Integration of vertical solar power plants into a future German energy system

IF 5.4 Q2 ENERGY & FUELS
Sophia Reker , Jens Schneider , Christoph Gerhards
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引用次数: 11

Abstract

In Germany's future energy system wind and solar power directly cover all electricity demand for more than half of the year. Typical inclined south facing PV modules produce a strong peak around noon on sunny days. In east-west facing vertical PV modules energy yield peaks are shifted towards morning and afternoon hours. Such systems can be applied in agri photovoltaic power plants with similar energy yield per installed capacity to conventional photovoltaic systems. While installed power per area is by a factor 4 to 5 smaller, dual land use with agriculture allows for a technical potential in the terawatt hours per year range, which is comparable to half of entire German primary energy demand. In a simulation model based on the programme EnergyPLAN for Germany 2030 with 80% CO2 reduction related to 1990 the effect of different PV power plant orientations is investigated. In the model an optimum share of around 80% vertical PV systems is found without any electricity storages and 70% with electricity storage possibilities. It could be shown that vertical PV systems enable lower storage capacities or lower utilization of gas power plants. Without any storage options a reduction of the overall carbon dioxide emissions by up to 10.2 Mt/a is possible.

Abstract Image

将垂直太阳能发电厂整合到未来的德国能源系统中
在德国未来的能源系统中,风能和太阳能可以直接满足半年以上的电力需求。典型的向南倾斜的光伏组件在晴天中午左右产生强烈的峰值。在面向东西的垂直光伏模块中,发电量峰值转移到上午和下午。这种系统可以应用于农业光伏发电厂,其每装机容量的发电量与传统光伏系统相似。虽然单位面积的装机功率要小4到5倍,但土地与农业的双重利用允许每年太瓦时的技术潜力,这相当于整个德国一次能源需求的一半。在一个基于EnergyPLAN计划的模拟模型中,德国2030年的二氧化碳排放量比1990年减少了80%,研究了不同光伏电站方向的影响。在该模型中,垂直光伏系统的最佳份额约为80%,没有任何电力存储,70%有电力存储的可能性。可以证明,垂直光伏系统可以降低存储容量或降低天然气发电厂的利用率。如果没有任何存储选项,则可能减少高达1020万吨/年的总二氧化碳排放量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Smart Energy
Smart Energy Engineering-Mechanical Engineering
CiteScore
9.20
自引率
0.00%
发文量
29
审稿时长
73 days
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