CN105880222A - Novel environmentally-friendly processor made from high-energy-state material and capable of scale inhibition, rust removal and catalysis - Google Patents
Novel environmentally-friendly processor made from high-energy-state material and capable of scale inhibition, rust removal and catalysis Download PDFInfo
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- CN105880222A CN105880222A CN201410646022.5A CN201410646022A CN105880222A CN 105880222 A CN105880222 A CN 105880222A CN 201410646022 A CN201410646022 A CN 201410646022A CN 105880222 A CN105880222 A CN 105880222A
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- energy
- scale inhibition
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- rust
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Abstract
The invention relates to a novel environmentally-friendly processor made from a high-energy-state material and capable of scale inhibition, rust removal and catalysis. Metals of iron, aluminum, titanium, rhenium, tantalum, platinum, niobium, germanium, gold, copper, silicon, boron, carbon, molybdenum, nickel, tin, silver, lead, zirconium, manganese, cobalt, lanthana and the like are used, and are mixed with metalloid, and then through vacuum ball milling or grinding treatment, parts of nanometer-level materials are obtained; through vacuum high temperature melting, the high-energy-state material of which the thickness is 5-2000 microns is obtained. As needed, metal materials or plastic materials can be used as outer layers of the processors for mounting, and through processing, various shapes of high-energy-state processors capable of scale inhibition, rust removal and catalysis are manufactured.
Description
Technical field
The present invention relates to a kind of novel, environment-friendly and high-energy state material scale inhibition, rust cleaning, Catalytic processor, specifically
Ground says it is rust cleaning in water delivery or liquid-transport pipe-line, scale inhibition, inhibition, sterilizing, algae removal, catalysis
Upper state materials processor, may be used for various chemical plant, thermal power plant, sugar refinery and the enterprise such as hotel, mansion
The recirculated water of public institution's central air-conditioning etc. and cooling water or transfusion system, prevent inner-walls of duct fouling,
The function such as get rusty, may be simultaneously used for various chemical plant or need the instrument and equipment producing chemical reaction to rise
Catalytic action, belongs to liquid treatment equipment technical field.
Background technology
It is presently used for the rust cleaning in various aqueduct, scale inhibition, inhibition, sterilizing, algae removal etc. mainly to make
Add to chemical drugs carry out inside pipeline eliminating rust, scale inhibition, inhibition, sterilizing, algae removal, as various
Rust remover, antisludging agent, biocide, algicide etc..
Use these chemical agents not only can produce environmental pollution at production link, and use link also
Environment can be produced secondary pollution.
Therefore, invention one does not use medicament, pipeline can be eliminated rust again, scale inhibition, inhibition,
The equipment facility of the effect such as sterilizing, algae removal, catalysis has the biggest realistic meaning.
Summary of the invention
In order to overcome the destruction and pollution that above-mentioned chemical agent brings to environment, invention one need not additional
Pipeline just can be eliminated rust by the equipment of other energy any and equipment, equipment, scale inhibition, inhibition, go out
Bacterium, algae removal and catalysis are key subjects.
The invention mainly includes, by various metals and nonmetallic research are found, if changed
Their internal organizational structure and form a kind of new organizational structure mode and material interior tissue can be made to tie
Structure is in a kind of upper state state, and material just can be made to reach the purpose of energy.In nature, the most mostly
Number materials are at the state of a kind of lower state and stable existence, so the material of upper state will produce
The process changed to lower state by upper state, upper state material will be by the ripple that shakes in this process
Mode release energy and be changed into the stable material material of lower state.We utilize this of material
Characteristic manufactures the upper state material that some are new, makes these materials discharge energy by the way of the ripple that shakes
Amount, the fractionation energy required for rust molecule or incrustation scale molecule or other soil molecules is less than or equal to height
The release of energy state material shake wave energy time, the rust in pipeline will become the ferrum of small molecule structure by automatic dissolving
Rust and reach the purpose of inner-walls of duct rust cleaning, calcium in pipeline, magnesium plasma would not with in water in pipeline
Contained carbon dioxide combines formation incrustation scale thus reaches the purpose of scale inhibition, when shaking of upper state material release
During the energy that wave energy can bear more than the antibacterial in water and various algae, antibacterial will be by the wave energy that shakes
" burn to death ", algae will be shaken and be split and dead, makes water delivery, infusion pipeline accomplish from the most self-cleaning.
Meanwhile, the internal organizational structure of upper state material can be released during lower state is changed by upper state
Exoergic, and the liquid that this energy can be acted on absorbs, so that liquid substance is by macromolecular mass
Structure changes to small molecular cluster structure, it is possible to change the nutrient transformation efficiency in chemical reaction.
The present invention use ferrum, aluminum, titanium, silver, rhenium, tantalum, platinum, niobium, germanium, gold, copper, silicon, boron,
Carbon, molybdenum, nickel, stannum, lead, zirconium, manganese, cobalt, lanthana with etc. together with material mixing after pass through vacuum
Ball milling or grinding obtain part nanoscale mixing material, then make 5-20000 after vacuum fusion
The composite that micron is thick, can use metal material or plastics to do outer layer as required and make variously-shaped
Upper state scale inhibition, eliminate rust and the processor such as catalysis.
The present invention solve be no longer necessary in pipeline recirculated water use rust remover, antisludging agent, biocide and
The chemical agents such as algicide, eliminate pollution and secondary pollution that environment is formed by water treatment agent, have
Wide application prospect.
The present invention is when individually eliminating rust, it is no longer necessary to use acidic materials to be carried out rust cleaning, as long as will be raw
The object of rust is placed in the container with the making of upper state material, the most just can eliminate rust.
The present invention partly can substitute chemical catalyst and improve chemical reaction efficiency, and the present invention can also answer
Being used in the other fields such as medical science, therefore, the present invention has broad application prospects, permissible to social development
Make huge contribution, be of great immediate significance.
Detailed description of the invention
The present invention will be further described in conjunction with following design embodiments below:
Embodiment 1: the manufacture annular upper state scale inhibition of one thermal power plant, sterilization treatment device:
The present embodiment 1 is outer through for 26 centimetres for manufacturing and designing one, and internal diameter is 16 centimetres, and width is
The thermal power plant of 10 centimetres upper state scale inhibition, sterilization treatment device, be made up of two semicylinders, additional
The ear shape object body that two are screwed, takes ferrum 78%, rhenium 1.1%, tantalum 1.3%, niobium 1.
5%, germanium 2.1%, copper 2%, silicon 9%, gold 0.5%, platinum 2.5%, lanthana 2% are altogether
20 kilograms carry out mixing, vacuum sphere pulverizing is broken to obtain part nanometer materials, then through vacuum high-temperature
Obtain 100 microns of thickness, the upper state bandcast material of 9 centimetres wide after Rong Rong, then use stainless steel
Material makes outer layer, is loaded inside stainless steel material by upper state material, then the technique such as is processed and is fabricated to
The annular upper state scale inhibition of above-mentioned specification, sterilization treatment device, profile is as shown in Figure 1.By this upper state ring
Shape processor is arranged on the pipeline of certain heat-engine plant circulating water system and can be carried out scale inhibition, rust cleaning, sterilizing
Etc. function, and it is no longer necessary to add the chemical drugs such as antisludging agent, biocide.
Embodiment 2: manufacture a cuboid upper state processing of rust removing device
The present embodiment 2 is long 20 centimetres for manufacturing and designing one, wide 1.5 centimetres, high 1 centimetre rectangular
Height energy state processing of rust removing device, takes ferrum 32%, germanium 2%, cobalt 52%, boron 8%, platinum 1% and
5% titanium totally 420 grams carry out mixing, vacuum sphere pulverizing is broken to obtain part nanometer materials, then warp
Obtain upper state material after vacuum high-temperature is melted, processed after make the cuboid upper state of above-mentioned size and remove
Rust processor, as shown in Figure 4, then adopts and is screwed in employing metal material or plastic material making
Length 50 centimetres, on wide 40 centimetres, the container of high 40 centimetres, by various get rusty need process
Device put into container, then fill tap water, it can be seen that on the device got rusty 3 after 48 hours
The rust of 0% has dissolved and has become rust molecule, without adding any rust cleaning medicament.
Accompanying drawing illustrates:
Fig. 1 be one with stainless steel material do outer layer, processing and fabricating outer through for 26 centimetres, internal diameter is
16 centimetres, width is upper state thermal power plant scale inhibition, the front elevation of sterilization treatment device of 10 centimetres,
In figure, A, B are two semicylinder processor parts, and C-C ' is the intermediate cross-section line of processor, and D is
The circular hole of screw is installed.
Fig. 2 is C-C ' sectional view, and in figure, D is the circular hole installing screw, and G is outer layer stainless steel
Material.
Fig. 3 is E-E ' sectional view, and in figure, F is upper state material, and G is outer layer stainless steel material
Fig. 4 is the front elevation of a cuboid upper state processing of rust removing device, and in figure, H is upper state material,
K is the circular hole installing screw.
Claims (3)
1. novel, environment-friendly and high-energy state material scale inhibition, rust cleaning, a Catalytic processor, is characterized in that using
Ferrum and/or aluminum and/or titanium and/or rhenium and/or tantalum and/or platinum and/or niobium and/or germanium and/or gold
And/or copper and/or silicon and/or boron and/or carbon and/or molybdenum and/or cobalt and/or nickel and/or stannum and
/ or silver and/or lead and/or zirconium and/or manganese and/or lanthana after mixing through vacuum ball milling or grinding
Obtain part nanometer materials, then after vacuum high-temperature is melted, makes the high energy that 5-2000 micron is thick
State material, the outer layer that metal material or plastics can be used to deal with device as required does installation use, through adding
The upper state processor of various circle, polygon, banding pattern shape is made after work.
One the most according to claim 1 is novel, environment-friendly and high-energy state material scale inhibition, eliminate rust, be catalyzed
Processor, it is characterised in that described employing ferrum and/or aluminum and/or titanium and/or rhenium and/or tantalum and/or
Platinum and/or niobium and/or germanium and/or gold and/or copper and/or silicon and/or boron and/or carbon and/or molybdenum
And/or cobalt and/or nickel and/or stannum and/or silver and/or lead and/or zirconium and/or manganese and/or oxidation
Lanthanum obtains part nanometer materials by vacuum ball milling or grinding after mixing, makes after vacuum high-temperature is melted
Become the upper state material that 5-2000 micron is thick.
One the most according to claim 1 is novel, environment-friendly and high-energy state material scale inhibition, eliminate rust, urge
Change processor, it is characterised in that the upper state material that described employing 5-2000 micron is thick, according to need
Want the outer layer that metal material or plastics can be used to deal with device to do installation use, make each the most afterwards
Plant circle, polygon, the upper state scale inhibition of banding pattern shape, processing of rust removing device.
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CN201410646022.5A CN105880222A (en) | 2014-11-15 | 2014-11-15 | Novel environmentally-friendly processor made from high-energy-state material and capable of scale inhibition, rust removal and catalysis |
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Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2304453A (en) * | 1939-06-09 | 1942-12-08 | Gudmundsen Stratton Lab Inc | Water softener |
US3960721A (en) * | 1973-06-15 | 1976-06-01 | Fluid Power Research, Inc. | Fluid treating apparatus and method |
CN1730692A (en) * | 2005-08-09 | 2006-02-08 | 河北工业大学 | Functional alloy material and its preparation method and uses |
CN102206074A (en) * | 2011-04-20 | 2011-10-05 | 赵坚强 | Environment-friendly decorative, thermal-insulation, sound-insulation, fireproof, anticorrosion material product and manufacturing method thereof |
CN102277525A (en) * | 2011-08-23 | 2011-12-14 | 北京科技大学 | Method for preparing oxide dispersion reinforced stainless steel powder and stainless steel |
CN102392177A (en) * | 2011-08-11 | 2012-03-28 | 宁波高新区宇众科技有限公司 | Cast iron alloy water treatment material and manufacturing method and application thereof |
CN103663737A (en) * | 2012-09-17 | 2014-03-26 | 陈相荣 | Material with algae removal and cleaning functions and preparation method of material |
-
2014
- 2014-11-15 CN CN201410646022.5A patent/CN105880222A/en active Pending
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2304453A (en) * | 1939-06-09 | 1942-12-08 | Gudmundsen Stratton Lab Inc | Water softener |
US3960721A (en) * | 1973-06-15 | 1976-06-01 | Fluid Power Research, Inc. | Fluid treating apparatus and method |
CN1730692A (en) * | 2005-08-09 | 2006-02-08 | 河北工业大学 | Functional alloy material and its preparation method and uses |
CN102206074A (en) * | 2011-04-20 | 2011-10-05 | 赵坚强 | Environment-friendly decorative, thermal-insulation, sound-insulation, fireproof, anticorrosion material product and manufacturing method thereof |
CN102392177A (en) * | 2011-08-11 | 2012-03-28 | 宁波高新区宇众科技有限公司 | Cast iron alloy water treatment material and manufacturing method and application thereof |
CN102277525A (en) * | 2011-08-23 | 2011-12-14 | 北京科技大学 | Method for preparing oxide dispersion reinforced stainless steel powder and stainless steel |
CN103663737A (en) * | 2012-09-17 | 2014-03-26 | 陈相荣 | Material with algae removal and cleaning functions and preparation method of material |
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Application publication date: 20160824 |