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Evaluation of heat transfer performance of a laboratory-scale polymer rotary air preheater

Kim, Dae-Hyun ; Oh, Jun-Seok ; Lee, Sang-Chan ; [et al.]

Old City Publishing, Inc ; 2021

In: High Temperatures-High Pressures Vol. 50, No. 4-5 ( 2021), p. 369-381

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In: High Temperatures-High Pressures, Old City Publishing, Inc, Vol. 50, No. 4-5 ( 2021), p. 369-381

Abstract: Regenerative heat exchangers, which increase the temperature of newly supplied air using the waste heat of exhaust gas, are installed in large thermal systems, such as thermal power plants and industrial boilers, to improve their thermal efficiency. These devices are also known as air preheaters, and the rotary regenerative type has been widely used. The heat transfer performance of a rotary regenerator is enhanced as the heat capacity, which is the product of the density and specific heat, increases rather than the thermal conductivity of heat exchanging plates (HEPs). Studies to replace the existing metal materials with polymers, which are resistant to corrosion and inexpensive, have garnered attention. In this study, the heat transfer performance of HEPs fabricated using polytetrafluoroethylene, Mono Cast nylon, stainless steel, and aluminum is experimentally compared using a laboratory-scale experimental setup. It is confirmed that the polymer materials have similar or larger effectiveness compared to metals within the experimental error.

Type of Medium: Online Resource

ISSN: 1472-3441

URL: Article

DOI: 10.32908/hthp.v50.1077

Language: Ndebele (South Africa)

Publisher: Old City Publishing, Inc

Publication Date: 2021

detail.hit.zdb_id: 2022638-X

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Analysis of thickness and interfacial thermal resistance of Au microheater on glass or polyimide substrate

Kim, Ho-Sung ; Ko, Woong-Jun ; Oh, Dong-Wook

Old City Publishing, Inc ; 2021

In: High Temperatures-High Pressures Vol. 50, No. 4-5 ( 2021), p. 295-309

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In: High Temperatures-High Pressures, Old City Publishing, Inc, Vol. 50, No. 4-5 ( 2021), p. 295-309

Abstract: The 3ω method is widely used for measuring the thermal properties of a substrate or thin film on which a microheater is deposited. Recently, samples with non-formal shapes and has a thermal conductivity of 1 W/mK or below have been analyzed using the bidirectional 3ω method. In measuring the thermal conductivity of such samples, the measurement sensitivity and accuracy can be increased using a 3ω sensor fabricated on a low thermal conductivity substrate such as glass or polyimide. In this study, thermal characterization is conducted on a microheater deposited on glass and polyimide substrates for a 3ω sensor. The effects of the microheater thickness and the interfacial thermal resistance between the substrate and microheater, on the temperature amplitude and phase lag are analyzed. Results from analytic solutions considering the microheater thickness and the interfacial thermal resistance are compared with results from numerical analysis of two-dimensional conduction heat transfer and experiment.

Type of Medium: Online Resource

ISSN: 1472-3441

URL: Article

DOI: 10.32908/hthp.v50.1073

Language: Ndebele (South Africa)

Publisher: Old City Publishing, Inc

Publication Date: 2021

detail.hit.zdb_id: 2022638-X

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