Improving electrical accession through infra-red radiation

Authors

  • Bangshidhar Goswami Former Assistant Professor, Department of Metallurgical Engineering, RVS College of Engineering and Technology, Jamshedpur, East-Singhbhum, Jharkhand
  • Saroj Dutta Pharmacists, Kalpana Medicals, Jamshedpur, Jharkhand
  • Indira Singha Student, Department of Mathematics, Jamshedpur Women’s College (Ranchi University), Jamshedpur, East-Singhbhum, Jharkhand
  • Nupur Goswami Post Graduate, Department of Botany, Jamshedpur Women’s College (Ranchi University, Ranchi), Jamshedpur, East-Singhbhum, Jharkhand
  • Bhakti Bharati Mishra Post Graduate, Department of Botany, Jamshedpur Women’s College (Ranchi University, Ranchi), Jamshedpur, East-Singhbhum, Jharkhand
  • Deep Sen Post Graduate, Department of Botany, Jamshedpur Women’s College (Ranchi University, Ranchi), Jamshedpur, East-Singhbhum, Jharkhand
  • Koushik Sanyal Master Mariner, Department of Navigation, Essar Shipping Group; Dwell: Kadma, Jamshedpur, East-Singhbhum
  • Jaydev Banerjee Former Senior Section Engineer (Drawing), Department of Mechanical Engineering, South Eastern Railway, Gardenreach, Kolkata, West Bengal
  • Tarun Kumar Goswami Former Principal, Department of Commerce, Shyama Prasad College (Kolhan University, Chaibasa), Jamshedpur, East-Singhbhum, Jharkhand
  • Tridib Kumar Pathak Former Professor, Department of Mechanical Engineering, Sibpur Engineering College, Howrah, West Bengal

Abstract

Article has been description of electrical utility specific issue as well measurement of industrial environment from scope variation in infra-red (IR) radiation. Usual script of infra-red has been to enhance warmth from sun on matter intervened within path of passage of radiation. In lieu, synergism has been rated heat transfer by radiation from coal fire, or toaster. Otherwise, ethic has been same as of heat emission by human body. Infrared wave has suggested travelling through air and release heat energy when touch any surface of matter irrespective of air temperature surrounded, herewith. Colour of IR light has been between wavelengths of 1 to 700 nm, which has been beyond our capacity of visibility. Invisible radiation has thermal difference; otherwise, subjective has been quantity of temperature developed with no ethical prosecution. Operation reliability has been in proportion decrease in electrical losses. Subject has dealt by conditional monitor of thermal operation, given by, facilities synergistic towards electrical and electro-mechanical equipment. Applicability of thermography has been mainly to resolve etiquette differenced score in electrical system, otherwise inspection agenda specific issued form. On the other hand, pyroelectric paint has been class of materials that has generated electric charge when heated/cooled. Accessed temperature difference has slightly modified position of atoms within crystal structure; otherwise, polarization has changed to induce voltage across material. Henceforth, script has used as thermo-electric converter.

References

František LIZÁK, Michal KOLCUN. “Improving Reliability and Decreasing Losses of Electrical System with Infrared Thermography”. Acta Electrotechnica et Informatica. 2008; 8 (1): 60–63.

Ashok K. Batra, AlMuatasim Alomari, Mychal Thomas, Mostafa Dokhanian, Dontrel Reynolds. “Paint Based Pyroelectric Thick-Films for Infrared and Energy Harvesting Devices”. Advanced Science Engineering and Medicine. June 2014; 6 (6): 708–711. DOI: 10.1166/asem.2014.1551.

Ron Newport. “Improving Mechanical System Reliability with Infrared NDT”. The 12th International Conference of the Slovenian Society for Non-Destructive Testing

Application of Contemporary Non-Destructive Testing in Engineering; September 4–6, 2013, Ljubljana, Slovenia. Ron NewPort. February 2019.

J. Torreblanca González, Gómez-Martín B., A. Hernández Encinas, et al. “The Use of Infrared Thermography to Develop and Assess a Wearable Sock and Monitor Foot Temperature in Diabetic Subjects”. Sensors. March 2021, 21(5): 1821. https://doi.org/10.3390/s21051821

Ahmed Abdelmajeed Hameed, Azrul Mohd Ariffin. “Infrared Thermography and its Role in Evaluating Medium Voltage Overhead Line System”. International Journal of Science and Research (IJSR). September 2014; 3 (9): 398–401.

O.P. Dimitriev. “Harvesting of the infrared energy: Direct collection, up-conversion, and storage”. Seminconductor Physics, Quantum Electronics & Optoelectronics. 2019; 22 (4): 457–469.

Steven J. Byrnes, Romain Blanchard, Federico Capasso. “Harvesting renewable energy from Earth’s mid-infrared emissions”. Applied Physical Science. 3rd March, 2014; 111 (11): 3927–3932 | https://doi.org/10.1073/pnas.1402036111

Luciano Mescia, Alessandro Massaro. “New Trends in Energy Harvesting from Earth Long-Wave Infrared Emission”. Advances in Materials Science and Engineering. 2014(Special Issue): Article ID 252879, 10 pages http://dx.doi.org/10.1155/2014/252879

A. Chekini, S. Sheikhaei, M. Neshat. “An infrared energy harvesting device using planar cross bowtie nanoantenna arrays and diode-less rectification based on electron field emission”. Journal of Modern Optics. 2020; 67(16): 1348-1364. DOI: 10.1080/09500340.2020.1846814

Published

2022-06-14

Issue

Section

Articles