A Review of Nanoparticle’s Role in Heat Transfer Coefficient Enhancement in Heat Exchangers Based on Water and Ethylene Glycol/Water Mixtures

سال انتشار: 1395
نوع سند: مقاله کنفرانسی
زبان: انگلیسی
مشاهده: 525

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شناسه ملی سند علمی:

MMEE01_035

تاریخ نمایه سازی: 11 مرداد 1396

چکیده مقاله:

This paper introduces the historical background about the development of water based, ethylene glycol (EG) based and EG/water mixture nanofluids. For Nowadays, the fundamental studies of nanofluids are increasing rapidly for engineering applications as effective working fluids.The effects of using nanofluids in Plate heat exchangers (PHEs) and shell and tube ones as major common heat exchangers are investigated numerically and experimentally and the results of increment of heat transfer coefficient (HTC) because of nanofluidsis evaluated in this paper. The review article attempts to take a sneak peek into some of the important published articles that deal with the function and performance of PHEs and other common types of heat exchangers using nanofluids. Furthermore, applications of nanofluids inother engineering applications such as in automotive, transportation, cooling of electronics components, solar, and nuclear reactor coolant have been considered as well

نویسندگان

Shayan Fathi

Department of Mechanical Engineering, Central Tehran Branch, Islamic Azad University, Tehran, Iran

Arash Mirabdolah Lavasani

Department of Mechanical Engineering, Central Tehran Branch, Islamic Azad University, Tehran, Iran,

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  • Abu-Khader MM. Plate heat exchangers: recent advances. Renew Sust Energy ...
  • . Starace AK, Gomez JC, Wang _ Pradhan S, Glatzmaier ...
  • . H.-t. Zhu, Y.-s. Lin, Y.-s. Yin, A novel one-step ...
  • . W.H. Azmi, K.V. Sharma, P.K. Sarma, R. Mamat, G. ...
  • . S.-Y. Chun, I.C. Bang, Y.-J. Choo, C.-H. Song, Heat ...
  • . D. Madhesh, R. Parame shwaran, S. Kalaiselvam, Experimental investigation ...
  • . L.S. Sundar, M.K. Singh, A.C.M. Sousa, Enhanced heat transfer ...
  • . B.C. Pak, Y.I. Cho, H ydrodynamic and heat transfer ...
  • . Y. Xuan, Q. Li, Investigation On convective heat transfer ...
  • . K.S. Hwang, S.P. Jang, S.U.S. Choi, Flow and convective ...
  • . C.T. Nguyen, G. Roy, C. Gauthier, N. Galanis, Heat ...
  • . Y. He, Y. Jin, H. Chen, Y. Ding, D. ...
  • . M.S. Liu, M.C.C. Lin, C. Tsai, C.C. Wang, Enhancement ...
  • . R.S. Vajjha, D.K. Das, D.P. Kulkarni, Development of new ...
  • _ Wang X, Xu X, Choi SUS. Thermal conductivity of ...
  • _ Lee S, Choi SUS, Li S, Eastman JA. Measuring ...
  • _ Paul G, Chopkar M, Manna I, Das PK. Techniques ...
  • . Timofeeva EV, Gavrilov AN, McCloskey JM, Tolmachev YV. Thermal ...
  • . Serebryakova MA, Dimov SV, Bardakhanov SP, Novopashin SA. Thermal ...
  • . Vajjha RS, Das DK. Experimental determination of thermal conductivity ...
  • . Yiamsawasd T, Dalkilic AS, Wongwises S. Measurement of the ...
  • . Farajollahi B, Etemad SG, Hojjat M. Heat transfer of ...
  • . Tiwari AK, Ghosh P, Sarkar J. Performance comparison of ...
  • . Zamzamian A, Oskouie SN, Doosthoseini A, Joneidi A, Pazouki ...
  • . Leong KY, Saidur R, Mahlia TMI, Yau YH. Modeling ...
  • . Vajjha RS, Das DK, Namburu PK. Numerical study of ...
  • . Peygh ambarzadeh SM, Hashemabadi SH, Hoseini SM, Seifi M. ...
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