On this basis, a system dynamic model of peak and valley time price is established.
在此基础上,建立了峰谷分时电价系统动力学模型。
As one of the economical means of demand side management, the implementation effect of peak and valley time price is influenced by various factors.
峰谷分时电价作为需求侧管理的一种经济手段,其实施效果受多种因素影响。
The establishment of the proposed model can provide the useful technique support for further establishment and implementation of peak and valley time price policies.
该模型的建立将为今后峰谷电价政策的制定和实施提供有益的技术支持。
Simulation and comparison studies of different peak and valley time price policies and different response types of users are carried out by simulation software VENSIM special for system dynamics.
应用系统动力学专用的仿真软件VENSIM对不同峰谷分时电价定价策略和不同响应类型用户进行仿真和比较研究。
Simultaneously, it should also shorten the price regulation time as short as possible, and smooth the price fluctuation to increase the social benefits of peak and valley price policy.
同时,尽可能缩短电价调整时间,平稳价格波动,提高峰谷电价政策的社会效益。
Based on the price elasticity matrix, the method to implement peak-valley and time-of-use and season-of-use price is explored to consist with electricity consumers response of different industries.
通过建立各用户行业的丰枯季节电价弹性矩阵和峰谷分时电价弹性矩阵,依据各行业电力用户的调查数据建立分行业的丰枯季节电价与峰谷分时电价的电量转移成本函数与获益函数。
Based on the price elasticity matrix, the method to implement peak-valley and time-of-use and season-of-use price is explored to consist with electricity consumers response of different industries.
通过建立各用户行业的丰枯季节电价弹性矩阵和峰谷分时电价弹性矩阵,依据各行业电力用户的调查数据建立分行业的丰枯季节电价与峰谷分时电价的电量转移成本函数与获益函数。
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