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Upgrade of AIM/ Enduse Model. Extended Snapshop for APEIS project. Go Hibino 2008.2.18 13 th AIM International Workshop. Upgrade of AIM/ Enduse Model. Upgrade of AIM/ Enduse Model. Increase of fields in which users enter service demand 4 pairs → 8 pairs.
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Upgrade of AIM/Enduse Model Extended Snapshop for APEIS project Go Hibino 2008.2.18 13th AIM International Workshop
Upgrade of AIM/Enduse Model Increase of fields in which users enter service demand 4 pairs → 8 pairs
Upgrade of AIM/Enduse Model Additional function No.1 Only maximum share → Maximum and/or minimum share
Upgrade of AIM/Enduse Model Additional function No.2 Share group Electricity plant, Coal, Existing Electricity plant, Coal, PFBC Share group Electricity plant, Coal, IGCC Electricity plant, Gas, Existing Electricity plant, Gas, ACC Electricity Electricity plant, Hydro Electricity plant, Nuclear Electricity plant, Geothermal Electricity plant, Biomass, Existing Electricity plant, Biomass, Efficient Electricity plant, Wind Electricity plant, Solar
Upgrade of AIM/Enduse Model Additional function No.2 Share group Warming, Kerosene Warming, LPG Warming, Natural gas Warming, Electricity
Upgrade of AIM/Enduse Model Additional function No.2 Share group
Upgrade of AIM/Enduse Model Additional function No.3 Region-wise energy data
Extended Snapshop for APEIS project Low carbon society Energy snapshot Extended snapshot Sustainable development
Extended Snapshop for APEIS project Japan’s 21 Century Environmental Nation Strategy (2007.6) Climate crisis Resource crisis Ecosystem crisis Low carbon society Sound material cycle society Natural symbiosis society
Extended Snapshop for APEIS project Sound material cycle society Resource productivity GDP = Input Final disposal amount Cyclical use rate Final disposal amount Cyclical use rate Resource productivity
Extended Snapshop for APEIS project Natural symbiosis society Depopulation in rural area Ecosystem crisis Conservation of ecosystem Activation of sustainable agriculture and forestry Monetary based Self-sufficiency ratio of wood Caloric based 2050’s target 2050’s target Self-sufficiency ratio of food Source: MOE(2007) “Long-term vision”
Extended Snapshop for APEIS project GHG Emission Daily calorie Arable area Food Landuse Self-sufficiency ratio of food Child mortality Artificial capital area Population Artificial Capital Stock Population distribution Forest area Self-sufficiency ratio of wood Export / import of food Capital depreciation Capital accumulation Restriction of labor Export / import of wood Wood - Forest Export / import of energy Labor Import Export Wood supply Wood demand CO2 Absorption Restriction of labor time Resource productivity Final disposal amount Disposal emission Population distribution Material Labor demand Waste Disposal recovery Cyclical use rate TIME I/O Sector-wise input and output 廃棄物焼却量 GHG Emission Consumption structure Consumption Electrification GHG Consumption of fossil fuel Energy Air conditioner, Cooking Housing Solid fuel Transport- ation volume Slum dwellers Number of trip, Trip distance Trip Social account Economic account Physical account Target value Data flow Transportation Lifestyle Access safe water Water Macro Economic