《Table 3 Computational time in hours (CT) for multiple scenario runs in the interconnected 2050 refe
本系列图表出处文件名:随高清版一同展现
《Developing a global interconnected power system model》
1 Includes Pumped Hydro Storage(PHS)and multiple start states for CCGT’s in the simulation.2 Flow between EU-FR and US-SRVC through the EU-NA interconnector is constrained at 5 GW.3 Mixed Integer Programming.4 Rounded Relaxation.5 Linear Programming.
In earlier studies for which global grid models were utilized,the computational time of these models has been identified as a limiting factor because of the mere size and complexity of the unit commitment and dispatch problem[29,32].Yet,developments in hardware,software and solver since these studies,allow for significant reductions in computational time for similar sized problems.Table 3 shows an overview of total computational time for a variety of scenario runs for the interconnected 2050 reference model with different unit commitment optimality’s-determining how integers are treated in the unit commitmentand deviating complexity of the power system.
图表编号 | XD0020050000 严禁用于非法目的 |
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绘制时间 | 2018.08.01 |
作者 | Maarten Brinkerink、Paul Deane、Seán Collins、Brian ó Gallachóir |
绘制单位 | MaREI Centre, Environmental Research Institute, University College Cork、School of Engineering, University College Cork、MaREI Centre, Environmental Research Institute, University College Cork、School of Engineering, University College Cork、MaREI Centre, Env |
更多格式 | 高清、无水印(增值服务) |
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