Energy Management and Planning MSJ0210 Energy planning Eduard Latõšov.

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Presentation transcript:

Energy Management and Planning MSJ0210 Energy planning Eduard Latõšov

EU level Contents State level Local level

EU level

Energy planning. EU level.

Energy planning. EU level. Targets 2020

Energy planning. EU level. Targets 2030

Energy planning. EU level. Targets 2030

Energy planning. EU level. Targets 2050 Ambitious! (target for 2030 by 40%)

Energy planning. EU level. Targets 2050

Energy planning. EU level. Role of new Technologies is high Good technology: 1.Cheap (low energy production costs) 2.Efficient 3.Has low environmental impacts In major cases efficient and environmental friendly technology on an equality with more simple technologies not always competitive.

Energy planning. EU level. The European Strategic Energy Technology (SET)- Plan Information System The EU's SET-Plan Information System (SETIS) provides information on the state of low-carbon technologies. It also assesses the impact of energy technology policies, reviews the costs and benefits of various technological options, and estimates implementation costs. This information is useful for the European Industrial Initiatives, private companies, trade associations, the European Energy Research Alliance, international organisations, and financial institutions. Support actions Availability of information about technologies is important!

Energy planning. EU level. SET plan. List of technologies.

Targets are clear. How to reach them?

Energy planning. EU level. Support schemes for market-based deployment

Energy planning. EU level. EU LEVEL (CARBON TRADE) STATE LEVEL (OTHER SUPPORT SCHEMES)

Energy planning Lecture discussion results The World Energy Council’s definition of energy sustainability is based on three core dimensions – energy security, energy equity, and environmental sustainability. These three goals constitute a ‘trilemma’, entailing complex interwoven links between public and private actors, governments and regulators, economic and social factors, national resources, environmental concerns, and individual behaviours.

Energy trilemma

State level

Energy planning. State level. Estonian National Energy Development Plan In February 2012 the Estonian Ministry of Economic Affairs and Communications launched the preparation for updating the national energy sector development plan. The new plan – the National Energy Sector Development Plan (ENMAK 2030+) - sets the objectives of energy supply security, greenhouse gas (GHG) emissions and industry competitiveness until 2030 and a long-term vision until Example. Estonia

Energy planning. State level. Example. Estonia Long-term energy scenarios for Estonia SCENARIOS FOR 2030 AND 2050 Eight scenarios are simulated with the BALMOREL model of the district heating and electricity systems. The electricity system interacts across national borders, and is studied for the entire Baltic Sea region: The Baltic States, the Nordic countries, Germany, Poland and North-West Russia.

Energy planning. State level. Example. Estonia BALMOREL is an open source model for analysing the electricity and combined heat and power system in an international perspective. It is highly versatile and may be applied for long-term planning as well as shorter term operational analysis

Energy planning. State level. Example. Estonia

Energy planning. State level. Example. Estonia Balmorel model

Energy planning. State level.

EU targets for 2020 ENMAK results EU targets for 2030 ENMAK results Renewable energy Consumption final Primary energy consumption Greenhouse gases

Energy planning. State level. EU targets Estonia targets Possibilities (scenarios) Energy price, security of supply, Environment, other impacts Promotional strategies

Support schemes for market-based deployment Energy planning. State level. Example. Estonia

Support schemes for market-based deployment Energy planning. State level. Example. Estonia

Energy planning. State level. Example. Estonia BEFORE 2005 mainly Present. All dots.

Energy planning. State level. Example. Estonia Target: 15% of electricity from renewable sources

Local level

ENERGY DEMAND SELECTION OF TECHNOLOGIES OPTIMIZATION OF TECHNOLOGIES AND COMBINATIONS (capital costs, O&M costs, environmental impacts etc) OPTIMIZATION OF TECHNOLOGIES AND COMBINATIONS (capital costs, O&M costs, environmental impacts etc) AVAILABILITY AND PROPERTIES OF FUELS (RESOURCES) LEGISLATION LEGAL FRAMEWORK Economic Environment feed-back Local level

In general the same tasks and balancing as for other levels Main task/feature (most of time): Maximize profit operating within the legal framework Maximize profit not always equal to low energy price (depends on project background)

Thank you