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Global Energy Outlook

Global Energy Outlook (EnerOutlook)は、オンラインのインタラクティブなデータソフトウェアで、直感的な地図やグラフを使ってデータを閲覧し、エネルギー業界の長期的な傾向を視覚的に分析することができます。

これらは、世界全体的にも地域別にも見ることができます。 このインターフェースは、エネルギーの需給や、化石燃料価格、再生可能エネルギー、CO2排出量などの情報を提供します。

このアプリケーションは、POLES model モデルに基づく完全な EnerFuture グローバル予測サービスの抜粋です。

Three global energy and climate scenarios are considered in EnerFuture:

  • EnerBase: a Business-As-Usual scenario in which historical trends in energy consumption and related emissions are maintained until 2050.
  • EnerBlue: a scenario based on the successful achievement of the Nationally Determined Contributions (NDCs).
  • EnerGreen: an ambitious scenario allowing to limit the global temperature increase below 2°C by 2100.

予測へのアクセス:

  • 電気および再生エネルギーの詳細を含む、一次および最終消費のトータルについて。
  • CO2排出量について。
  • エネルギーおよび気候指標について。
  • 全世界を7つの地域グループでカバーする。
  • With a dedicated tab for snapshots on sampled countries (Brazil, Canada, Hungary, Turkey and Vietnam);
  • 2050年までのデータを含む。
  • With detailed results from the EnerBlue scenarios, as well as key figures from the EnerBase and EnerGreen scenario.

高度な分析のための* .xlsファイルでの自由なデータエクスポート。

最終消費における電力のシェア 2050
Key Global Figures
EnerFuture:世界のエネルギー予測

EnerFutureは、2050年までのエネルギー予測を提供します。当社のサービスは、エネルギー需要、価格、およびGHG排出量の将来について明確な洞察を提供します。

詳しくは
限界削減コスト曲線 - MACC

Enerdataの長期的なMACCにより、世界的に認められているPOLESモデルからユニークな洞察と包括的なデータを得ることができます

詳しくは

12

Jul

The battery storage capacity in the US more than tripled to reach 4.6 GW in 2021 (from 1.4 GW in 2020) and increasingly broadened out of ancillary services, according to the American Energy Information Administration (EIA). The amount of battery storage capacity grew 220%, driven by the commissioning of 106 utility-scale systems with 3.2 GW of capacity. About 78% of all storage capacity added 2021 was built in regional transmission organization (RTO) service territories.

29

Jun

South Korea’s greenhouse gas (GHG) emissions rebounded by 3.5% to 679 MtCO2eq in 2021, after a 6.2% drop in 2020, according to the country’s Ministry of Environment. It represents a 6.5% decline compared to 2018 level. This increase was mostly driven by industry-related GHG emissions, which rose by 5.2% in 2021, followed by the energy sector (+3.6%), waste disposal (+1.6%) and agriculture (+0.9%).  In 2021, the energy sector accounted for 86.9% of South Korea’s total GHG emissions, followed by industry (7.5%), agriculture (3.1%) and waste disposal (2.5%). The country’s GHG emissions had been rising by an average of 1.1%/year between 2010 and 2018 and peaked at 727 MtCO2eq in 2018, before experiencing a decrease of 3.6% in 2019. South Korea aims to cut its GHG emissions in 2030 by 40% compared to 2018 levels and to reach carbon neutrality by 2050.

28

Jun

Australia's greenhouse gas (GHG) emissions rose nearly 1% in 2021, as driving and travel increased and as manufacturing activity recovered from the Covid-19 pandemic. The Australian Department of Industry, Science, Energy and Resources estimates that Australia’s total GHG emissions in the year to December 2021 reached 488 MtCO2eq, showing an increase of 4.1 MtCO2eq (0.8%) compared to the previous year. These results reflect an ongoing reduction in emissions from electricity, as well as an increase in emissions from transport, stationary energy (excluding electricity), agriculture and fugitive emissions.

16

Jun

France’s greenhouse gas (GHG) emissions except LULUCF rose by 6.4% to 418 MtCO2eq in 2021, after a 9.6% drop in 2020, according to preliminary figures from Citepa, representing a 23% decline compared to 1990 levels. This 2021 increase is driven by higher GHG emissions in the transport sector (+11.5%, i.e. +13 MtCO2eq, including +12% for road transport), in manufacturing and construction (+7.2%, i.e. +5.2 MtCO2eq, including +21% for ferrous metallurgy), in the energy sector (+7.4%, i.e. +3 MtCO2eq, including +10% for power generation) and in agriculture (+5.5%, i.e. +3.9 MtCO2eq).