info@ijrst.com

+919555269393

Track Article

Upload Article

IJRST
About
About IJRST Editorial Board Reviewers Advisory Board Call for Papers Subject Areas Indexing
For Author
Peer Review Guidelines Instruction for Authors Submission Process Manuscript Withdrawal Article Processing Charge Invitation for Reviewers Review Process Article Workflow
Policies
Open Access Policy Review Policy Publication Ethics Article Correction Policy Plagiarism Policy Conflict of Interest Policy
Archive
Past Issues Current Issue
Download
Paper Template Copyright Form Cover Page AIU Prospectus
Certificate FAQ Contact Upload Article Track Article

Details

GENERATION OF ELECTRIC CURRENT FROM INDUSTRIAL EXHAUST BY USING TURBOCHARGER

T. Vijay

PG student: Department of Mechanical Engineering, Regional centre, Anna university Tirunelveli Region Tirunelveli, India

S. Raja kumar

Assistant Professor:Department of Mechanical Engineering, Regional centre, Anna university Tirunelveli Region Tirunelveli, India

67-72

Vol: 6, Issue: 1, 2016

Receiving Date: 2015-11-25 Acceptance Date:

2015-12-26

Publication Date:

2016-01-28

Download PDF

Abstract

Electricity is the greatest demand now a days, for all developing countries, many steps have been taken for the production of electricity by employing various power plant to overcome the needs or demand. The main objective of this project is to generate electricity from the industrial exhaust by using turbocharger. Flue gas from various industries are exhausted as waste in large quantities, thus the exhaust flue gas from any industry is utilized for producing electricity by using commercially available turbocharger. In this project the nozzle is designed and analyzed for increasing the flue gas velocity. The design of the nozzle is based on flue gas passage duct in small scale power plant industry, the parameter and boundary condition values are taken from this industry for analyzing the nozzle.

Keywords: Energy Recovery; Turbo-Charger; Cogeneration; Electrical Generator; small scale generation.

References

  1. Nikolett Sipöcz, Alvaro Hernandez-Nogales, Miguel A. Gonzalez-Salazar ,Roger Shisler, Vitali Lissianski (2013), “Low temperature CO2 capture for near-term applications” Energy Procedia 37 ( 2013 ) 1228 – 1238
  2. Bobby P. James and bashar zahawi ,mediterranean green energy forum 2013,” high speed generator for turbocharger based domestic combined heat and power unit employing the inverted brayton cycle” energy procedia 42 ( 2013 ) 249 – 260 .
  3. Mehari Weldemariam Degefa, Solomon Tesfamariam Teferi(2014), “Energy recovery from exhaust air of textile industry”, International Journal of Renewable andSustainableEnergy.Vol.3,No.4,2014,pp.82-86. doi:10.11648/j.ijrse.20140304.12
  4. Eduardo mariscal-hay, noel leon-rovira (2013),” electrical generation from thermal solar energy using a turbocharger with the brayton thermodynamic cycle”, 2013 ISES solar world congress
  5. K.Balaji and R.Ramkumar,“study of waste heat recovery from steam turbine exhaust for vapour absorption system in sugar industry”, procedia engineering 38 ( 2012 ) 1352 – 1356.
  6. Maria sanchez del rioa, mathieu lucquiauda, jon gibbinsa,” maintaining the power output of an existing coal plant with the addition of co2 capture: retrofits options with gas turbine combined cycle plants”, energy procedia 63 ( 2014 ) 2530 – 2541
  7. C. Casarosa , F. Donatini , A. Franco ,”thermoeconomic optimization of heat recovery steam generators operating parameters for combined plants”, energy 29 (2004) 389–414
  8. Wei-hsiang lai ,chi-an hsiao, chien-hsiung lee , yau-pin chyoub, yu- ching tsai “experimental simulation on the integration of solid oxide fuel cell and micro-turbine generation system “,journal of power sources 171 (2007) 130–139
  9. Rodolfo bontempoa, massimo cardonea, marcello mannaa, giovanni vorraroa ”Highly flexible hot gas generation system for turbocharger testing”, energy procedia 45 ( 2014 ) 1116 – 1125
  10. Gequn shu,youcailiang,haiqiaowei , huatian,jianzhao,linaliu “a review of waste heat recovery on two-stroke ic engine aboard ships “,renewable and sustainable energy reviews 19 (2013) 385–401
  11. DING xianfei, XU bin,” study on regulating law of two-stage turbo charger system of piston aircraft engine”, procedia engineering 17 (2011) 581 – 586
  12. Bernhard schweizer,” total instability of turbocharger rotors physical explanation of the dynamic failure of rotors with full-floating ring bearings “, journal of sound and vibration 328 (2009) 156–190.
  13. Peng Geng, Chunde Yao , Quangang Wang, Lijiang Wei, Junheng Liu, Wang Pan, Guopeng, “Han Effect of DMDF on the PM emission from a turbo-charged diesel engine with DDOC and DPOC”, Applied Energy 148 (2015) 449–455.
  14. M.H. Padzillah , S. Rajoo , M. Yang , R.F. Martinez-Botas,“Influence of pulsating flow frequencies towards the flow angle distributions of an automotive turbocharger mixed-flow turbine”, Energy Conversion and Management 98 (2015) 449–462.
  15. Srithar Rajoo , Alessandro Romagnoli , Ricardo F. Martinez-Botas ,“Unsteady performance analysis of a twin-entry variable geometry turbocharger turbine”, Energy 38 (2012) 176e189
  16. https://www.google.co.in/ turbocharger
  17. https://www.google.co.in/properties of flue gas
Back

Disclaimer: All papers published in IJRST will be indexed on Google Search Engine as per their policy.

We are one of the best in the field of watches and we take care of the needs of our customers and produce replica watches of very good quality as per their demands.

Our Head Office

Aryavart International University
Mission Tilla, Dharmanagar, North Tripura, India

+91-9555269393

info@ijrst.com

Quick Links

Plagiarism Policy Current Issue Certificate Reviewers FAQs Our Journals

Indexing

© IJRST, All Right Reserved.

Designed By Krrypto