A Decision Support System for Economically Optimal Plan of Distributed Energy Systems
Planning of distributed energy systems is a challenging task,involving a lot of technical,economic,environmental and political factors. In this study,an optimization model based decision support system and the relevant software package have been developed to provide comprehensive analysis of economic,energetic and environmental issues within a distributed energy system framework. The optimization problem is formulated as a mixed integer linear programming (MILP) model where the objective is to minimize the overall cost of the distributed energy system including both investing and running costs. By using a user friendly interface,the system can be used without the necessary to have special expertise and knowledge on energy system planning and decision analysis. In addition,besides the distributed energy system planning,it can be also used for examining and visualizing impacts of local energy and environmental policies,regional development policies,and climate change within a local framework.
optimization model decision support system distributed energy resource mixed-integer linear programming LINGO
Hongbo Ren Weisheng Zhou Weijun Gao Qiong Wu
Ritsumeikan Global Innovation Research Organization,Ritsumeikan University,Kyoto 603-8577,Japan College of Policy Sciences,Ritsumeikan University,Kyoto 603-8577,Japan Faculty of Environmental Engineering,The University of Kitakyushu,Kitakyushu,808-0135,Japan
国际会议
南京
英文
1848-1853
2010-09-13(万方平台首次上网日期,不代表论文的发表时间)