Cooling load and noise characterization modeling for photovoltaic driven building integrated thermoelectric cooling devices

Himanshu Dehra

doi:10.1051/e3sconf/201912801019

All issues

Volume 128 (2019)

E3S Web Conf., 128 (2019) 01019

References

Open Access

Issue		E3S Web Conf. Volume 128, 2019 XII International Conference on Computational Heat, Mass and Momentum Transfer (ICCHMT 2019)


Article Number		01019
Number of page(s)		8
Section		Heat and Mass Transfer in Energy Systems
DOI		https://doi.org/10.1051/e3sconf/201912801019
Published online		08 November 2019

H. Dehra, 2018a, Building-Integrated Thermoelectric Cooling-Photovoltaic (TEC-PV) Devices,book, in “Bringing Thermoelectricity into Reality”, edited by Patricia Aranguren, IntechOpen, DOI: 10.5772/intechopen.75472, ISBN 978-953-516058-8, Chapter 15, 313–330. [Google Scholar]
E. S. Jeong, 2014, A new approach to optimize thermoelectric cooling modules, Cryogenics 59, 38–43. [Google Scholar]
D. Zhao, G. Tan, 2014, A review of thermoelectric cooling: Materials, modeling and applications, Applied Thermal Engineering 66, 15–24. [CrossRef] [Google Scholar]
W. Huajun, Q. Chengying, 2010, Experimental study of operation performance of a low power thermoelectric cooling dehumidifier, International Journal of Energy and Environment, Volume 1, Issue 3, 459–466. [Google Scholar]
A. Bejan, G. Tsatusaronis, M. Moran, 1996, Thermal Design and Optimization, Wiley, New York. [Google Scholar]
H. Dehra, 2016a, A Mathematical Model of a Solar Air Thermosyphon integrated with Building Envelope, International Journal of Thermal Sciences, Vol. 102, 210–227. [CrossRef] [Google Scholar]
Y. Yongqiang Luo, L. Zhang, Z. Liu, Y. Wang, F. Meng, J. Wu. 2016, Thermal performance evaluation of an active building integrated photovoltaic thermoelectric wall system, Applied Energy 177, 25–39. [Google Scholar]
H. Dehra, 2007, A Unified Theory for Stresses and Oscillations, Proceedings from CAA Conf. Montréal. 2007, Canada, Canadian Acoustics. September 2007. Vol. 35. No. 3, pp 132–133. [Google Scholar]
H. Dehra, 2008a, Power Transfer and Inductance in a Star Connected 3-phase RC Circuit Amplifier, Proc. AIChE 2008 Spring Meeting, New Orleans, LA, USA, April 6–10, 2008, session 96a. [Google Scholar]
H. Dehra, 2016b, A Novel Theory of Psychoacoustics on Noise Sources, Noise Measurements and Noise Filters, INCE Proc. NoiseCon16 Conf., Providence, Rhode Island, USA, 13-15 June, 2016, 933–942. [Google Scholar]
H. Dehra, 2008b, The Noise Scales and their Units, Proc. CAA Conf., Vancouver 2008, Canada, Canadian Acoustics, Vol. 36 (3) 2008, 78–79. [Google Scholar]
H. Dehra, 2017, A Multi-Parametric PV Solar Wall Device, Proceedings from IEEE International Conference on Power, Control, Signals and Instrumentation Engineering (ICPCSI-2017), Chennai, India on Sep 21-22, 2017, 392–401. [CrossRef] [Google Scholar]
H. Dehra, 2018b, Modeling of Energy Conversion and Noise Characterization in Outdoor Ducts exposed to Solar Radiation, International Conference on Applied Energy (ICAE 2018) , Hong Kong, China on Aug 22-25, 2018. 8p. [Google Scholar]
H. Dehra, 2018c, A Paradigm of Noise Interference in a Wave, Internoise-2018 , 47^th International Congress and Exposition on Noise Control Engineering, Chicago, Illinois, USA on Aug 26-29, 2018, 451–462. [Google Scholar]
H. Dehra, 2018d, Acoustic Signal Processing and Noise Characterization Theory via Energy Conversion in a PV Solar Wall Device with Ventilation through a Room, Advances in Science, Technology and Engineering Systems Journal, Vol. 3, No. 4, 2018, pp. 130–172, Special Issue on Multidisciplinary Sciences and Engineering. [CrossRef] [Google Scholar]
H. Dehra, 2019, Principles of Energy Conversion and Noise Characterization in Air Ventilation Ducts exposed to Solar Radiation, Applied Energy, 242C (15 May 2019), pp. 1320–1345. [Google Scholar]

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[1] H. Dehra, 2018a, Building-Integrated Thermoelectric Cooling-Photovoltaic (TEC-PV) Devices,book, in “Bringing Thermoelectricity into Reality”, edited by Patricia Aranguren, IntechOpen, DOI: 10.5772/intechopen.75472, ISBN 978-953-516058-8, Chapter 15, 313–330. [Google Scholar]

[2] E. S. Jeong, 2014, A new approach to optimize thermoelectric cooling modules, Cryogenics 59, 38–43. [Google Scholar]

[3] D. Zhao, G. Tan, 2014, A review of thermoelectric cooling: Materials, modeling and applications, Applied Thermal Engineering 66, 15–24. [CrossRef] [Google Scholar]

[4] W. Huajun, Q. Chengying, 2010, Experimental study of operation performance of a low power thermoelectric cooling dehumidifier, International Journal of Energy and Environment, Volume 1, Issue 3, 459–466. [Google Scholar]

[5] A. Bejan, G. Tsatusaronis, M. Moran, 1996, Thermal Design and Optimization, Wiley, New York. [Google Scholar]

[6] H. Dehra, 2016a, A Mathematical Model of a Solar Air Thermosyphon integrated with Building Envelope, International Journal of Thermal Sciences, Vol. 102, 210–227. [CrossRef] [Google Scholar]

[7] Y. Yongqiang Luo, L. Zhang, Z. Liu, Y. Wang, F. Meng, J. Wu. 2016, Thermal performance evaluation of an active building integrated photovoltaic thermoelectric wall system, Applied Energy 177, 25–39. [Google Scholar]

[8] H. Dehra, 2007, A Unified Theory for Stresses and Oscillations, Proceedings from CAA Conf. Montréal. 2007, Canada, Canadian Acoustics. September 2007. Vol. 35. No. 3, pp 132–133. [Google Scholar]

[9] H. Dehra, 2008a, Power Transfer and Inductance in a Star Connected 3-phase RC Circuit Amplifier, Proc. AIChE 2008 Spring Meeting, New Orleans, LA, USA, April 6–10, 2008, session 96a. [Google Scholar]

[10] H. Dehra, 2016b, A Novel Theory of Psychoacoustics on Noise Sources, Noise Measurements and Noise Filters, INCE Proc. NoiseCon16 Conf., Providence, Rhode Island, USA, 13-15 June, 2016, 933–942. [Google Scholar]

[11] H. Dehra, 2008b, The Noise Scales and their Units, Proc. CAA Conf., Vancouver 2008, Canada, Canadian Acoustics, Vol. 36 (3) 2008, 78–79. [Google Scholar]

[12] H. Dehra, 2017, A Multi-Parametric PV Solar Wall Device, Proceedings from IEEE International Conference on Power, Control, Signals and Instrumentation Engineering (ICPCSI-2017), Chennai, India on Sep 21-22, 2017, 392–401. [CrossRef] [Google Scholar]

[13] H. Dehra, 2018b, Modeling of Energy Conversion and Noise Characterization in Outdoor Ducts exposed to Solar Radiation, International Conference on Applied Energy (ICAE 2018) , Hong Kong, China on Aug 22-25, 2018. 8p. [Google Scholar]

[14] H. Dehra, 2018c, A Paradigm of Noise Interference in a Wave, Internoise-2018 , 47^th International Congress and Exposition on Noise Control Engineering, Chicago, Illinois, USA on Aug 26-29, 2018, 451–462. [Google Scholar]

[15] H. Dehra, 2018d, Acoustic Signal Processing and Noise Characterization Theory via Energy Conversion in a PV Solar Wall Device with Ventilation through a Room, Advances in Science, Technology and Engineering Systems Journal, Vol. 3, No. 4, 2018, pp. 130–172, Special Issue on Multidisciplinary Sciences and Engineering. [CrossRef] [Google Scholar]

[16] H. Dehra, 2019, Principles of Energy Conversion and Noise Characterization in Air Ventilation Ducts exposed to Solar Radiation, Applied Energy, 242C (15 May 2019), pp. 1320–1345. [Google Scholar]