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Science and Technology for the Built Environment Volume 21, 2015 - Issue 4
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Original Articles

Effect of phase change material on compressor on-off cycling of a household refrigerator

Md. Imran Hossen KhanDepartment of Mechanical Engineering, Dhaka University of Engineering & Technology (DUET), Gazipur1700, BangladeshCorrespondence[email protected]
&
Hasan M. M. AfrozDepartment of Mechanical Engineering, Dhaka University of Engineering & Technology (DUET), Gazipur1700, Bangladesh
Pages 462-468 | Received 03 May 2014, Accepted 02 Jan 2015, Published online: 12 May 2015

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K. Karthikeyan, Vairavan Mariappan, P. Sarafoji, K. Uma Bharathi, M. Loganathan, M. Jaya Bharata Reddy & R. Anish. (2022) Effect of PCM-based cold storage system under periodic and continuous operations on physico-chemical characteristics of mango (Mangifera indica L.) fruit and performance evaluation of mango cold storage systems. International Journal of Ambient Energy 43:1, pages 7678-7693.
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Tuğba Tosun, Mehmet Mete Ozturk, Bahadır Doğan & Latİfe Berrİn Erbay. (2021) The effect of refrigerant circuitry on the performance of a freezer with a tube-on-sheet evaporator. Science and Technology for the Built Environment 27:5, pages 557-566.
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Imran H. Khan, Hasan M. M. Afroz & M. A. Karim. (2017) Effect of PCM on temperature fluctuation during the door opening of a household refrigerator. International Journal of Green Energy 14:4, pages 379-384.
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Articles from other publishers (20)

Thiago Torres Martins Rocha, Mohamed Teggar, Paulo Vinicius Trevizoli & Raphael Nunes de Oliveira. (2023) Potential of latent thermal energy storage for performance improvement in small-scale refrigeration units: A review. Renewable and Sustainable Energy Reviews 187, pages 113746.
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Anindita Roy, Sonali Kale, Abhay B. Lingayat, Anirban Sur, Sreelekha Arun, Deepankar Sengar, Shamali Gawade & Aditya Wavhal. (2023) Evaluating energy-saving potential in micro-cold storage units integrated with phase change material. Journal of the Brazilian Society of Mechanical Sciences and Engineering 45:10.
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Jamal AL DOURI, Valentin APOSTOL, Horatiu POP, Tudor PRISECARU, Cornel Constantin PAVEL, Iulian UTA, Claudia IONITA & Lucretia POPA. (2023) IMPROVING PERFORMANCE OF COLD ROOM REFRIGERATION SYSTEM BY DESUPERHEATING ENERGY RECOVERY USING PCMs. INMATEH Agricultural Engineering, pages 549-556.
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Yogesh N. Nandanwar, Pramod V. Walke, Vednath P. Kalbande & Man Mohan. (2023) Performance improvement of vapour compression refrigeration system using phase change material and thermoelectric generator. International Journal of Thermofluids 18, pages 100352.
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Tianping Feng, Jun Ji & Xuelai Zhang. (2023) Research progress of phase change cold energy storage materials used in cold chain logistics of aquatic products. Journal of Energy Storage 60, pages 106568.
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Van Nhanh Nguyen, Thanh Lanh Le, Xuan Quang Duong, Van Vang Le, Dinh Tuyen Nguyen, Phuoc Quy Phong Nguyen, Sakthivel Rajamohan, Anh Vu Vo & Huu Son Le. (2023) Application of phase change materials in improving the performance of refrigeration systems. Sustainable Energy Technologies and Assessments 56, pages 103097.
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Adhiyaman Ilangovan, Samia Hamdane, Pedro D. Silva, Pedro D. Gaspar & Luís Pires. (2022) Promising and Potential Applications of Phase Change Materials in the Cold Chain: A Systematic Review. Energies 15:20, pages 7683.
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D. Kasinathan & V. Kumaresan. (2021) Study on the effect of inclusion of thermal energy storage unit in the energy performance of a household refrigerator. Heat and Mass Transfer 57:11, pages 1753-1761.
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Lizhong Yang, Uver Villalobos, Bakytzhan Akhmetov, Antoni Gil, Jun Onn Khor, Anabel Palacios, Yongliang Li, Yulong Ding, Luisa F. Cabeza, Wooi Leong Tan & Alessandro Romagnoli. (2021) A comprehensive review on sub-zero temperature cold thermal energy storage materials, technologies, and applications: State of the art and recent developments. Applied Energy 288, pages 116555.
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Jamal Al Douri, Kamel S. Hmood, Valentin Apostol, Horatiu Pop, Saleh J. Alqaisy & Elena Beatrice Ibrean. (2021) Review regarding defrosting methods for refrigeration and heat pump systems. E3S Web of Conferences 286, pages 01012.
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Jaedeok Ko, Kyaw Thu & Takahiko Miyazaki. (2021) Investigation of a cascaded CO2 refrigeration system using phase change materials for energy-saving potentials. Applied Thermal Engineering 182, pages 116104.
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Adil A.M. Omara & Abubaker A.M. Mohammedali. (2020) Thermal management and performance enhancement of domestic refrigerators and freezers via phase change materials: A review. Innovative Food Science & Emerging Technologies 66, pages 102522.
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G. Sonnenrein, E. Baumhögger, A. Elsner, A. Morbach, M. Neukötter, A. Paul & J. Vrabec. (2020) Improving the performance of household refrigerating appliances through the integration of phase change materials in the context of the new global refrigerator standard IEC 62552:2015. International Journal of Refrigeration 119, pages 448-456.
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Jonathan Cofré-Toledo, Diego A. Vasco, César A. Isaza-Roldán & Juan A. Tangarife. (2018) Evaluation of an integrated household refrigerator evaporator with two eutectic phase-change materials. International Journal of Refrigeration 93, pages 29-37.
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Subhanjan Bista, Seyed Ehsan Hosseini, Evan Owens & Garrison Phillips. (2018) Performance improvement and energy consumption reduction in refrigeration systems using phase change material (PCM). Applied Thermal Engineering 142, pages 723-735.
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R. Elarem, S. Mellouli, E. Abhilash & A. Jemni. (2017) Performance analysis of a household refrigerator integrating a PCM heat exchanger. Applied Thermal Engineering 125, pages 1320-1333.
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Mehmet Akif Ezan, Esra Ozcan Doganay, Fazil Erinc Yavuz & Ismail Hakkı Tavman. (2017) A numerical study on the usage of phase change material (PCM) to prolong compressor off period in a beverage cooler. Energy Conversion and Management 142, pages 95-106.
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Christian JamesBukola A. Onarinde & Stephen J. James. (2017) The Use and Performance of Household Refrigerators: A Review. Comprehensive Reviews in Food Science and Food Safety 16:1, pages 160-179.
Crossref
Md. Imran H. Khan. (2016) Conventional Refrigeration Systems Using Phase Change Material: A Review. International Journal of Air-Conditioning and Refrigeration 24:03, pages 1630007.
Crossref
G. Sonnenrein, E. Baumhögger, A. Elsner, K. Fieback, A. Morbach, A. Paul & J. Vrabec. (2015) Copolymer-bound phase change materials for household refrigerating appliances: experimental investigation of power consumption, temperature distribution and demand side management potential. International Journal of Refrigeration 60, pages 166-173.
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