Electricity grids and climate targets: New approaches to grid planning

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschung

Standard

Electricity grids and climate targets: New approaches to grid planning. / Mieth, Robert; Weinhold, Richard; Gerbaulet, Clemens et al.
in: DIW Economic Bulletin, Jahrgang 5, Nr. 6, 2015, S. 75-80.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschung

Harvard

Mieth, R, Weinhold, R, Gerbaulet, C, Hirschhausen, CRV & Kemfert, C 2015, 'Electricity grids and climate targets: New approaches to grid planning', DIW Economic Bulletin, Jg. 5, Nr. 6, S. 75-80. <http://hdl.handle.net/10419/107603>

APA

Vancouver

Mieth R, Weinhold R, Gerbaulet C, Hirschhausen CRV, Kemfert C. Electricity grids and climate targets: New approaches to grid planning. DIW Economic Bulletin. 2015;5(6):75-80.

Bibtex

@article{bb79ac5f010446e5b5dfef5132460457,
title = "Electricity grids and climate targets: New approaches to grid planning",
abstract = "Grid optimization, capacity increases, and grid expansion all play a key role in the development of the German power generation system. Thanks to transmission system operators' foresightedness with regard to grid planning, as well as generous financial incentives related to grid expansion, Germany's energy transition has not been impeded by transmission congestion in the electricity grid to date. So far, grid expansion planning already accounted for German renewable energy targets, the nuclear phase- out, and the European Emissions Trading System. From now on, the planning framework also includes scenarios which explicitly account for German emissions reduction targets. The level of CO2 emissions from power stations is to be cut to 187 million tons and 134 million tons by 2025 and 2035, respectively, compared with 317 million tons in 2013. Unlike last year's version of the scenario framework, the latest draft put forward by transmission system operators included a significant increase in lignite-based power generating capacities. In contrast, the version that has now been approved by the German government contains specifications for lignite-based power generation which, depending on the scenario, are five to seven gigawatts lower than the values set down in the draft.",
keywords = "Economics, network development, renewables, energy transformation",
author = "Robert Mieth and Richard Weinhold and Clemens Gerbaulet and Hirschhausen, {Christian R. von} and Claudia Kemfert",
year = "2015",
language = "English",
volume = "5",
pages = "75--80",
journal = "DIW Economic Bulletin",
issn = "2192-7219",
publisher = "Deutsches Institut f{\"u}r Wirtschaftsforschung (DIW)",
number = "6",

}

RIS

TY - JOUR

T1 - Electricity grids and climate targets

T2 - New approaches to grid planning

AU - Mieth, Robert

AU - Weinhold, Richard

AU - Gerbaulet, Clemens

AU - Hirschhausen, Christian R. von

AU - Kemfert, Claudia

PY - 2015

Y1 - 2015

N2 - Grid optimization, capacity increases, and grid expansion all play a key role in the development of the German power generation system. Thanks to transmission system operators' foresightedness with regard to grid planning, as well as generous financial incentives related to grid expansion, Germany's energy transition has not been impeded by transmission congestion in the electricity grid to date. So far, grid expansion planning already accounted for German renewable energy targets, the nuclear phase- out, and the European Emissions Trading System. From now on, the planning framework also includes scenarios which explicitly account for German emissions reduction targets. The level of CO2 emissions from power stations is to be cut to 187 million tons and 134 million tons by 2025 and 2035, respectively, compared with 317 million tons in 2013. Unlike last year's version of the scenario framework, the latest draft put forward by transmission system operators included a significant increase in lignite-based power generating capacities. In contrast, the version that has now been approved by the German government contains specifications for lignite-based power generation which, depending on the scenario, are five to seven gigawatts lower than the values set down in the draft.

AB - Grid optimization, capacity increases, and grid expansion all play a key role in the development of the German power generation system. Thanks to transmission system operators' foresightedness with regard to grid planning, as well as generous financial incentives related to grid expansion, Germany's energy transition has not been impeded by transmission congestion in the electricity grid to date. So far, grid expansion planning already accounted for German renewable energy targets, the nuclear phase- out, and the European Emissions Trading System. From now on, the planning framework also includes scenarios which explicitly account for German emissions reduction targets. The level of CO2 emissions from power stations is to be cut to 187 million tons and 134 million tons by 2025 and 2035, respectively, compared with 317 million tons in 2013. Unlike last year's version of the scenario framework, the latest draft put forward by transmission system operators included a significant increase in lignite-based power generating capacities. In contrast, the version that has now been approved by the German government contains specifications for lignite-based power generation which, depending on the scenario, are five to seven gigawatts lower than the values set down in the draft.

KW - Economics

KW - network development

KW - renewables

KW - energy transformation

M3 - Journal articles

VL - 5

SP - 75

EP - 80

JO - DIW Economic Bulletin

JF - DIW Economic Bulletin

SN - 2192-7219

IS - 6

ER -

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