Paper Titles

An Optimized Algorithm for Discretization of Cutter Location Points on the Laser Cutting Path of Three-Dimensional Surface
p.19

An Ultrasonic Knife System for MEMS Packaging
p.23

Application of SLP Method in Design of Facilities Layout in Workshop
p.28

Based 3D Process Production Site Visualization Manufacturing Technology Research
p.33

Based on Energy Loss Analysis Theory to Analysis Operation Parameter and Coal Consumption of 300MW Power Plant
p.37

CFD Analysis of Elementary-Kinetic Chemical Reactions and Effects on Transport Processes in Anodes of Solid Oxide Fuel Cells
p.43

Change Order Audit in Machinery Enterprise Base on the Delivery Schedule and Loss Cost Estimate
p.53

Characteristic Analysis of Francis-Turbine in Cooling Tower
p.57

Cloud Manufacturing-Based Enterprise Platform Architecture and Implementation
p.60

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 190-191Based on Energy Loss Analysis Theory to Analysis...

Based on Energy Loss Analysis Theory to Analysis Operation Parameter and Coal Consumption of 300MW Power Plant

Article Preview

Abstract:

Introduced the theory of the Energy loss analysis and lots of Energy loss analysis methods and utilized the basic formula method to analysis the influence of some operation parameters of a foreign designed 300MW coal-fired power plant to coal consumption in the variety loads. Applied matlab to make a figure, which contained the influence of some operation parameters of a foreign designed 300MW coal-fired power plant to coal consumption in the variety loads. Compared analysis the results, and gained the energy saving direction, so it conducted the operation of these units and optimized it.

You might also be interested in these eBooks

Digital Manufacturing & Automation III

Info:

Periodical:

Applied Mechanics and Materials (Volumes 190-191)

Pages:

37-42

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.190-191.37

Citation:

Cite this paper

Online since:

July 2012

Authors:

Kai Rui Liu, Jun Bao Yang

Keywords:

Coal Consumption, Energy Loss, Operation Parameters

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2012 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] Qing Li , Weiping Gong. Thermal power plant energy saving and index management technology [M]. Beijing：China Electric Power Press, 2006. (in Chinese).

[2] Qing Li., Xingying Zhang, Guangzhao Xu. Thermal power plant production quota management handbook [M]. Beijing：China Electric Power Press, 2007. (in Chinese).

[3] Qinghua Yin, Tieniu Qian, Jili, Zhuang and so on. The experiment study of economical performance of 300 MW domestically-made imported type units. [J]. East China Electric Power, 1998, (3): 1-6. (in Chinese).

[4] Zhenhua Wang. Management and application of Energy loss analysis. [C]. The 13th Annual Conference of Thermal power 600MW unit Technology Association of China . Ning Bo, 2009 (5): 633-641. (in Chinese).

[5] Xuhao Yang. Application of energy-loss analysis in energy conservation management. [J]. WATER CONSERVANCY & ELECTRIC POWER MACHINERY, 2010, (10): 59-62. (in Chinese).

[6] Zhenyu XU, Hong wei Chen, Bo Yang. Analysis of the coal consumption deviation with operation parameters of the thermal power plant boiler. [J]. ENERGY CONSERVATION, 2006, (11): 27-28. (in Chinese).

[7] Guangxia Xu. Based on Energy loss analysis theory to study the optimization system of thermal power plant[C]. Beijing: North China Electric Power University, 2008. (in Chinese).

[8] Changlin Zhu, Laide Shi, Ting Ge. On-line Analysis and Fault Diagnosis in Running Economical Efficiency of Thermal Power Generator Units. [C]. CHINESE JOURNAL OF CONSTRUCTION MACHINERY, 2003: 446-451. (in Chinese).

[9] Chunfa Zhang, Hongtao Cao, Xiaojin Li. Research of Analytic Evaluation Model for Carbon Loss for Boiler. [J]. BOILER TECHNOLOGY , 2003, (7): 8-10. (in Chinese).

[10] Jin Qian, Peihong Wang, Lin Li. Application of Clustering Algorithm in Target-value Analysis for Boiler Operating Parameter. [J]. PROCEEDINGS OF THE CSEE, 2007, (8): 71-74. (in Chinese).

[11] Deyu Li, Hongwei Chen, Abiao Lin. Analysis of Coal Consumption Deviation for Important Operation Parameters of Utility Boiler Circuit. [J]. BOILER TECHNOLOGY, 2010, (1): 5-8. (in Chinese).

[12] Ting Zhuang. Application of Heat Deviation Analysis in the Unit Optimal Operating Management. [J]. ZHEJIANG ELECTRIC POWER , 2004, (2): 5-7, 50. (in Chinese).

[13] Zhiqun Wu, Dinghui Wang, Yanhui, Huang. STUDY ON CALCULATION METHOD FOR TARGET VALUE OF BOILER OPERATION OPTIMIZATION IN THERMAL POWER PLANTS. [J]. THERMAL POWER GENERATION, 2006, (9): 27-29. (in Chinese).

[14] Yongping Fang, Niansu Hu, Jing Wang. Energy Loss Analysis on 600 MW Super Critical Steam Turbine Generator Unit. [J]. THRBINE TECHNOLOGY 2007, (2): 8-11. (in Chinese).

[15] Jibo Zhou, Zhaohui Yi. Energy Loss Analysis on 1000MW Ultra-supercritical Steam Turbine Generator Unit. [J]. ELECTRIC POWER SURVEY & DESIGN, 2008, (5): 41-45. (in Chinese).

[16] Ningling WANG , Yongping YANG, Zhiping YANG. Diagnosis of Energy-saving Potential and Optimized Measures for 600MW Supercritical Coal-fired Power Units. [J]. 2010 International Conference on Electrical and Control Engineering: 3646-3649.

DOI: 10.1109/icece.2010.890

[17] Jian-qiang Li, Cheng-lin Niu, Jun-jie Gu. Energy Loss Analysis Based on Fuzzy Association Rule Mining in Power Plant. [J]. 2008 International Symposium on Computational Intelligence and Design: 186-189.

DOI: 10.1109/iscid.2008.184