基于短期天气预报和用电量预测的区域供热温度控制算法

N. Papakonstantinou, J. Savolainen, J. Koistinen, A. Aikala, V. Vyatkin
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引用次数: 4

摘要

区域供热网是一个复杂的系统,其中能源生产必须与消耗负荷相匹配,而通过电网的温度和压力等关键系统参数必须保持在限制范围内。电网控制策略的选择取决于所选择的关键性能指标。本文的科学贡献是一种利用热消耗预测控制热电厂供水温度设定值的方法。该算法的目的是在困难消费者最需要的时候为他们提供更多的热能。需要输入的信息是短期天气预报、区域供热网供应热水温度传播延迟作为电网负荷水平的函数以及基于历史数据或热消耗模型的消耗概况。将该方法应用于120MW区域供热网的简化案例研究。结果表明,在特定的供水温度范围内,与简单的被动和恒温控制策略相比,采用所提出的主动算法的电网在一年内在消费者处的最小压差方面的性能明显更好。
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District heating temperature control algorithm based on short term weather forecast and consumption predictions
District heating grids are complex systems where energy production has to match the consumption load while key system parameters like temperatures and pressures through the grid have to be kept within limits. The choice of a control strategy for the grid depends on the selected key performance indicators. The scientific contribution of this paper is a methodology for controlling the supply water temperature setpoint of a heat power plant using heat consumption predictions. The proposed algorithm aims to provide more heat energy to the difficult consumers when they need it the most. The required input information are the short term weather forecast, the supply hot water temperature propagation delays of the district heating grid as a function of the grid load level and consumption profiles based on historical data or heat consumption models. The methodology is applied on a simplified case study of a 120MW district heating grid. The results showed that within a specific supply water temperature range the performance of the grid in terms of minimum pressure difference at the consumers over a year was significantly better using the proposed proactive algorithm compared to simple reactive and constant temperature control strategies.
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