ورود
مقالات فارسیISIکنفرانسهاژورنالها

An experimental investigation on the performance of a symmetric conical solar collector using SiO۲/water nanofluid

Publish place: Challenges in Nano and Micro Scale Science and Technology، Vol: 5، Issue: 1
Publish Year: 1396
نوع سند: مقاله ژورنالی
زبان: English
View: 136

This Paper With 7 Page And PDF Format Ready To Download

  • Certificate
  • من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:
https://civilica.com/doc/1487287

شناسه ملی سند علمی:

JR_CHAL-5-1_003

تاریخ نمایه سازی: 1 مرداد 1401

Abstract:

One of the effective methods to improve the thermal efficiency of solar collectors is using nanofluids as the coolant. The present study experimentally investigated the effect of SiO۲/water nanofluid with ۱% mass fraction on the performance of a symmetric collector, i.e. conical solar collector. The conical solar collector with ۱ m۲ area and normal to the earth was tested in Ahvaz, a city in the southwest of Iran. The experiments performed under ASHRAE standard without any surfactants based on the solar radiation, mass flow rate, and temperatures variation. Results demonstrated that the thermal efficiency and the temperature performance can be enhanced through SiO۲/water nanofluid in comparison with pure water. The maximum efficiency and outlet-inlet difference temperature of conical collector using nanofluid was about ۶۲% and ۶.۸ ۰C respectively. Moreover, the collector behaviors are more efficient with the nanofluid than with pure water in the higher values of the flow rate and sun radiation.

Keywords:

Conical solar collector , SiO۲/water nanofluid , Solar radiation , Flow rate , efficiency

Authors

A.R. Noghrehabadi

Department of Mechanical Engineering, Shahid Chamran University of Ahvaz, Ahvaz, Iran

E. Hajidavalloo

Department of Mechanical Engineering, Shahid Chamran University of Ahvaz, Ahvaz, Iran

M. Moravej

Department of Mechanical Engineering, Shahid Chamran University of Ahvaz, Ahvaz, Iran

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
  • M. Abdolzadeh, M. A. Mehrabian: The optimal slope angle for ...
  • Y. Tian, C. Y. Zhao, A review of solar collectors ...
  • S. Riffat, X. Zhao P. S. Doherrty: Developing a theoretical ...
  • JA. Duffie, WA. Beckman: Solar Engineering of Thermal Processes, New ...
  • S. Kalogirou: Solar thermal collectors and applications, Progress in Energy ...
  • S. Kalogirou: Prediction of flat plate collector performance parameters using ...
  • Z. Chen, S. Furbo, B. Perers, J. Fan A. Andersen: ...
  • N. Kumar, T. Chavda, HN. Mistry: A truncated pyramid non ...
  • LM. Ayompe, A. Duffy: Analysis of the thermal performance of ...
  • T. Yousefi, E. Shojaeizadeh, F. Veysi, S. Zinadini: An experimental ...
  • D. Han, Z. Meng, D. Wu, C. Zhang, H. Zhu: ...
  • H. Tyagi, P. Phelan, R. Prasher: Predited efficiency of a ...
  • RA. Taylor, PE. Phelan, TP. Otanicar, CA. Walker, M. Nguyen, ...
  • SU. Choi, ZG. Zhang: Anomalous thermal conductivity enhancement in nanotube ...
  • TP. Otanicar, PE. Phelan, RS. Parsher, G. Rosengarten, RA. Taylor: ...
  • TP. Otanicar, J. Golden: Comparative environmental and economic analysis of ...
  • T. Yousefi, E. Shojaeizadeh, F. Veysi, S. Zinadini: An experimental ...
  • T. Yousefi, E. Shojaeizadeh, F. Veysi, S. Zinadini: An experimental ...
  • L. Lu, ZH. Liu, HS. Xiao: Thermal performance of an ...
  • O. Mahian, A. Kianifar, AZ. Sahin, S. Wongwises: Performance analysis ...
  • R. Nasrin, MA. Alim: Modeling of a Solar Water Collector ...
  • K. Goudarzi, E. Shojaeizadeh, F. Nejati: An experimental investigation on ...
  • E. Shojaeizadeh, F. Veysi, A. Kamandi: Exergy efficiency investigation and ...
  • HK. Gupta, GD. Agrawal, J. Mathur: Investigation for effect of ...
  • ASHRAE Standard ۹۳-۸۶, Methods of testing and determine the thermal ...
  • D. Rojas, J. Beermann, SA. Klein, DT. Reindl: Thermal performance ...
  • TL. Bergman, T. L, Effect of reduced specific heats of ...
  • SQ. Zhou, R. Ni: Measurement of the specific heat capacity ...
  • M. Faizal, R. Saidur, S. Mekhilef, MA. Alim: Energy economic ...
  • RB. Abernethy, RP. Benedict, RB. Dowdell: ASME measurement uncertainty, ASME ...
  • AC. Mintsa, M. Medale, C. Abid: Optimization of the design ...
  • SK. Das, N. Putra, P. Thiesen, W. Roetzel: Temperature dependence ...
  • P. Keblinski, P., SR. Phillpot, SU. Choi, JA. Eastman: Mechanisms ...
  • Y. Xuan, Q. Li: Heat transfer enhancement of nanofluids, International ...
  • C. Cristofari, G. Notton, P. Poggi, A. Louche: modeling and ...
  • Y. Xuan, Q. Li, W. Hu: Aggregation structure and thermal ...
  • P. Bhattacharya, SK. Saha, A. Yadav, PE. Phelan, RS. Parsher: ...
  • J. Koo, C. Kleinstreuer: A new thermal conductivity model for ...
    • نمایش کامل مراجع