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AIM/Material Model 1. Modified Structure 2. India Application Ashish Rana (NIES, Japan) The 8 th AIM International Workshop 13-15 March 2003, Tsukuba.

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Presentation on theme: "AIM/Material Model 1. Modified Structure 2. India Application Ashish Rana (NIES, Japan) The 8 th AIM International Workshop 13-15 March 2003, Tsukuba."— Presentation transcript:

1 AIM/Material Model 1. Modified Structure 2. India Application Ashish Rana (NIES, Japan) The 8 th AIM International Workshop 13-15 March 2003, Tsukuba

2 Part 1: Modified Structure Need for application to countries with limitations of dataset APEIS training workshop in Delhi

3 Structure of AIM/Material Model production sector household capital labor government abroad market import export produced commodity energy intermediate CO2 energy final demand CO2 pollution waste pollution management energy intermediate CO2 env. capital labor environmental Industry/investment recycle - -What is AIM/Material Model?- pollution waste

4 Modifications Waste management sector is unified Import matrix not used Possible to include natural resources sectors –Presentation of Dr. Masui in next session

5 Formulation of AIM/Material - -Model formulation-

6 Formulation of AIM/Material Market equilibrium –Produced commodity –production factor (capital, labor,...) - -Model formulation-

7 Formulation of AIM/Material Balance of production sector Balance of final demand sector Capital stock and investment –for dynamics - -Model formulation-

8 Formulation of AIM/Material Relationship between input and output –Production function –Demand function CES, Leontief, Cobb-Douglas, Linear,... Household: Maximize utility Production sector: Maximize profit  Find equilibrium solution - -Model formulation-

9 Dataset for AIM/Material Model IO table (commodity x commodity)IO table (commodity x commodity) U matrix (commodity x sector)U matrix (commodity x sector) –Disaggregate pollution management V matrix (sector x commodity)V matrix (sector x commodity) Investment by sectorInvestment by sector –Disaggregate pollution management Pollution flow by sectorPollution flow by sector –Generation, treatment, discharge, recycle,... Supply and demand of reused materialSupply and demand of reused material - - Necessary data for simulation-

10 Input-Output table commodity 1...commodity ifinal demand total output commodity 1 : commodity i value added total output In order to produce commodity, what kind of inputs and how much of them are necessary. Distribution of produced commodity to production of commodity and final demand is presented. household consumption, government consumption, investment, export IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

11 U matrix (Use matrix) sector 1...sector jfinal demandtotal output commodity 1 : commodity i value added total output What kind and how much of input for production activity are necessary in sector. Distribution of produced commodity to sectors and final demand is presented. IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

12 original U matrix sector j production management of pollution a...management of pollution p total commodity 1 : commodity i value added total output Revised U matrix (disaggregate production and pollution management) Data of original U matrix are disaggregate into production and pollution management. IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

13 commodity 1...commodity itotal output sector 1 : sector j total output How much of commodity i produced by sector j is represented. V matrix (Make matrix) IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

14 commodity 1...commodity i total investment sector 1 : sector j total output Investment by sector How much of commodity invested to sector j. IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

15 Pollution flow by sector Pollution type Air pollution: SOx, NOx, CO2,...Air pollution: SOx, NOx, CO2,... Water pollution: BOD load, COD load,...Water pollution: BOD load, COD load,... Solid waste: sludge, scrap metal, slag,...Solid waste: sludge, scrap metal, slag,... Other:Other: –Toxic waste: Pb, dioxin,... IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

16 Pollution flow by sector sector j pollution generation discharge into env. self treatment other treatment reduction recycle discharge into env. IO/U/V/investment/ pollution/reuse sector j pollution a...pollution p generation discharge into environment without treatment self treatment discharge into environment after treatment reduction recycle other treatment direct other treatment - - Necessary data for simulation-

17 Supply and demand of reused material commodity 1commodity i total generation of reused pollution pollution a pollution p total supply of reused commodity How much of pollution/waste can be supplied as commodity i. IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

18 Supply and demand of reused material sector 1sector j total supply of reused pollution commodity 1 commodity i total demand of reused commodity How much of recycled commodity i can be demanded in sector j. IO/U/V/investment/ pollution/reuse - - Necessary data for simulation-

19 Optional Data for AIM/Material Model Energy balance tableEnergy balance table –Link physical data from energy balance table and monetary data from U matrix Other physical material dataOther physical material data –Raw materials such as wood, paper, steel,... –Link these physical data and monetary data Not yet completed - - Necessary data for simulation-

20 Scenarios for AIM/Material Model Technology changeTechnology change –Energy efficiency, pollution generation, pollution management, recycled material input, and so on for new equipment (investment) Labor forceLabor force Export and exportExport and export Preference changePreference change –Final consumption, investment,... - - Future scenario -

21 Application of AIM/Material Model Economic impacts due to environmental preservationEconomic impacts due to environmental preservation –CO2 reduction (Kyoto target), waste reduction, waste water treatment,... Mitigation by countermeasuresMitigation by countermeasures –Environmental investment, preference change, new technology, tax reform, CDM,... Link with bottom up model such as AIM/EmissionLink with bottom up model such as AIM/Emission

22 Part 2: Application to India Sectors –From 26 commodities, 24 sectors –To 40 commodities, 33 sectors Electricity sector –Disaggregated Pollutants –Wastewater –Sox –CO2 –Solid waste Time period – till 2030

23 Baseline trends

24

25 Scenarios

26

27 Future works of AIM/Material Part 1: Modification –Application to other countries Part 2: Application to India –New scenarios of environmental innovation –CDM scenarios –Link to bottom-up model

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