one computer 610.
  • the "association" may allow feeding and displaying of updated current prices in real time.
  • the prices or indices of the independent variable and of the dependent variable may be updated at intervals of months, weeks, days, hours, minutes, seconds or any other reasonable interval.
  • the display 330 may have a first portion 331 and a second display portion 332.
  • Display 330 may display at least one current index value for fresh water of a water quality category and/or grade in first portion 331 of the display which may be updated over time and may display prices of identified root commodities from which the at least one current index value for fresh water is derived on second portion 332 of the display which may be updated over time.
  • there are two adjacent and moving areas of the display such as "ticker tapes" or scrolling electronic tickers, one showing prices and names of root commodities and one showing prices and names of water commodities, i.e. fresh water of a particular grade or water quality category.
  • a viewer may be able to observe both portions of display 330 and may be able to observe that as the prices of the underlying root commodities changes, there is a change in the price of a related or associated water index, i.e. an updateable current water index whose price is derived from such root commodity as computed by a processor using factors, relationships, algorithms, calculations, functions and/or methods described in this patent application.
  • a related or associated water index i.e. an updateable current water index whose price is derived from such root commodity as computed by a processor using factors, relationships, algorithms, calculations, functions and/or methods described in this patent application.
  • the display 330 may be associated with system computer 620 rather than the at least one computer 610 or may be associated with both of them (610, 620).
  • System 700 may comprise a water quality measuring device 780 for measuring fresh water of at least one water source with respect to at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio.
  • System 700 may also include a computer having the components described with respect to systems 300, 300B (processor, memory etc.). As exemplified by the arrow in FIG. 8, the results or data ascertained by the device 780 may be transmitted to a computer 710 for storage and processing.
  • computer 710 may be configured to receive data from the water quality measuring device with respect to the fresh water in regard to the at least one of TDS, carbonate content, pH, hardness, sodium, chloride, nitrate, toxins and sodium adsorption ratio and for comparing the received data to stored water quality standards to determine a water quality category for the fresh water.
  • Computer 710 may also be (and may have programming instructions in code) for determining current prices of at least one root commodity that is other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent in the root commodity and (ii) water utilized in production of the root commodity, for processing associations between each of at least one water quality category and at least one root commodity; and for determining an updateable current index value for fresh water of each water quality category of the at least one water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said each water quality category and (ii) a quantity of fresh water used in production of the root commodity.
  • computer 710 may also be for determining a water quality grade, and for processing associations between each of at least one water quality grade with the at least one root commodity; and determining an updateable current index value for fresh water of each water quality grade based on a current price of said each root commodity and based on at least one of (i) a quantity of fresh water constituent in the root commodity associated with said each water quality grade and (ii) a quantity of fresh water used in production of the root commodity.
  • System 700 may also include a display 730 associated with computer 710, for example a display 730 similar to the display shown in FIG. 5 A or FIG. 5B, and may have the features described in relation to the display of the previously described methods and/or systems of the present invention.
  • display 730 may display both an independent variable (i.e. updateable current prices of at least one root commodity) and a dependent variable (updateable current prices of fresh water of a particular water quality category and/or water quality grade.
  • the fresh water whose price may comprise the dependent variable may be a constituent of and/or may be utilized in the production of, at least one of the root commodities whose price may comprise the independent variable or variables.
  • a processor such as a computer processor, may use one or more mathematical operations to mathematically combine factors such as a quantity of fresh water constituent in a root commodity, a quality of fresh water utilized in production of a root commodity, a price of a root commodity, a market share (market weight) of fresh water of a particular water quality category and/or grade within a total market of fresh water, a suitability factor, a base price of water, an adjustment factor, a market share of one or more particular root commodities out of a total market of all relevant root commodities, a quantity of fresh water in a particular collateral, a quantity of fresh water described on the face of a financial instrument or other factors.
  • factors such as a quantity of fresh water constituent in a root commodity, a quality of fresh water utilized in production of a root commodity, a price of a root commodity, a market share (market weight) of fresh water of a particular water quality category and/or grade within a total market of fresh water, a suitability factor, a base price of water, an adjustment factor,
  • prices of root commodities may be updated in real time from a commodities exchange (see 608 in FIG . 7).
  • Data for determining market shares and prices of products may come from publicly available statistics, for example information available over the Internet (for example statistics may be acquired from web sites associated with commodities markets, futures markets, stock exchanges (for example atN.Y., Chicago, London, Tokyo) and therefore can be updated easily in real time.
  • statistics may be updated from periodically from published statistics or from statistics released from a government agency.
  • Any of the commodities referred to herein may be publicly traded commodities.
  • Method 400 may comprise a step 410 of receiving, for example using a processor such as a computer processor, updateable current prices of one or more (or of two or more or three or more, etc.) root commodities, the root commodities being other than water, each root commodity in the at least one or (or at least two etc) root commodities having at least one of (i) water as a constituent in said each root commodity and (ii) water utilized in production of said each root commodity.
  • a processor such as a computer processor
  • Method 400 may also have an additional step of selecting at least one root commodity from a plurality of commodities (some of which are root commodities and some or which are not) including for example identifying those commodities that have water as a constituent and/or those commodities that utilize water in their production and/or those commodities that have water as an output.
  • a processor may perform this additional step pursuant to instructions or criteria.
  • a processor may perform this step by using or processing stored data in a memory storage device associated with the processor.
  • Step 420 may involve matching each of at least one water quality category and/or water quality grade in the at least one water quality category and/or grade with at least one root commodity of the at least one (or at least two, etc) root commodity.
  • Step 430 may comprise determining, using a computer processor, for each water quality category (and/or grade) of the at least one water quality category, an updateable current index value for fresh water meeting said each water quality category, the index value determined based on a current price of said each root commodity that was matched with said each water quality category and based on at least one of (i) a quantity of fresh water constituent in said each root commodity that was matched with said each water quality category and (ii) a quantity of fresh water used in production of said each root commodity that was matched with said each water quality category.
  • the computer processor involved in method 400 (as well as the processor of methods 100, 200 and 800) may be the processor 352 shown in FIGS. 6A and 6B for systems 300A and 300B.
  • a further step of method 400 may involve using a processor to determine an adjusted current index value by adjusting the price of pristine water based on a suitability of the pristine water for two or three of the following: (i) drinking, (ii) agricultural use and (iii) industrial use as shown in Table 7a and Table 9a. If the water is non-pristine water, then a further step may involve adjusting, using a processor, the price of non-pristine water based on a suitability of the non-pristine water for at least one (or in other preferred embodiments at least two) of (i) drinking, (ii) agricultural use and (iii) industrial use as shown in Table 8b and Table 10b to determine an adjusted current index value.
  • step 400 from which the at least one of the current index values is derived and an indicia identifying a root commodity (preferably each soot commodity) whose current price is displayed on the second portion.
  • steps of method 400 may be added to step 210 (or steps 210 and 220) of method 200 involving financial instruments.
  • the display may show the updateable current price of the fresh water (the dependent variable) based on quality and the updateable current price of the at least one root commodity (independent variable) in the same portion of the display.
  • Method 400 may al so have an additional step of determining, using a processor such as a computer processor, a price of each of a plurality of financial instruments identifying on its face a particular amount of fresh water of a particular water quality category, the price of each financial instrument determined using the current index value of fresh water for one water quality category.
  • a processor such as a computer processor
  • systems 300, 600 may be modified so that the steps performed by computer 310 and/or code 361 in system 300 may correspond to steps of any of the methods described herein.
  • the price of the water may be adjusted may be the geographical location of the source of water. Adjustment factors for geography may be stored in computer 310.
  • a system may include collateral configured to act as collateral for the financial instrument described herein.
  • the collateral may be a large body of fresh water owned by a municipality and the collateral may be fresh water from a lake for example.
  • the collateral may be a large amount of fresh water stored somewhere after being removed from a water source.
  • the collateral may be water or ice from an iceberg, or from part of the iceberg.
  • a broker may be involved in using any of the standardized price indices described herein.
  • current prices of fresh water of a particular water quality category and/or grade may be stored in a memory of a desktop or other computer of a broker and may be calculated by the processor of the computer.
  • the present invention may also be described as a system for trading fresh water based on water quality, comprising a computer for receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent and (ii) water utilized in production of the said each root commodity, storing water quality standards for at least two water quality categories from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the water quality standards issued by at least one of EEC, WHO or the U.S., processing associations between each of at least one water quality category with financial instruments identifying on their face a particular amount of fresh water that meets water quality standards of the respective water quality category, the price of the financial instrument based on the particular amount of fresh water and an updateable current index value for fresh water of a particular water quality category; and determining the updateable current index value for fresh water of each of the water quality categories based on a current price of said each root commodity and based on at least one of (i) a quantity
  • the system may further comprise a display associated with a computer for displaying an updateable current price of one or more root commodities and an updateable current price of fresh water of a particular (i) water quality category and/or (ii) water quality grade, such that the current price of the fresh water of the particular water quality is dependent on the current price of the one or more root commodities.
  • the present invention may also be described as a system for trading fresh water based on water quality, comprising a computer for receiving updateable current prices of at least one root commodity other than water, each root commodity of the at least one root commodity having at least one of (i) water as a constituent and (ii) water utilized in production of the said each root commodity, storing water quality standards issued by at least one of EEC, WHO or the U.S.
  • each financial instrument identifying on its face a particular amount of fresh water that meets water quality standards of the respective water quality category from among the following water quality categories: pristine quality, drinking water, domestic water, agricultural water and industrial water, the price of the financial instrument based on the particular amount of fresh water and a current index value for fresh water of a particular water quality category.
  • each financial instrument identifies on its face a particular amount of fresh water that meets water quality standards of the respective water quality category from among the following water quality categories: domestic water, agricultural water and industrial water.
  • Each financial instrument may identify on its face a particular amount of fresh water that meets water quality standards of the respective water quality category from among the following water quality categories: domestic water, agricultural water and industrial water.
  • the present invention may also be described as a system used, for example by a commodities exchange, in trading water based on quality, comprising financial instruments, each of the financial instruments identifying on its face a particular amount of fresh water, the price of each financial instrument determined using a current updateable price of the fresh water and the particular amount of the fresh water, a processor configured to receive the current updateable price of water, the updateable current price of the water having been determined from (A) an updateable current price of at least one root commodity and (B) a physical relationship between a physical quantity of the actual water and at least one of (i) a physical quantity of the actual at least one root commodity and (ii) production of a physical quantity of the actual at least one root commodity, the updateable current price of the water having been determined by using one or more mathematical operations to mathematically combine the updateable current price of the at least one root commodity and at least one of (i) the physical quantity of the actual at least one root commodity having the physical relationship with the physical quantity of the actual water and (ii) the physical quantity produced of the actual at
  • reference to the water quality standards being issued by at least one of EEC, WHO or the U.S. is only one preferred embodiment of the present invention and other various preferred embodiments may involve the water quality standards being issued specifically by the EEC, a preferred embodiment wherein the water quality standards are issued specifically by the WHO, a preferred embodiment in which the water quality standards are used specifically by the U.S. (which means a part of the U.S. government) or preferred embodiments wherein the standards are issued by another respected entity that promulgates water quality standards.
  • Broker 120 issues a certificate 106 (alternatively another financial instrument can be used for example a bond, a share, a stock, a future) for the water of collateral 101 and sells certificates 106 according to index value 104.
  • a certificate 106 alternatively another financial instrument can be used for example a bond, a share, a stock, a future
  • index value 104 is $1.07/m 3
  • the broker 120 sells certificate 106 for 1000 m 3 for $1070 plus a 2% commission.
  • An Investor 108 may redeem certificate 106 by requesting that municipality 102 deliver 1000 m 3 of water to investor 108 (investor 108 being responsible for transportation and handling cost), or investor 108 may hold onto certificate 106 assuming that index value 104 will rise and then investor 108 will sell certificate 106 to another investor (possibly via broker 1 0) and collect a profit (minus any brokerage charges).
  • Figure 2 (of Shirazi '239 patent) is a generalized flow chart of a method marketing a commodity.
  • a broker searches for a resource that is under capitalized. For example there is a large quantity of fresh water available in the world and a need for the water but not enough capital to develop or even protect this resource. Therefore the broker chooses (block 211) to market fresh water. The broker must now locate (box 213) fresh water rights that can be acquired as collateral.
  • the broker finds that in Brazil there are a lot of natural lakes having large quantities of accessible water. Then it is necessary to define (box 215) a region of evaluation.
  • the broker chooses to index fresh water according to the international value (worldwide) of water. Particularly, first the broker establishes (block 217) the main products of water in the world market and resolves (block 21 ) the weights for each product and ascertains (block 220) the price of each product and computes (box 221) the value of substance according to each product and calculates (box 222) an index value of the substance based on the compound price of the various products each weighted by its weight factor.
  • the broker then divides (box 223) the collateral into portions (for example a share which may be 1000 m3 of water, the collateral may be marketed using a share or another financial instrument as known in the art) and determines (box 225) a market value of each share according to the index value and the condition of the collateral (for example the price of the share may take into consideration the quality of the water in the lake or the location and accessibility of the water). For example if the index value is 1.07 usd/m3 and a share of the lake contains 1000 m3 then the market value of share may be 1070 usd.
  • the broker acquires (box 227) rights to market the collateral. For example the broker acquires (box 227) rights to the collateral by setting up a futures contract or suppl contract with the municipality that owns a lake. Then the broker sells (box 229) shares to the collateral to an investor at the market value plus a commission.
  • the index value is sometimes updated. Particularly, periodically the algorithm checks (box 235) if it is time to update the state of the collateral (for example this may be done yearly or monthly or whenever there is a need to expand or adjust the index) if "yes” then a professional appraiser appraises (box 236) the collateral for the quantity, quality and availability of the water and the value of the collateral is adjusted (box 237) and then any new collateral necessary is located (box 213) the share certificates are adjusted (box 239) to make sure that each certificate is covered by valid assets and if necessary new collateral is located (box 213). If it is not time to adjust the collateral, ("no" in box 235) then the algorithm checks (box 233) if the time has comes to update the weights (Wx and Wxj [e.g.
  • Figure 3 shows the results of example calculations of the weights of products and values of a commodity.
  • eight products water products
  • the product weights Wx (line 362) are the portion of the water market represented by that product.
  • one or more representative cases are chosen. For each representative case a case weight Wx; (lines 363a-f) is resolved and a case value i (lines 364a-f) is ascertained respectively.
  • the calculations for the index value could also include virtual water used in manufactured products such as paper (where water is used to suspend the wood colloids and in cleaning and finishing processes).
  • a global market weight factor W is resolved 219 for each product. More specifically in the example of Figure 3 (Shirazi '239 patent), the global market weight factors Wa, Wq, Wu, Wh, Wi, Wt, and Wb (line 262) (in the example of Figure 3 (Shirazi '239 patent) the market weights are the market portion of Export, Domestic, Desalinate, Bottled, purify, Food Crops, and Biofuels Respectively) are computed based on a fixed algorithm using available statistics.
  • Wt*, Wt2, Wf-j, (line 263e) are based on the quantity of water physically contained (the quantity of water constituent in the product) in the commodity and not on the quantity of water utilized to produce the commodity.
  • a certain market includes in trade of food crops containing 1300 m 3 of water.
  • the total water market (the sum of the water traded in all of the chosen water products) is 6500 m3 and the total water contained in traded food crops is 1300 m3.
  • the commodity coffee price in N.Y. is 950 usd/ton, and coffee is 55% water and utilizes 3500 m3 irrigation water/ton.
  • the broker computes a representative integrated value of water including the unregulated trade of water in other commodities (products).
  • the mass of water output in combustion products may be used to compute Wb (alternatively for biofuel Wb could be based on the energy output by combustion of the fuel or some other combustion product or constituent [e.g. carbon] of the fuel multiplied by a proportionality factor).
  • Wb the total market of bio-fuels includes 650 m3, which is treated as 10% of the total water trade 6500 m3.
  • the volume of ethanol sold is 390 m3
  • the quantity of the water market in biomethane (on which is based the weight factor Wb 3 ) is calculated based on the output of combustion of the methane.
  • Use of combustion outputs to compute Wb can facilitate comparison between various biofuels that may have very different densities (alternatively energy production or carbon constituent other bases of comparison may be used).
  • the market includes a trade of 38800 m3 of bio-methane.
  • the virtual price of water in biofuel is based on the water input to production of the fuel.
  • the virtual value of water in biomethane is based on the quantity of water utilized in production.
  • the CO2 output from combusting the biofuel or the quantity of the carbon constituent in the biofuel could be used as a common basis of computing the weight factor of all the biofuels.
  • index value 369 of Figure 3 (of Shirazi '239 patent) described above) companies get securities or purchase of water contracts for the value of the water at the index value.
  • a company distributes contracts in the form of water basket stocks based on the water index value.
  • a company can enter into agreements with finance institutions or investments houses - distributing water basket stocks for their clients and getting agreeable commissions and securities from the trading.
  • FIG 4 is a flowchart illustrating a method of investing.
  • An investor first chooses (box 470) a commodity (for example fresh water) in which to invest and then finds (box 472) a broker who is selling shares or other financial instrument (for example a bond, a certificate, a futures, a stock, a basket) in the commodity.
  • the investor uses an index value to the commodity calculated (box 474) by the broker (for example index value 369 as described in Figure 3 (Shirazi '239 patent) and the accompanying description).
  • the investor decides (box 476) whether to invest. If "yes” raen me investor buys (box 478) shares from the broker. If "no" then the investor chooses (box 470) another commodity in which to invest.”
  • processors may be implemented just as well with a processor that is not within the definition of a computer processor.
  • processor is broad as understood in the art and may include hardware and/or firmware, chips, microchips, microprocessors, and/or CPUs, and may be operatively connected to software or programs or instructions or processes or applicati ns for calculating and/or performing the computations or functions indicated by the system or method or apparatus of the present invention.
  • the processor may be implemented in a wide range of appliances, preferably digital appliances such as a computer or a telecommunications device.
  • processor although singular, shall be understood to include both a single processor and multiple processors.
  • a processor associated with for example a commodities exchange or a display may include a processor embodied in an appliance, such as a computer or telecommunications device, associated with the commodities exchange or the display.

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  • Investigating Or Analyzing Non-Biological Materials By The Use Of Chemical Means (AREA)
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PCT/IB2013/053478 2012-05-02 2013-05-02 Fresh water price index based on water quality Ceased WO2013164783A1 (en)

Priority Applications (4)

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NZ702491A NZ702491A (en) 2012-05-02 2013-05-02 Providing different categories of water sold under separate price indices based on water quality defined by ingredients
EP13784537.6A EP2867846A4 (en) 2012-05-02 2013-05-02 FRESHWATER PRICE INDEX BASED ON WATER QUALITY
CA2881595A CA2881595C (en) 2012-05-02 2013-05-02 Fresh water price index based on water quality
JP2015509553A JP6315614B2 (ja) 2012-05-02 2013-05-02 水質に基づいた真水の価格指数

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US13/462,129 2012-05-02
US13/462,129 US10909624B2 (en) 2012-05-02 2012-05-02 Fresh water price index based on water quality

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Families Citing this family (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5512032B1 (ja) * 2013-12-05 2014-06-04 三菱重工業株式会社 循環水利用システムの課金装置、循環水利用システム
JP5518245B1 (ja) 2013-12-05 2014-06-11 三菱重工業株式会社 循環水利用システム群の遠隔監視方法及び遠隔監視システム
US20160086275A1 (en) * 2014-09-24 2016-03-24 Sourcewater, Inc. Computerized techniques for facilitating exchange of a water resource
WO2019064789A1 (ja) * 2017-09-26 2019-04-04 日本電気株式会社 推奨発注数決定装置、推奨発注数決定方法および推奨発注数決定プログラム
WO2019064790A1 (ja) * 2017-09-26 2019-04-04 日本電気株式会社 推奨発注数決定装置、推奨発注数決定方法および推奨発注数決定プログラム
BR112020018990A8 (pt) 2018-03-23 2023-02-28 Carolina Cloud Exchange Inc Quantificação do uso de recursos informáticos díspares numa unidade única de medida
IL322672A (en) 2019-10-23 2025-10-01 Infrasight Software Corp Quantifying the use of various computing resources as a single unit of measure
US12313618B2 (en) * 2021-02-12 2025-05-27 Hach Company Predictive model for water quality deterioration
JP2025175310A (ja) * 2022-10-05 2025-12-03 Future Science Research株式会社 環境投資管理装置
US20250272634A1 (en) * 2024-02-27 2025-08-28 Saudi Arabian Oil Company Systems and methods for water resource management

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1389767A1 (en) * 2002-08-13 2004-02-18 Eastman Kodak Company A method for using remote imaging to predict quality parameters for agricultural commodities
US20090055294A1 (en) * 2007-08-21 2009-02-26 Aqua Index Aqua index
US20110264575A1 (en) * 2009-02-05 2011-10-27 Paul Kanitra Farmland index system

Family Cites Families (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2361595A1 (fr) * 1976-08-13 1978-03-10 Iti Ltd Jupe isolante pour le transport d'une table de glace et son procede de fabrication
US5061638A (en) * 1989-08-18 1991-10-29 Boyle Engineering Corporation Nitrate analyzer
JPH05188052A (ja) * 1992-01-10 1993-07-27 Meidensha Corp 水質評価装置
JPH09269321A (ja) * 1996-03-31 1997-10-14 Tetsujiro Matsuhashi 三次元水質ダイヤグラム
US6021664A (en) * 1998-01-29 2000-02-08 The United States Of America As Represented By The Secretary Of The Interior Automated groundwater monitoring system and method
JP2004280399A (ja) * 2003-03-14 2004-10-07 Toshiba Corp 損失金額算出装置
JP4525032B2 (ja) * 2003-09-16 2010-08-18 株式会社日立製作所 淡水供給システム
US7329358B2 (en) * 2004-05-27 2008-02-12 Siemens Water Technologies Holding Corp. Water treatment process
JP4561231B2 (ja) * 2004-08-16 2010-10-13 栗田工業株式会社 水供給システムおよび水供給方法
KR100750351B1 (ko) * 2004-09-20 2007-08-17 승근구 황토를 이용한 게르마늄 함유수의 제조방법
US20120216875A1 (en) * 2010-08-31 2012-08-30 Allen Szydlowski Methods and systems for producing, trading and transporting water
US7958033B2 (en) * 2006-09-01 2011-06-07 Barclays Capital Inc. Systems and methods for providing a liquidity-based commodities index
JP2009169683A (ja) * 2008-01-16 2009-07-30 Toshiba Corp 水輸送ビジネスにおける積出可能水量の算出方法および積出までに掛かるコストの算出方法
CN101868806A (zh) * 2008-09-11 2010-10-20 卡勒拉公司 二氧化碳商品交易系统和方法
US20100163471A1 (en) * 2008-12-30 2010-07-01 Irving Elyanow Water desalination plant and system for the production of pure water and salt
WO2011011134A2 (en) * 2009-07-23 2011-01-27 Lorenz Kenneth R Water recovery systems and methods
US9670080B2 (en) * 2013-06-24 2017-06-06 Baker Hughes Incorporated Composition and method for treating oilfield water

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1389767A1 (en) * 2002-08-13 2004-02-18 Eastman Kodak Company A method for using remote imaging to predict quality parameters for agricultural commodities
US20090055294A1 (en) * 2007-08-21 2009-02-26 Aqua Index Aqua index
US20110264575A1 (en) * 2009-02-05 2011-10-27 Paul Kanitra Farmland index system

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CA3141866A1 (en) 2013-11-07
US20210118057A1 (en) 2021-04-22
CA2881595A1 (en) 2013-11-07
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US20250232379A1 (en) 2025-07-17
US20230342854A1 (en) 2023-10-26
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US10909624B2 (en) 2021-02-02
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JP2020163387A (ja) 2020-10-08
US11669905B2 (en) 2023-06-06
EP2867846A4 (en) 2016-01-27
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CA2881595C (en) 2022-04-26
CA3141866C (en) 2023-08-22
JP2018152078A (ja) 2018-09-27
JP2023103289A (ja) 2023-07-26
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