FR2918201A1 - Environmental impact quantification process implementing system, has functionalities to acquire, store and integrate data associated to persons, services, and/or neighbor objects for dynamic process of environmental impact calculations - Google Patents

Abstract

The system has an evaluating unit for evaluating impact parameters, and a weighing unit for weighing the parameters. A compilation unit compiles quantified data in a conversion matrix that converts added considered value into weighed environmental parameters, and a display unit displays the data. Functionalities acquire, store and integrate data associated to persons, services, and/or neighbor objects for dynamic process of environmental impact calculations.

Description

METHOD AND SYSTEM FOR DISPLAYING THE ENVIRONMENTAL IMPACT OF

  PRODUCTS AND / OR SERVICES The present invention relates to the field of human activities and their impact on the environment. It concerns more particularly the problematic of the evaluations of the environmental impact of human activities. When man acts on his own, by and for himself, he is in principle able to determine alone, in his soul and conscience, whether the acts and actions he performs are or not, totally or only partially eco-friendly. However, this presupposes, on the one hand, that the person concerned has alternative choices for his actions / acts to be performed, and that he can use his free will for his choices, without having to be accountable to anyone or to depend on others.

  Whenever products / services are used for these actions / acts, these products / services come from producers and / or service providers whose relationship with the end user is very distant or nonexistent. However, it is the end user who impacts with his gestures / acts the footprint on the environment of the product / service used. This is so true that without an end-user to consume and / or use products and / or services, these would not be offered by the producers and / or providers. There are known attempts to calculate CO2 emissions or other greenhouse gases (GHGs) from human activities.

  This is how a methodology for calculating CO2 emissions associated with travel was published, under the name Ecocomparateur, available on the Ecocomparateur Voyages-sncf.com website. Other approaches aim at making the public accountable and compensated by actions such as payment of a certain sum or other kind of beneficent action such as tree planting and others. There is also a tool in the form of a virtual calculator (available on the website eco-calculette.fr), aimed at allowing calculations concerning the eco-use of products / services. Studies have also been conducted to try to take into account, in addition to the environmental contribution of the manufacture of the products, the role played by the type of store in which the purchases of the product are made. The studies carried out contrast hypermarkets and local shops, as well as online shopping and are intended to help make purchases of products known as responsible.

  These efforts led to the presentation to the public or to circles of specialists of awareness-raising tools taking into account the GHGs generated by the provision of these products / services and those resulting from the trips made for the acquisition of these products. services. We therefore still face the need to have the means to quantify sufficiently reliably and completely the impact of human activities on the environment, particularly with regard to CO2 emissions, that of other greenhouse gases ( GHG) and water requirements. It has now been found that this and other objectives can be achieved by means of a process or system by which: • the value-added category of each of the value-added phases is considered; a product / service concerned, from its initial conception until its end of use, taking into account the development and use of the said product / service, as well as its eventual destruction; • the environmental impact data of each of the value-added phases thus taken into account is assessed or used if they are already known; These impact parameters are weighted by weighting coefficients to take into account the relative importance of at least one of said value-adding phases, so as to provide quantified data; The data thus quantified are compiled in at least one value-added conversion device into at least one weighted environmental parameter; and providing display means capable of displaying the disaggregated and / or compiled data for communication to any interested party, as well as optional data processing and / or storage, in particular for acquiring, store and integrate data associated with people, services and / or nearby objects for dynamic processing of environmental impact calculations.

  The first subject of the present invention is therefore a method for quantifying the environmental impact of products and / or services, in which: the category of added value of each of the phases carrying a value added of product / service concerned, from initial design to end of use, taking into account its development and use, as well as eventual destruction; • the environmental impact parameters of at least one of the value-adding phases thus taken into account are evaluated, or used if they are already known; • we weight these impact parameters by means of weighting coefficients to take into account the relative importance of at least one of the said phases carrying added value; • the data thus quantified in at least one conversion matrix are compiled into at least one weighted environmental parameter; • Display means are provided to display the compiled data, for communication to any interested person; and optionally, further processing and / or storage of the data. In one embodiment, the method according to the invention comprises the provision and / or use of weighting coefficients, which can be integrated into all or part of the calculations in which these coefficients weight the value added in gas to greenhouse effect (GHG) and / or water requirements. In another embodiment, the method according to the invention comprises the comparison of at least two alternatives or variants of implementation of said method, for the purpose of making a choice between the two or more alternatives. thus parameterized and compared. Said alternatives may relate to different products and / or to different value added phases. The method according to the invention is thus designed to enable the development, management and supply, preferably by display, of data reflecting the impact on the environment of human activities. The process according to the invention can be applied both to the display of the environmental impact related to CO2 and to that of any other greenhouse gas, among which methane CH 4, the oxide nitrous N2O, hydrofluorocarbon compounds, perfluorocarbon compounds and sulfur hexafluoride SF6, or even cumulatively to several or all of them. and in the latter case we are talking about global environmental impact. It can also be applied to display the environmental impact of the consumption of water or other fluids of interest during the life cycle of the products and / or services concerned. By the term "environmental impact parameter" is meant here as well the emitted CO2 as the other greenhouse gases emitted, and also any other environmental parameter having an influence on the global warming of the earth, or in a more general way the alteration or the degradation of its climate, or as an alternative the needs in water. "Value added" (VA) refers to both monetary and non-monetary value added in the economic sense of the term. The concept of added value is indeed quite understandable for the person skilled in the art, even for productions / services with a non-commercial purpose; indeed, even in a non-commercial case, there are indeed "inputs" that have a cost and processing / valorization activities that can be valued and whose equivalences can be established. An added value is then underpinned, even if there is no sale or sale price. "Weighting coefficient" means a mathematical coefficient intended to reflect the relative importance of an impact parameter and thus to take into account the absolute or relative importance of the value-added step considered.

  In such a method according to the invention, the communication of the parameters of interest can be free or controlled. It is free if it can be aimed at any public, without distinction. On the contrary, it is controlled if it is to be reserved for certain categories of persons and / or institutions and / or if it must be available only after having paid a right of access.

  According to one embodiment of the invention, distribution grids are thus developed which, based on the value-added phases of a product / service as indicated above, estimate the weighting of an environmental parameter. including, but not limited to, assessing and / or comparing contributions to global warming or drying up of water supplies.

  In another form of implementation of the method according to the invention, and by way of non-limiting example, the value-added phases of products or services are broken down into sets or subassemblies, or categories, and these sets and subsets or categories using standard weights. For simplicity, the invention is described on a methodological example with reference to CO2, but the same indications also apply mutatis mutandis for other greenhouse gases, and even generally for any other environmental parameter, including for the needs. in water. In this context, the targeted concepts are in total CO2 equivalents (depreciation, contribution in the strict sense, provision, etc.). The life cycle of each product / service is broken down into a succession of significant categories (such as primarily: process of development, product or service). The contribution index for GHG emissions is generically listed here as CO2X, but may in practice be the subject of another public / commercial name. It should be noted in this regard that the emission of CO2 or other GES 20 may be negative; it is then a process that absorbs greenhouse gases. For water needs, which will soon become a real concern, or any other matter of interest whose exhaustion is a problem, the same is true: the CO2X index still used to simplify can then be just as good. translate a consumption of water or other matter of interest and thus allow, in accordance with the present invention, to monitor and provide information on such needs and to ensure better management. According to the invention, the significant categories of the value added items are identified, as well as the discriminating geographical areas in this context, and the CO2Xs (or the data already available in this respect) are calculated for each significant category. The CO2X is calculated or the CO2X values already collected are used, for each value-added phase or for each significant category.

  According to the invention, a classification similar to the NACE classification (Nomenclature of Activities in the European Community) or the more detailed NAF classification (French Activities Nomenclature), which are available on the Internet on the Internet, is advantageously used for this purpose. address: http // www.insee.fr / en / def name met / nomenclatures / nomenclatures.htm. When an emission is significant and correlated to a "significant category" for which the CO2X is calculated or is available, it is taken into consideration, processed and activated in the process according to the invention. If necessary, this may lead to the identification and / or creation of a new significant category. The elemental CO2X and / or those for the said significant categories can then be compiled by geographical area of interest, and may at a given moment be stored, for example, in a matrix or a succession of matrices whose dimensions are: significant category , geographical variable, time variable. Such an embodiment of the method and of the system according to the invention makes it possible to take into account the modifying events, such as in particular the changes in uses, in particular the evolution of the recycling rate of waste, in a given country and for a given period. given significant category. In one embodiment, the weighting is advantageously effected by means of a transposition matrix, which makes it possible to transpose the elementary CO2X into unified value-added weighting coefficients (VA) for a given geographical area and a given moment in a given region. a given currency. Such a transposition matrix notably takes into account the average price indices for a significant category in a given market in a given industry. The VA weighting coefficients are used to calculate the CO2X for a product or service, even if only the value-added structure of the product or service life cycle is known. For this purpose, a classification such as those mentioned above is advantageously used. We can deduce a "carbon accounting" that is based on the 35 rules of cost accounting or business accounting, and allows easier collection and dissemination of indices then revealed, which can have access to all economic actors . Alternatively, interpolation surfaces can be used to estimate some unknown indexes or weighting coefficients, or to determine if more granularity is required, even in cases where the input data therein are not available. related. To refine the modeling one can, if one wishes, to use mathematical theories and methods such as: matrix calculus, functions, transforms, derivatives, series, statistics, probabilities, products of convolution, among others. The present invention also relates to a system for implementing such a method for quantifying the environmental impact of products and / or services, wherein the said system comprises: means for the collection or supply and for the storage of the value added category of each of the value-adding phases of a product / service concerned, from its initial design to its end of use, taking into account its development and use, as well as possibly its destruction; Means for the evaluation, or use if already known, of the environmental impact parameters of each of the value-added phases thus taken into account; Means for weighting these impact parameters, using weighting coefficients to take into account the absolute or relative importance of the value-adding step each time concerned; Means for compiling the data thus quantified in at least one value-added conversion system considered into at least one weighted environmental parameter; Display means able to display said data; and optionally, associated features, including acquiring, storing and integrating data associated with people, services and / or nearby objects, for dynamic processing of environmental impact calculations. The invention will be better understood, and other objects, advantages and characteristics thereof will appear more clearly, in the light of the following detailed description of various embodiments, given purely by way of illustration and in no way limitative, while the following are appended to the present description drawing plates in which: FIG. 1 represents, in block form, the treatment modalities of a direct calculation over a given period (eg Q1 2007); Fig. 2 represents in block form how a calculation is processed over a given period (eg Q1 2007), again with the use of value-added decomposition data; and 3 represents a diagram illustrating in diagrammatic form a method according to the invention according to three implementation variants, corresponding to three levels of weighted data. The method and system according to the invention will be described in more detail below, in particular with reference to the drawings thus briefly described. In FIG. 1, we see that: M1 is the matrix of CO2X coefficients called "raw", each expressed in any appropriate unit. M2 is the matrix of life cycle contributions for the product considered of significant categories as identified or entered in matrix M1, each time in the form of a proportion expressed in the same unit as that of the corresponding category of M1. (eg a package of cornflakes containing 330 g of corn produced in France, 20 g of cardboard produced and printed in Germany, and 1200 km of combined transport, etc.). M3 is the coefficient coefficient product of M1 and M2.

  The sum of the coefficients appearing in the matrix M3 after these calculations is then the CO2X of the product or service concerned. In FIG. 2, we see that: M1 is the matrix of gross CO2X coefficients (see above, with reference to Fig. 1).

  M4 is the matrix of weights that take into account the price levels of each geographical area for a unit of gross CO2X in a given country. As a result, these coefficients then take into account the exchange rates of each country compared to the others, since the VA is, after this conversion, expressed in a single currency for all the coefficients.

  M5 is a transposition matrix, which is the coefficient coefficient product of the two matrices M1 and M4. In practice, M5 is updated by "batch" (loading data) to take into account any variations in the data that allowed its calculation. Such an update of these coefficients can be regular and be a function, for example, of exchange rates and / or price indices of at least one of the countries concerned. M6 is the matrix that defines the distribution of the value added of a product or service according to the significant categories and geographic areas involved. M7 is then the coefficient coefficient product of the two matrices M5 and M6. The sum of the coefficients of the matrix M7 is then the CO2X of the product or service which is the object of the investigation. In another aspect illustrated in FIG. 3, sectoral or composite values of the environmental impact indices are developed according to the invention, in order to calculate in this way: • a standard index for a product or a service, based on assumptions that maximize this parameter; 20 • a declarative index, which can be attributed after processing the answers to a questionnaire concerning, in particular, the production processes of the product or service, the product life cycle, the product life, the parameter commonly referred to as "MTBF "(for" Mean Time Between Filer "), etc., while such processing is preferably automated and can even be done online; • a certified index, obtained after auditing the life cycle of a product or service, in particular for consumer products. In this regard, a preferred methodology is substantially as follows. With this methodology, it is advantageous to take into account sectoral or composite values, for example the CO2X of the housewife's basket. Particularly in those cases where it would be impossible to accurately calculate the CO2X of all the products concerned, if all the life cycles thereof could not be audited, it is proposed according to the invention to develop and calculate different CO2X depending on the degree of possible or desired knowledge of the life cycle of the product or service concerned, ie for example: a standard CO2X, a declarative CO2X and a certified CO2X. The standard CO2X for a product or service is calculated from the assumptions that maximize it. A declarative CO2X is allocated after the response to a questionnaire on the production process of the product / service, the life cycle of the product, the normal life of the product, the parameter known as MTBF, etc. . The reporting process is preferably automated and can be done online (via the secure web + appropriate database) to provide a high index production rate.

  Certified CO2X is calculated after auditing the life cycle of the product concerned. The certified index targets in particular complex consumer products. It can take into account the efforts made by manufacturers, distributors and other stakeholders in the life cycle, to make their activities more carbon-neutral or CO2-neutral, or vis-à-vis water needs in all their activities. In connection with this aspect of the method according to the invention, it is possible to practice an operational methodology of the following type: • categorization of products, services and manufacturing processes, • determination of calculation sub-indices, • possibly updating to take account of state-of-the-art technologies (eg new recycling methods), as well as contextual variations and new scientific knowledge, particularly in terms of global warming and environmental impact; product or service data (manufacturing processes used, logistics / typer distribution method, repair and update processes and logistics, product life cycle, "MTBF" and normal life, process and logistics recycling, among others), • determination of the added carbon chain of the product or service, • calculation of CO2X, • publication and display of CO2X. As indicated above, the method and system according to the invention derive the calculation of the added carbon chain from that of value added. In order to facilitate visualization and understanding of the results, the added carbon map may be represented using areas substantially proportional to the CO2X of each subcategory or subassembly, as for example in the diagram of Table 1 below: Table 1 Under products Final product or service Subset 1 Logistics and transport Labor and services by type of qualification and country Raw materials Processing process tooling Distribution chain service Subassembly 2 Percentage of reservation for recycling Percentage of reservation for repairs Related to MTBFs during the product lifetime Naturally, other viewing modes, for example of the "pie" or other type, can of course be used. Optionally, it is possible to decompose each subset in the same way, in order to obtain a map corresponding to the desired level of detail. An illustrative diagram of such a methodology for carrying out the process according to the invention, applied to three different CO2X levels is shown in FIG. 3. To illustrate more concretely the process and system according to the invention, without being limiting thereto, detailed indications are given below in Tables 2-4 which follow. Table 2 The generic calculation for each significant category is as follows: CO2X 1 significant category unit upstream contribution net direct contribution net cumulative emissions (including negative emissions, labor, consumables, logistics and transport) exogenous cumulative emissions (not directly related to the stage but nevertheless essential or highly correlated) depreciation related to the stage of VA buildings, installations, machinery, furniture, IT (depending on the level of territorial use, variable and updated in time) provision for maintenance on the life of the product or service (according to MTBF and quality trial) provision for recycling / destruction (depending on the level of territorial use, variable and updated in time) Administrative contribution (share of state services such as subsidy, T'A collection, etc.) Table 3 Calculation example of the contribution of the grocery department of a hypermarket CO2X / Euro of CA The distribution keys and quota shares are extracted from the cost accounting from which we determine an average profile for a sales area. General contribution by Euro of turnover and by type of product (fresh department, groceries, liquids etc.). ) consumables CO2X / Euro services (cleaning, informatics etc.) CO2X / Euro wages CO2X / Euro CO2X / Euro frame non-framework CO2X / Euro depreciation CO2X / Euro commercial building CO2X / m2 CO2X / m2 reserve CO2X machines / Euro CO2X furniture / Euro General charges etc. CO2X / Euro (according to CO2X electricity, liquids, Freon, etc.) (according to typical CO2X for industrial cleaning services, computer, etc.)

  (according to CO2 emissions for their average life of non-managers in the region concerned) (according to CO2 emissions for their average lifestyle of executives in the region concerned)

  (CO2x of commercial building * X Euros amortized over Y years) (CO2x of building reserve * XX Euros amortized over YY years) (CO2x of machines * X 'Euros amortized over Y' years) (CO2x of commercial furniture * X "Amortized Euros on Y "years) Table 4 A pack of Com Flakes of 500 g sold in hypermarket Weight CO2X I package 500g STEP 1 cultivation of maize according to region CO2X / g 500g contribution of consumables CO2X / hectare of culture contribution manpower CO2X / hectare of crop contribution of plant growth CO2X / hectare of crop provision for exogenous effects of fertilizer CO2X / hectare of crop contribution of insurance premium CO2X / hectare of crop administrative contribution (agricultural subsidy) CO2X / hectare of crop contribution of depreciation industrial CO2X / g (RD, tractors, hangars etc.) STEP 2 Procurement of CO2X / dm2 packaging 8 dm2 production of carton packaging CO2X / dm2 four-color process printing, finishing CO2X / dm2 supply logistics (plane, train, mixed, etc.) CO2X / dm2 STEP 3 maize transformation into Com Flakes + CO2X / g packaging 500g average manpower CO2X / h consumables excluding energy CO2X / g process consumables including CO2X / kWh energy contribution CO2X process gas emissions / liter of fuel oil transport / logistics contribution CO2X / g CO2X / g amortization machines including recycling of CO2X / g buildings of which destruction of furniture including recycling STEP 4 logistics of distribution of the finished product CO2X / g 500g transport to CO2X shops I g dynamic factors additives CO2X / g / km distance at constant altitude CO2X / g / km cumulative difference CO2X / Euro contribution of the sales area STEP 5 generalCO2 charges CO2X / g 500g contribution of destruction combustion, oxidation, decomposition contribution of the recycling process Administrative contribution (all of VAT collection etc.) CO2X / Euro Duration of life and MTBF (not applicable to Com Flakes package) analysis The cost structure of a typical farm allows, for example, the following calculations (fuel oil burned by agricultural machinery, oils, etc.) (in the region of production a farmer produces for his personal lifestyle x grams of CO2 per year => per hectare) (negative for CO2 abstraction) (CO2 production, algae? Etc.) (a typical insurance policy costs X Euros per hectare, multiplying the CO2X by an agricultural insurance premium) (the CO2X of a premium is calculated from accounting and actuarial data and takes into account the probable CO2X of a disaster) (eg value added in Europe produces X grams of CO2) (it also includes emissions related to the collection and distribution of the subsidy: civil servants, administration). average farmer receives Y Euro subsidy per ha and the yield / ha a given year is Z grams per ha) (CO2x industrial machine 'X Euros amortized over 10 years, CO2x industrial building' Y Euros amortized over 50 years etc. ) (according to weight and type of cardboard and their few conventional CO2X) (according to finish etc. and some conventional CO2X) (average logistics in the packaging industry) analysis of the cost structure of a typical plant allows, for example, the following calculations (CO 2 emission share 2 for their average life of executives, workers in the region of transformation) (CO2x machine fluids per X Euros amortized on the average production of the plant) (average CO2 emission per KWh according to region) (combustion of fuel oil , according to typical emissions for a generation of burners in the region of transformation) (direct CO2 emissions by the process if there is any?) (pre-routing and post-routing but according to usual transport in industry) (industrial machine CO2x 'X Euros amortized over 10 years) (CO2x of industrial building' Y Euros amortized over 50 years) (CO2x furniture 'Z Euros amortized over 7 years) the analysis of the typical logistics of the sector allows for example the following calculations (CO2X of typical distribution logistics multiplied by typical accumulated kilometers of kilometers) (for electronic labels applications etc.) km added (in these cases, the previous line gives a CO2X 'Ex Works') (CO2X typical of a hypermarket by Euro sold for non-fresh food products) taking account of recycling factors etc., for example allows the following claculs

  direct emissions for non-recycled share quota estimated no emissions for the recycled part share. The logistics and the recycling process are at the expense of the raw materials based on recycled products (rating part of the overall CO2X of the services related to the collection of the NA, reventilated according to average selling price) Regarding the modes of application that may be proposed for the system according to the invention, the following modes may also be mentioned as non-limiting examples: An electronic tag (tag) associated with a product or with the materialization of a service can, by integrating the functionalities and data indicated above, serve as a log of CO2 or more generally GHG or the need for water, and it can accumulate the values that are added during the life of the product / service. Additional fields, software interfaces and / or software modules can be integrated into the so-called "Product Life Cycle Management" (PLM) software and / or so-called "Enterprise Resource Planning" (ERP) software, to allow or facilitate the calculation CO2X for example from the design phase or industrialization of products. ERPs can offer CO2X dashboards and help to arbitrate business choices on this criterion. A mobile phone, or any other related terminal, can serve as a display of environmental impact parameters (CO2 weight, etc.). The data is collected, for example, either by communication with the aforementioned electronic tags, or by connection to a type of service called "back end". Again as an example, an application for equipped vehicle can operate as follows: - extraction of data and the calculation model from the network, using the mobile terminal; 25 - calculation of instantaneous speed of the vehicle by the mobile terminal, using the GPS features; - Calculation and display of the contribution in CO2 equivalent or instantaneous cumulative on a given trip: in direct emissions, 30 in total emission (including use / amortization of CO2 contributions) of the vehicle and infrastructure used (road, value chain d supply, refining and distribution of fuel, toll booths, etc.), with in practice working hypotheses which can be, for example, speed up to 50 km / h, average city condition, 50 to 90 road improvements, ...).

  These functionalities can also be embedded in the onboard computer of the vehicle, which then stores in memory the calculation model and can, if necessary, readjust it during updates. The "CO2 contribution" field and the display menus are in this case added to the functions of the on-board computer. In the same way, the calculation of the contribution of a fleet of vehicles of a company can thus be obtained in real time, provided that the vehicles concerned embark mobile terminals allowing geolocation.

  Thus, a method and a system have been developed for quantifying, advantageously in a global and comparative manner, the environmental impact of any product and / or service. In particular, the method and the system according to the invention provide means for displaying the environmental impact of any product and / or service to any interested user, in particular to allow and / or facilitate choices between different behavioral alternatives. Indices thus revealed may relate to products / services for the general public. They can also target semi-finished products, and serve as a criterion for trading and / or as a bargaining factor, for example. Other uses, as well as other embodiments of the objects according to the invention described above are also possible, without departing from the scope of the invention and its scope, defined by the claims, which must be interpreted in light of the description and the accompanying drawings.

Claims (15)

  1. System for implementing a method for quantifying the environmental impact of products and / or services, characterized in that it is developed in a form chosen from an electronic tag associated with a product or materialization a service, a mobile phone or any other related terminal, or the on-board computer of a vehicle, and in that it includes: • means for the collection or supply and for the storage of the value category added from each of the value-adding phases of a product / service concerned, from its initial design to its end of use, taking into account its development and use, as well as eventual destruction; • means for the evaluation, or use if already known, of the environmental impact parameters of each of the value-added phases thus taken into account; Means for weighting these impact parameters, using weighting coefficients to take into account the relative importance of the value-adding step each time concerned; Means for compiling the data thus quantified in at least one conversion matrix of the added value considered into at least one weighted environmental parameter; Display means able to display said data; and • associated features, such as acquiring, storing and integrating data associated with people, services and / or nearby objects, for dynamic processing of environmental impact calculations.   2. System according to claim 1, characterized in that it comprises onboard terminals for geo-location of a fleet of vehicles.   3. System according to claim 1, characterized in that it comprises means for the supply and / or use of weighting coefficients adapted to be integrated in all or part of the calculation means in which these coefficients weight the value added in greenhouse gas and / or water requirements.   4. System according to claim 1, characterized in that it comprises means for comparing at least two implementation variants, for the purpose of making a choice between the two or more alternatives thus parameterized. and compared.   5. System according to claim 4, characterized in that said alternatives relate to different products or phases of different added value. 20   6. System according to claim 1, characterized in that it is applied both to the display of the environmental impact related to CO2 than to any other greenhouse gas or cumulatively to several or to the all of them. 25   7. System according to claim 1, characterized in that it is applied to the display of the environmental impact of the consumption of water or other fluids of interest during the life cycle of the products and / or services . 30   8. System according to one of claims 6 or 7, characterized in that it comprises the establishment of weighting coefficients, which can be integrated into all or part of the calculations in which these coefficients weight the added value in GHG and / or in water. 35   9. System according to claim 1, characterized in that the communication is controlled, to be reserved for certain categories of persons and / or institutions, and / or to be available only after having paid a fee. access.   10. System according to claim 1, characterized in that it comprises means for the development of distribution grids making it possible, based on the value-added phases of a product / service, to estimate the weighting of the product. 'an environmental parameter, especially for evaluating and / or comparing contributions to global warming or the drying up of water sources.   11. System according to claim 1, characterized in that it comprises means for the decomposition in sets or subsets of the value-added phases of products or services and for the weighting of these sets and subsets by means of coefficients. weighting.   12. System according to claim 11, characterized in that it comprises means for the development of sectoral or composite values of environmental impact indices.   13. System according to claim 1, characterized in that it is implemented for calculating a standard index, a declarative index and / or a certified index, for a product or a service.   14. Use of the system according to any one of claims 1 to 13 for the development, management or supply of data reflecting the impact on the environment of human activities.   15. Use according to claim 14, characterized in that it is applied to any environmental parameter having an influence on the global warming of the earth, or to the water requirements. 30