Abstract
The present paper is based on the experimental and numerical investigation of a cooling device. The device is focused to concentrate cooling effect on a specific zone in a given three-dimensional volume. A wall jet configuration is investigated on a curved surface initially with a straight portion. The mean flow parameters are measured like, mean velocity profiles, maximum velocity decay and jet growth rate and temperature. The same result shave has been calculated using commercial CFD code. The mean velocity profiles show good agreement with the experimental and with the existing literature. Maximum velocity decay, growth of half width and temperature profiles show good correlation with the experimental results. The existing system parameter of the device is found to be appropriate to achieve the solution of the localized cooling concept.
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References
Heschl C, Sanz W, Klanatsky P (2005) Implementation and comparison of different turbulence models for three dimensional wall jets with FLUENT CFD Forum, Bad Nauheim
Srivajana W (2003) Effect of air velocity on thermal comfort in hot and humid climates. J Sci Technol 8
Glauert MB (1956) The wall jet. J Fluid Mech 1:625–643
Nagenda SVH, Nanda Prasant, Bhagavanulu DVS (2019) A System for cooling a space. Retrieved from https://ipindiaservices.gov.in/PublicSearch/PublicationSearch/PatentDetails
Nagendra Prasant Nanda SVH, Bhagavanulu DVS (2017) Numerical study of 3-dimensional wall jet on curved surfaces. Int J Appl Eng Res 5604–5609
Nagendra SVH, Bhagavanulu DVS, Nanda P (2017) Computational study of three dimensional wall jet on concave surface. In: Saha A, Das D, Srivastava R, Panigrahi P, Muralidhar K (eds) Fluid mechanics and fluid power—contemporary research lecture notes in mechanical engineering. Springer, New Delhi
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Nagendra, S.V.H., Bhagavanulu, D.V.S. (2024). Experimental and Numerical Investigation of a Device for Localized Cooling. In: Singh, K.M., Dutta, S., Subudhi, S., Singh, N.K. (eds) Fluid Mechanics and Fluid Power, Volume 1. FMFP 2022. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-99-7827-4_12
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DOI: https://doi.org/10.1007/978-981-99-7827-4_12
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