Spatial dimension - POLES: Difference between revisions
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== Energy and emissions balances == | == Energy and emissions balances == | ||
The geographical representation is based on the importance of countries in energy consumption and GHG emissions. POLES describes full energy and emissions balances for 57 geographical units: 45 countries | The geographical representation is based on the importance of countries in energy consumption and GHG emissions. POLES describes full energy and emissions balances for 57 geographical units: 45 individual countries and 12 residual regions covering the World. Countries include all OECD (1990) countries and large non-OECD countries. All EU28 Member States and nearly all G20 countries are thus explicitly represented. The 45 individual countries are the following: | ||
* EU28 Member States | |||
* Norway | |||
* Switzerland | |||
* Iceland | |||
* Turkey | |||
* Russia | |||
* Ukraine | |||
* Canada | |||
* USA | |||
* Mexico | |||
* Brazil | |||
* Japan | |||
* South Korea | |||
* China | |||
* India | |||
* Indonesia | |||
* Egypt | |||
* South Africa | |||
Land use and | Additional individual countries are present in more recent versions of the model (Australia, New Zealand, Argentina, Chile, Iran, Saudi Arabia, Thailand, Malaysia, Vietnam). | ||
<figure id="fig:POLES_2"> | |||
[[File:36405501.png|none|500px|thumb|<caption>POLES - the World in 57 energy balances</caption>]] | |||
</figure> | |||
Land use and renewable energies potentials (wind, solar, biomass) follow the geographical representation of the energy balances. | |||
The international air and maritime bunkers are represented separately. | The international air and maritime bunkers are represented separately. | ||
Energy demand at World level, and related emissions, is then the sum of all regions and bunkers. | Energy demand at World level, and related emissions, is then the sum of all regions and bunkers. | ||
== Fossil fuels supply == | == Fossil fuels supply == | ||
| Line 23: | Line 44: | ||
Oil and gas productions are described for 80 producers. | Oil and gas productions are described for 80 producers. | ||
<figure id="fig:POLES_3"> | |||
[[File:36405502.png|none|500px|thumb|<caption>POLES - 80 oil and gas producers</caption>]] | [[File:36405502.png|none|500px|thumb|<caption>POLES - 80 oil and gas producers</caption>]] | ||
</figure> | |||
Coal production distinguishes 74 producers, including an infra-national disaggregation for large producers (USA, China, Australia, India). | Coal production distinguishes 74 producers, including an infra-national disaggregation for large producers (USA, China, Australia, India). | ||
Latest revision as of 17:41, 16 December 2016
| Corresponding documentation | |
|---|---|
| Previous versions | |
| Model information | |
| Model link | |
| Institution | JRC - Joint Research Centre - European Commission (EC-JRC), Belgium, http://ec.europa.eu/jrc/en/. |
| Solution concept | Partial equilibrium (price elastic demand) |
| Solution method | SimulationRecursive simulation |
| Anticipation | Myopic |
Energy and emissions balances
The geographical representation is based on the importance of countries in energy consumption and GHG emissions. POLES describes full energy and emissions balances for 57 geographical units: 45 individual countries and 12 residual regions covering the World. Countries include all OECD (1990) countries and large non-OECD countries. All EU28 Member States and nearly all G20 countries are thus explicitly represented. The 45 individual countries are the following:
- EU28 Member States
- Norway
- Switzerland
- Iceland
- Turkey
- Russia
- Ukraine
- Canada
- USA
- Mexico
- Brazil
- Japan
- South Korea
- China
- India
- Indonesia
- Egypt
- South Africa
Additional individual countries are present in more recent versions of the model (Australia, New Zealand, Argentina, Chile, Iran, Saudi Arabia, Thailand, Malaysia, Vietnam).
<figure id="fig:POLES_2">
</figure>
Land use and renewable energies potentials (wind, solar, biomass) follow the geographical representation of the energy balances.
The international air and maritime bunkers are represented separately.
Energy demand at World level, and related emissions, is then the sum of all regions and bunkers.
Fossil fuels supply
The fossil fuels supply side is more detailed, with all important producing countries being represented allowing a very precise description of the supply side and a good understanding of the related issues at stake.
Oil and gas productions are described for 80 producers.
<figure id="fig:POLES_3">
</figure>
Coal production distinguishes 74 producers, including an infra-national disaggregation for large producers (USA, China, Australia, India).
Trade
Producing regions and consuming regions are linked through energy markets.
- Oil producers supply a single world "pool" market
- Large gas producers export towards 14 regional consuming markets; small gas producers only supply domestic consumption
- Large coal producers export towards 15 regional consuming markets; small coal producers only supply domestic consumption
- Solid or liquid biofuels producers export towards a single world "pool" market
- A single world production of uranium is modelled