Application of PTFE Heat Exchanger in Low Temperature Waste Heat of Big Coal-Fired Power Plants

Wen Peng Hong; Hui Zhang

doi:10.4028/www.scientific.net/AMM.789-790.503

Paper Titles

Significant of Isothermal Flow Studies for High Swirling Flow in Unconfined Burner
p.477

Numerical Simulation of Turbulent Thermal Fluid in Tee Water Duct Cooled Nuclear Reactor
p.484

Experimental Analysis of the Pool Boiling Phenomenon of Sugarcane Juice
p.489

Cooling Profile Analysis of Hot Strip Coil Using Finite Volume Method
p.496

Application of PTFE Heat Exchanger in Low Temperature Waste Heat of Big Coal-Fired Power Plants
p.503

A W-Band Dual-Mode Band-Pass Filter Based on LTCC Technology
p.511

A Millimeter-Wave SIW Gain Equalizer Using LTCC Technology
p.515

Dew Point Measurement Error due to Tube Length in a Calibration Instrumentation and the Evaluation of Measurement Uncertainty
p.519

A Neural Based Fuzzy Logic Model to Determine Corrosion Rate for Carbon Steel Subject to Corrosion under Insulation
p.526

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 789-790Application of PTFE Heat Exchanger in Low...

Application of PTFE Heat Exchanger in Low Temperature Waste Heat of Big Coal-Fired Power Plants

Abstract:

With the rapid development of the national economy, the use of low-temperature heat in thermal power plant boiler can not be ignored.Although low temperature economizer is widely used in low-temperature waste heat recovery of thermal power plant boiler, the problems of corrosion and fouling are very significant.New type PTFE heat exchanger filled with high thermal conductivity properties can replace the existing metal heat exchanger, fundamentally solve the problems of corrosion and fouling, meet the future development of the thermal power plant, and realize the energy recycling to maximize the benefit of energy.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 789-790)

Pages:

503-507

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.789-790.503

Citation:

Cite this paper

Online since:

September 2015

Authors:

Wen Peng Hong*, Hui Zhang

Keywords:

Low Temperature Economizer, PTFE Heat Exchanger, Waste Heat Utilization

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Huang Xinyuan The OPtimum Design of Low Pressure Economizer System of Boiler No. in Longkou Power Plant. Boiler technology, 1998,: 22～25.

Google Scholar

[2] Li Xu, Huang Dongmei. The characteristics of heat pipe type low pressure economizer and energy saving effect[J]. Energy saving, 2003, (2): 34.

Google Scholar

[3] Hu Honghua, Yu Xinying, Zhao Yi, Li Baojian, Peng Jingxin. Shanghai Waigaoqiao Power Plant Steam of unit No. 2 Turbine cold end parameters optimization of experimental study[J]. Auxiliary power plant, 1999, 03: 16-24.

Google Scholar

[4] Zhao Enchan, Zhang Fangwei, Zhao Yonghong. Research on the design of the flue gas waste heat utilization system of thermal power plant[J]. Thermal power generation, 2008, 37(10): 66～70.

Google Scholar

[5] Liu Hezhong, Lian Zhengquan. Application of Low Temperature Saving Coal Device in Generate Electricity Power Plant[J]. Electric Power Survey and design, 2010, (4): 32～38.

Google Scholar

[6] Wang Qi PTFE heat exchanger[J]. Modern plastics processing and Applications 1993 10: 58-61.

Google Scholar

[7] Dai Chuanshan, Li Biao, Wang Qunxiang. Research progress of fluorine plastic heat exchanger[J]. Chinese chemical society in 2011, the annual meeting and the fourth session of national petroleum and chemical industry energy conservation and water saving technology to reduce emissions BBS.

Google Scholar

[8] Ma Shuanglin. Development and application of PTFE heat exchanger[J]. Chemical equipment technology 1995 16(6): 47-49.

Google Scholar

[9] Pu Yangnan, Chen Haitao, Qian Xin. Study on a new type of plastic heat exchanger[J]. Journal of Zhejiang University of Technology 1986 2: 004.

Google Scholar

[10] Hu Yacai, Zhang Xuedong, Wang Jianping, Hong Ronghua. Plastic Heat Transfer Technology Application Prospect on Lithium Bromide-water Absorption Chillers[J]. Journal of refrigeration 2005 26(1): 44-48.

Google Scholar

[12] Yuanpeng, Research of plastic heat exchanger in the sewage-source heat pump[M]. Harbin Engineering University (2010).

Google Scholar

[13] Liao Li. Advances in Processing Technology, Modification and Application of Polytetrafluoroethylene[J]. Modern chemical industry 2010 39(006): 723-725.

Google Scholar

[14] Xia Qiaomin. Experimental Study of Water-saving Cooling Tower and Double-effect PlasticL LiBr Absorption Chiller[D]. Zhejiang university, (2011).

Google Scholar