Performance Assessment of Hybrid Recuperative Heat Exchanger for Diesel Engine Generated Exhausted Gas

Abstract:

In this study, the use of supplemental heat energy from exhaust gas of a stationary diesel engine was assessed to explore a new method of drying black nightshade seeds in a solar-exhaust gas greenhouse dryer. The energy recovery potential of a hybrid recuperative heat exchanger (HRHE) was demonstrated with the objective of utilizing the recovered energy from an engine on milling operations to heat a fluid stream of drying air. The results show that 4.45 kW of thermal energy was available in exhaust gas of a diesel engine operated at 2500 rpm when mass flow rate was 45.07 kg/h at a temperature of 357.36 ◦C. The rate of heat utilized for solar-exhaust gas mode ranged from 40.49 to 685.94 J/m2 .s and from 21.69 to 668.11 J/m2 .s in exhaust gas mode of drying. The heat exchanger raised the dryer temperature by an average of 11.78 ◦C when temperature differences between inside and outside were compared in solar-exhaust gas mode of drying. The average hourly rise in temperature inside the dryer was 8.04 ◦C with a minimum rise of 3.7 ◦C and a maximum of 9.41 ◦C when exhaust gas was utilized to provide heat energy. The performance of the solar-exhaust gas greenhouse dryer improved when thermal energy was used as a supplement in drying and as a result the drying time for black nightshade seeds was significantly reduced from 11 h in solar mode to 10 h in solar-exhaust gas mode of drying. Moreover, the seeds were dried for 14 h when exhaust gas mode of drying was performed without utilizing solar energy. The percent internal uncertainty for experimental measurements of relative humidity (γ) was 4.1% and 17.5% for temperature (T) observations. The three proposed thermal models for temperatures and moisture evaporation performed better with low RMSEs in exhaust gas mode compared to the other modes of drying.

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APA

Orido, D. (2023). Performance Assessment of Hybrid Recuperative Heat Exchanger for Diesel Engine Generated Exhausted Gas. Afribary. Retrieved from https://track.afribary.com/works/orido-et-al-2023-b

MLA 8th

Orido, Dr George Onyango "Performance Assessment of Hybrid Recuperative Heat Exchanger for Diesel Engine Generated Exhausted Gas" Afribary. Afribary, 16 Sep. 2023, https://track.afribary.com/works/orido-et-al-2023-b. Accessed 19 Nov. 2024.

MLA7

Orido, Dr George Onyango . "Performance Assessment of Hybrid Recuperative Heat Exchanger for Diesel Engine Generated Exhausted Gas". Afribary, Afribary, 16 Sep. 2023. Web. 19 Nov. 2024. < https://track.afribary.com/works/orido-et-al-2023-b >.

Chicago

Orido, Dr George Onyango . "Performance Assessment of Hybrid Recuperative Heat Exchanger for Diesel Engine Generated Exhausted Gas" Afribary (2023). Accessed November 19, 2024. https://track.afribary.com/works/orido-et-al-2023-b