RETRACTED: Energy Flux Distribution and Thermal Performance of Linear Fresnel Collector System in Cold Region

DOI: 10.4236/epe.2017.910039   PDF   HTML     577 Downloads   1,016 Views  


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Large-scale corrections should be made to the paper.

This article has been retracted to straighten the academic record. In making this decision the Editorial Board follows COPE's Retraction Guidelines. The aim is to promote the circulation of scientific research by offering an ideal research publication platform with due consideration of internationally accepted standards on publication ethics. The Editorial Board would like to extend its sincere apologies for any inconvenience this retraction may have caused.

Editor guiding this retraction: Dr. Fermin Mallor (EiC of EPE)

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[1] Montes, M.J., Rubbia, C., Abbas, R. and Martínez-Val, J.M. (2014) A Comparative Analysis of Configurations of Linear Fresnel Collectors for Concentrating Solar Power. Energy, 73, 192-203.
[2] Zhu, J. and Huang, H. (2014) Design and Thermal Performances of Semi-Parabolic Linear Fresnel Reflector Solar Concentration Collector. Energy Conversion & Management, 77, 733-737.
[3] Mills, D.R. and Morrison, G.L. (2000) Compact Linear Fresnel Reflector Solar Thermal Power Plants. Solar Energy, 68, 263-283.
[4] Mills, D.R., Morrison, G.L., Pye, J. and Le Lièvre, P. (2006) Multi-Tower Line Focus Fresnel Array Project. Journal of Solar Energy Engineering, 128, 118-121.
[5] Schenk, H., Hirsch, T., Feldhoff, J.F. and Wittmann, M. (2012) Energetic Comparison of Linear Fresnel and Parabolic Trough Collector Systems. Journal of Solar Energy Engineering, 136, 333-344.
[6] Abbas, R., Munoz, J., and Martínez-Val, J.M. (2012) Steady-State Thermal Analysis of an Innovative Receiver for Linear Fresnel Reflectors. Applied Energy, 92, 503-515.
[7] Abbas, R., Montes, M.J., Rovira, A., et al. (2016) Parabolic Trough Collector or Linear Fresnel Collector: A Comparison of Optical Features Including Thermal Quality Based on Commercial Solution. Solar Energy, 124, 198-215.
[8] Pye, J.D., Morrison, G.L., Behnia, M. and Mills, D.R. (2003) Modelling of Cavity Receiver Heat Transfer for the Compact Linear Fresnel Reflector. ISES Solar World Congress, Sweden.
[9] Abbas, R. and Martínez-Val, J.M. (2015) Analytic Optical Design of Linear Fresnel Collectors with Variable Widths and Shifts of Mirrors. Renewable Energy, 75, 81-92.
[10] Zhu, G., Wendelin, T., Wagner, M.J. and Kutscher, C. (2014) History, Current State, and Future of Linear Fresnel Concentrating Solar Collectors. Solar Energy, 103, 639-652.
[11] Grena, R. and Tarquini, P. (2011) Solar Linear Fresnel Collector Using Molten Nitrates as Heat Transfer Fluid. Energy, 36, 1048-1056.
[12] Qiu, Y., He, Y.L., et al. (2016) A Comprehensive Model for Optical and Thermal Characterization of a Linear Fresnel Solar Reflector with a Trapezoidal Cavity Receiver. Renew Energy, 97, 129-144.
[13] Qiu, Y., He, Y.L., Cheng, Z.D., et al. (2015) Study on Optical and Thermal Performance of a Linear Fresnel Solar Reflector Using Molten Salt as HTF with MCRT and FVM Methods. Applied Energy, 146, 162-173.
[14] Zhu, G. (2013) Development of an Analytical Optical Method for Linear Fresnel Collectors. Solar Energy, 94, 240-252.
[15] Roccia, J.P., Paulin, M. and Coustet, C. (2013) Hybrid CPU/GPU KD-Tree Construction for Versatile Ray Tracing. Eurographics Symposium on Rendering.
[16] Qiu, Y., He, Y.L., Liang, Q., et al. (2016) A MCRT-FVM Simulation Method for the Coupled Photo-Thermal Conversion Process in a Linear Fresnel Reflector Solar Collector. Journal of Engineering Thermophysics, 37, 2142-2149.
[17] Eck, M., Uhlig, R., Mertins, M., Häberle, A. and Lerchenmüller, H. (2007) Thermal Load of Direct Steam-Generating Absorber Tubes with Large Diameter in Horizontal Linear Fresnel Collectors. Heat Transfer Engineering, 28, 42-48.

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