An integrated approach for optimizing the operation of modern heat supply systems

被引:1
作者
Bass M.S. [1 ]
Batukhtin A.G. [1 ]
机构
[1] Chita State University, Chita 672039
来源
Thermal Engineering | 2011年 / 58卷 / 8期
关键词
Heat Supply; Heat Carrier; Network Water; Payback Period; Cogeneration Station;
D O I
10.1134/S0040601511080052
中图分类号
学科分类号
摘要
We discuss matters concerned with applying an integrated approach for optimizing the operation of modern heat supply systems on the basis of constructing interconnected models of heat consumers, heat networks, and heat supply sources together with carrying out experimental field studies of the real state of a system, and with correcting the distribution of flows and the set of equipment used at stations distributing heat to consumers. Two examples of using the method for closed- and open-circuit systems are given. © 2011 Pleiades Publishing, Ltd.
引用
收藏
页码:678 / 681
页数:3
相关论文
共 6 条
[1]  
Makkaveev V.V., Batukhtin A.G., A Mathematical Model for a Number of User Inlets in Closed-Circuit Heat Supply Systems, Nauchn. Tekhn. Vedom. SPb-GTU, 3, pp. 200-207, (2009)
[2]  
Batukhtin A.G., Makkaveev V.V., Using Optimization Models Simulating the Operation of Heat Supply Systems for Reducing the Net Cost of Thermal Energy and Increasing the Available Power Station Capacity, Prom. Energ., 2, pp. 7-8, (2010)
[3]  
Batukhtin A.G., Bass M.S., Batukhtin S.G., Methods for Achieving More Efficient Performance of Modern Heat Transportation, Distribution, and Consumption Systems, Nauchn. Probl. Transp. Sib. dal'N. Vost., 2, pp. 199-202, (2009)
[4]  
Batukhtin A.G., Kupriyanov O.E., The Effect of Heat Network Length on the Conditions of Heat Supply from a Cogeneration Station Taking the Operation of Consumers into Account, Prom. Energ., 5, pp. 39-41, (2005)
[5]  
Ivanov S.A., Batukhtin A.G., Goryachikh N.V., A Method for Increasing the Electric Power of Turbines, Prom. Energ., 12, pp. 13-15, (2009)
[6]  
Ivanov S.A., Batukhtin A.G., Makkaveev V.V., Calculating the Daily Schedule of Heat Supply from a Heat Source with Combined Qualitative and Quantitative Control in Open-Circuit District Heating Systems, Prom. Energ., 5, pp. 32-34, (2008)
1