Study on Reducing Thermal Emissions by Improving the Efficiency of Electrostatic Precipitator (ESP)
Rahul Aggarwal
Electrical Engineering Department, GZS Campus College of Engineering & Technology, Bathinda-151001, Punjab, India
Rohit Kumar
Electrical Engineering Department, GZS Campus College of Engineering & Technology, Bathinda-151001, Punjab, India
Amit Kumar Manocha
Electrical Engineering Department, GZS Campus College of Engineering & Technology, Bathinda-151001, Punjab, India
63-72
Vol: 7, Issue: 2, 2017
Receiving Date:
2017-02-15
Acceptance Date:
2017-04-13
Publication Date:
2017-05-05
Download PDF
Abstract
The worry with the earth regarding air pollution is turning out to be serious, in the day to day life of everybody. A concrete contribution with the ecological issue is requested from the administrations, organizations and, in the end, from the general public overall. The factors, for example, charging strategy, particle size, Corona Power, Field voltage and drift speed and so on assume a vital part in the effective operation of Electrostatic Precipitator (ESP). The effective working of ESP ordinarily implies limiting the power utilization and boosting dust accumulation. With the air contamination control prerequisites turning out to be progressively stringent, it is basic to nearly screen and precisely control the key parameters of ESP control framework. In this paper the strategies to enhance the productivity of ESP are talked about
Keywords:
Electrostatic Precipitator (ESP); SPM; efficiency; Parameters; Power
References
- Journal of the Air pollution Control Association (Joseph P. Reynolds, Louis Theodore & James Marino)
- Operation Manual, Guru Hargobind Thermal Power Plant, Lehra Mohabbat.
- Zhao fu, Yu Wenhai, Wang Meiju and He Jian, “Efficiency improvement on large industrial electrostatic precipitators with IGBT Technology”, Paper 11B1, ICESP X – Australia, 2006
- Air pollution; PART-B prevention and control. Marcel Dekker, Inc New York 1974.
- Operation And maintenance Instruction Manual (210MW Steam generating units), Electrostatic Precipitator, BHEL
- F.G. Cottrell, “The electrical precipitation of suspended particles,” J. Ind. and Eng. Chem. 3, pp. 542-550, 1911
- Study and Analysis of effectiveness of Electrostatic precipitator in producer gas plant operations , BHEL-Tiruchirapalli
- ALSTOM, “Installation operation and maintenance manual”. Vol.-I
- Zhao fu, Yu Wenhai, Wang Meiju and He Jian, “Discovery of the power-saving principle of Electrostatic dust precipitation using dc supply”, Paper 6B2, ICESP X – Australia, 2006
- O. J. Lodge, “The electrical deposition of dust and smoke with special references to the collection of metallic fumes and the possible purification of the atmosphere”, 1886.
- Automatic Control and Management of Electrostatic Precipitator, BHEL Corporate Research & Development, Hyderabad.
- M. C. R. Falaguasta, J. Steffens, E. E. Valdes and J. R. Coury “Overall Collection Efficiency of a plate-wire Electrostatic precipitator operating on the removal of PM2.5” Latin American Applied Research 38:179-186 (2008).
- K.S. Lim , K. W. Lee & M. R. Kuhlman ”An experimental study of the performance factors affecting particle collection efficiency of the electrocyclone” Aerosol Science and Technology (2010).
- Joseph P. Reynolds , Louis Theodore & James Marino “Calculating Collection Efficiencies for Electrostatic Precipitators” Journal of the Air Pollution Control Association 2012.
- A. Buekens “ Pollution Control Technologies” department of Chemical Engineering- CHIS-2 (2014).
- Narendra Gajbhiye, V Eswaran, A K Saha and Anoop Kumar “Numerical calculation of particle collection efficiency in an electrostatic precipitator” Sa¯dhana¯ Vol. 40, Part 3, May 2015, pp. 863–873._c Indian Academy of Sciences.
- Maureen Cropper, Shama Gamkhar, Kabir Malik, AlexLimonov, and Ian Partridge “The Health Effects of Coal Electricity Generation in India” Washington, DC 20036 202-328-5000 (2012).
- Vishal Vasistha “Effects of pollutants produced by thermal power plant on environment” Int. J. Mech. Eng. & Rob. Res. 2014.
- Ki hyun kim, Ehsanul kabir & Shamin kabir, 2016 “A review on the human health impact of airborne particulate matter” Environment International 74 136–143 (2016)
Back
