多能源系统一体化规划的要求

Nicolas Thie, M. Franken, Henrik Schwaeppe, L. Böttcher, Christoph Müller, A. Moser, K. Schumann, D. Vigo, M. Monaci, P. Paronuzzi, A. Punzo, M. Pozzi, Angelo Gordini, Kemal Burak Cakirer, Burcin Acan, U. Desideri, A. Bischi
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引用次数: 3

摘要

成功实现欧盟在COP21承诺中商定的气候目标,使得欧洲能源系统有必要进行根本性的变革。特别是,为了将温室气体排放量减少80%以上,不仅必须在电力部门,而且必须在所有能源部门(如供热和交通运输)增加可再生能源的使用。此外,可再生能源的逐步整合增加了输电网拥堵的风险,使网络扩张成为必要。对未来能源系统的有效规划必须包括能源部门的耦合以及发电和输电网基础设施的相互依赖。然而,在传统的能源系统规划中,这些方面被认为是解耦的。因此,PlaMES项目开发了一种在欧洲范围内对多种能源系统进行综合规划的方法。本文旨在分析模型需求并描述建模方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Requirements for Integrated Planning of Multi-Energy Systems
The successful realization of the climate goals agreed upon in the European Union’s COP21 commitments makes a fundamental change of the European energy system necessary. In particular, for a reduction of greenhouse gas emissions over 80%, the use of renewable energies must be increased not only in the electricity sector but also across all energy sectors, such as heat and mobility. Furthermore, a progressive integration of renewable energies increases the risk of congestions in the transmission grid and makes network expansion necessary. An efficient planning for future energy systems must comprise the coupling of energy sectors as well as interdependencies of generation and transmission grid infrastructure. However, in traditional energy system planning, these aspects are considered as decoupled. Therefore, the project PlaMES develops an approach for integrated planning of multi-energy systems on a European scale. This paper aims at analyzing the model requirements and describing the modeling approach.
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