Перейти к основному содержанию
AkademIndex

Продукты

Для разработчиков

AkademBaseОткрытый API экосистемы
Статья

Revolutionizing the latent heat storage: Boosting discharge performance with innovative undulated phase change material containers in a vertical shell-and-tube system

Hakim S. Sultan AljiboriCollege of Engineering, University of Warith Al-Anbiyaa , Karbalaa 56001 , IraqHayder I. MohammedDepartment of Cooling And Air Conditioning Engineering, Imam Ja’afar Al-Sadiq University , Baghdad 10053 , IraqNirmalendu BiswasDepartment of Power Engineering, Jadavpur University , Salt Lake, Kolkata 700106 , IndiaHussein TogunDepartment of Mechanical Engineering, College of Engineering, University of Baghdad , Baghdad 10071 , IraqRaed Khalid IbrahemDepartment of Medical Instrumentation Engineering Techniques, Al-Farahidi University , Baghdad 10015 , IraqJasim M. MahdiDepartment of Energy Engineering, University of Baghdad , Baghdad 10071 , IraqWahiba YaïciCanmetENERGY Research Centre, Natural Resources Canada , 1 Haanel Drive, Ottawa (Ontario) K1A 1M1 , CanadaAmir KeshmiriSchool of Engineering, University of Manchester , Manchester M13 9PL , UKPouyan TalebizadehsardariPower Electronics, Machines and Control (PEMC) Research Group, University of Nottingham , Nottingham NG7 2GT , UK
2024en
ABI

Аннотация

Abstract This paper examines the impact of various parameters, including frames, zigzag number, and enclosure shape, on the solidification process and thermal energy storage rate of a vertical phase change material (PCM) container. The study also assesses the effects of the flow rate of the heat transfer fluid as well as changing the materials of the PCM between RT35 and RT35HC. In addition, the study compares the framed versus unframed systems and, subsequently, the best case was tested with various zigzag pitch numbers before changing the zigzag-shaped structure to arc and reversed-arc. The findings are examined by contrasting the different scenarios’ liquid fractions, temperature distributions, solidification rates, and heat storage rates. The results show that the framed geometry is 66% faster to reach the target temperature compared with the unframed geometry and employing a zigzag enclosure in a PCM can significantly improve the solidification time and heat recovery rate. As the number of pitches in the zigzag enclosure increases, the improvement rate decreases but still improves the solidification time and heat recovery rate. The reversed-arc-shaped structure has the best performance compared with the other undulated surfaces. For the system with RT35HC, the discharge time is 55% higher compared with that of the system with RT35, while the discharge rate is 8.2% higher for the former during the first 3000 s of the discharging process.

Перевод пока недоступен

Идентификаторы

Цитирования и источники

Цитирований: 2Использованных источников: 0