A Literature Review on Effective Monitoring of NOx Pollutants Using Environmental Wireless Sensor Networks (EWSN)

  • Authors

    • Nagaraj S
    • Dr. Rajashree V Biradar
    https://doi.org/10.14419/ijet.v8i1.10.28324
  • NOX, Environmental Sensor Network, Pre and Post Ignition, Coal Power Plants.
  • Abstract

    Environmental Sensor Networks (ESNs) support the examination of fundamental methods and the progression of peril response structures. They have progressed from confined logging structures that require manual downloading, into 'smart' sensor composes that include an arrangement of customized sensor centers and exchanges systems which viably confer their data to a Sensor Network Server (SNS) where these data can be consolidated with other natural datasets. Implementation of stringent controls of NOx outpouring requires the change of new headways for NOx removal from drain gases. As a rule, the data recommend that fashioners respond to biological managerial weight in their own country, anyway, not to remote common controls. Furthermore, any development trade that happens appears, from every angle, to be meandering.

  • References

    1. [1] Aneja VP, Roelle PA, Murray GC, Southerland J, Erisman JW, Fowler D, et al. Atmospheric nitrogen compounds II: emissions, transport, transformation, deposition and assessment. Atmos Environ 2001; 35:1903–11.

      [2] Anon. State and local air pollution association make NOx control recommendations. Air Pollutant Consult 1995;5(2):1.13–6.

      [3] Anon. Low-temperature NOx absorption wins top prize. Chem Eng (N.Y.) 2001;108 (11):92–3.

      [4] Anpo M. Use of visible light. Second-generation titanium oxide photocatalysts prepared by application of an advanced metal ion-implantation method. Pure Appl Chem 2000;72(9):1787–92.

      [5] Atkinson R. Reactions of oxygen species in the atmosphere. In: Foote ChS, Valentine JS, Greenberg A, Liebman JF, editors. Active oxygen in chemistry. Glasgow: Blackie Academic and Professional; 1995. p. 249–79.

      [6] Atkinson R, Baulch DL, Cox RA, Crowley JN, Hampson RF, Hynes RG, Jenkin ME, Rossi MJ, Troe J. Evaluated kinetic and photochemical data for atmospheric chemistry: Volume I - gas phase reactions of Ox, HOx, NOx and SOx species. Atmos Chem Phys 2004; 4:1461–738.

      [7] Bailar JC, Emeleus HJ, Sir Ronald Nyholm Trotman-Dickenson AF. Comprehensive inorganic chemistry. Oxford: Pergamon Press; 1973. p. 318–61.

      [8] Bailey RE. Chemistry of the environment. Harcourt: Academic Press; 2002. p. 129–41.

      [9] Ballester JM, Dopazo C, Fueyo N, Hernández M, Vidal PJ. Investigation of low-NOx strategies for natural gas combustion. Fuel 1997;76(5):435–46.

      [10] Barman S, Philip L. Integrated system for the treatment of oxides of nitrogen from flue gases. Environ Sci Technol 2006; 40:1035–41.

      [11] Barnes JM, Apel WA, Barrett KB. Removal of nitrogen oxides from gas streams using biofiltration. J Hazard Mater 1995; 41:315–26.

      [12] Basfar AA, Fageeha OI, Kunnummal N, Al-Ghamdi S, Chmielewski A, Licki J, et al. Electron beam flue gas treatment (EBFGT) technology for simultaneous removal of SO2 and NOx from combustion of liquid fuels. Fuel 2008; 87:1446–52.

      [13] Brandenberger S, Kröcher O, Tissler A, Althoff R. The state of the art in selective catalytic reduction of NOx by ammonia using metal-exchanged zeolite catalysts. Catal Rev 2008; 50:492–531.

      [14] R. Afonso, M. Tatsutani, T.J. Roskelley, P. Amar, the regulation of NOX emissions from coal-fired boilers: a case study, in: Environmental Regulation and Technology Innovation: Controlling Mercury Emissions from Coal-Fired Boilers, Northeast States for Coordinated Air Use Management, Boston, MA, 2000. pp. III-1-III-17.

      [15] J. Alca´ cer, M. Gittelman, how do I know what you know? Patent examiners and the generation of patent citations, Paper presented at the 2004 NBER Productivity Program Summer Institute, July 2004.

      [16] S. Ahmad, On the theory of induced innovation, Econ. J. 76 (1966) 344–357.

      [17] G. Beckmann, C.A. Erickson, Operating experience and future challenges with SCR installations, Babcock Borsig Power Technical Paper RST-170, 2000.

      [18] H.P. Binswanger, The microeconomics of induced technical change, in: H.P. Binswanger, V.W. Ruttan (Eds.), Induced Innovation: Technology, Institutions, and Development, John Hopkins University Press, Baltimore, MD, 1978, pp. 91–127.

      [19] H.P. Binswanger, Issues in modeling induced technical change, in: H.P. Binswanger, V.W. Ruttan (Eds.), Induced Innovation: Technology, Institutions, and Development, John Hopkins University Press, Baltimore, MD, 1978, pp. 128–163.

      [20] http://www.thehindu.com/sci-tech/energy-and-environment/nitrogen-emissions-going-up-study/article24090131.ece

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  • How to Cite

    S, N., & Rajashree V Biradar, D. (2019). A Literature Review on Effective Monitoring of NOx Pollutants Using Environmental Wireless Sensor Networks (EWSN). International Journal of Engineering & Technology, 8(1.10), 159-166. https://doi.org/10.14419/ijet.v8i1.10.28324

    Received date: 2019-03-12

    Accepted date: 2019-03-12