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Experimental investigation of transparent parabolic trough collector based on gas-phase nanofluid. (2017). de Risi, Arturo ; Potenza, Marco ; Milanese, Marco ; Colangelo, Gianpiero.
In: Applied Energy.
RePEc:eee:appene:v:203:y:2017:i:c:p:560-570.

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Cited: 22

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  1. A Comprehensive Review on Efficiency Enhancement of Solar Collectors Using Hybrid Nanofluids. (2022). Wan, Wan Sharuzi ; Kamarulzaman, Muhamad Kamal ; Faisal, Abu Shadate ; Yousif, Belal ; Subramanion, Sivarao ; Yusaf, Talal ; Bakar, Rosli Abu ; Farhana, Kaniz ; Ramasamy, Devarajan ; Kadirgama, Kumaran.
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  2. Different ways to improve parabolic trough solar collectors’ performance over the last four decades and their applications: A comprehensive review. (2022). Hernandez, J A ; Huicochea, A ; Parrales, A ; Ajbar, Wassila.
    In: Renewable and Sustainable Energy Reviews.
    RePEc:eee:rensus:v:156:y:2022:i:c:s1364032121012120.

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  3. Direct absorption nanofluid-based solar collectors for low and medium temperatures. A review. (2022). Vossier, Alexis ; Caliot, Cyril ; Bataille, Franoise ; Sainz-Maas, Miguel ; Flamant, Gilles.
    In: Energy.
    RePEc:eee:energy:v:260:y:2022:i:c:s0360544222018175.

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  4. Development of a High-Flux Solar Simulator for Experimental Testing of High-Temperature Applications. (2021). de Risi, Arturo ; Colangelo, Gianpiero ; Milanese, Marco.
    In: Energies.
    RePEc:gam:jeners:v:14:y:2021:i:11:p:3124-:d:563268.

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  5. Novel solar collector: Evaluating the impact of nanoparticles added to the collector’s working fluid, heat transfer fluid temperature and flow rate. (2020). Fathabadi, Hassan.
    In: Renewable Energy.
    RePEc:eee:renene:v:148:y:2020:i:c:p:1165-1173.

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  6. Influence of particle size on the effective thermal conductivity of nanofluids: A critical review. (2020). Kim, Man-Hoe ; Ambreen, Tehmina.
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    RePEc:eee:appene:v:264:y:2020:i:c:s0306261920301963.

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  7. Efficiency of evacuated tube solar collector using WO3/Water nanofluid. (2019). Grof, Gyula ; Sharafeldin, M A.
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  8. Energy and exergy analysis and optimization of low-flux direct absorption solar collectors (DASCs): Balancing power- and temperature-gain. (2019). Abu-Nada, Eiyad ; Kyritsis, Dimitrios C ; Al-Khateeb, Ashraf N ; Sharaf, Omar Z.
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  9. Enhancing the optical and thermal efficiency of a parabolic trough collector – A review. (2019). Goic, Ranko ; Iniyan, S ; Manikandan, G K.
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  10. Heat Transfer Enhancement of TiO 2 /Water Nanofluid at Laminar and Turbulent Flows: A Numerical Approach for Evaluating the Effect of Nanoparticle Loadings. (2018). Wijayanta, Agung Tri ; Santoso, Budi ; Kristiawan, Budi ; Miyazaki, Takahiko ; Aziz, Muhammad.
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  11. Parameters influencing the performance of nanoparticles-laden fluid-based solar thermal collectors: A review on optical properties. (2018). Bhalla, Vishal ; Tyagi, Himanshu .
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  12. Using artificial neural network and quadratic algorithm for minimizing entropy generation of Al2O3-EG/W nanofluid flow inside parabolic trough solar collector. (2018). Ebrahimi-Moghadam, Amir ; Farzaneh-Gord, Mahmood ; Mohseni-Gharyehsafa, Behnam.
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  13. Heat transfer model for thermal performance analysis of parabolic trough solar collectors using nanofluids. (2018). Tagle-Salazar, Pablo D ; Rivera-Solorio, Carlos I ; Nigam, K. D. P., .
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  14. Thermal performance of a parabolic trough linear collector using Al2O3/H2O nanofluids. (2018). Bretado, Mariana Soledad ; Garcia-Cuellar, Alejandro J ; Rivera-Solorio, Carlos I.
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  15. Influence of hybrid nanofluids on the performance of parabolic trough collectors in solar thermal systems: Recent findings and numerical comparison. (2018). Minea, Alina Adriana ; El-Maghlany, Wael M.
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  16. Direct absorption solar collector (DASC) modeling and simulation using a novel Eulerian-Lagrangian hybrid approach: Optical, thermal, and hydrodynamic interactions. (2018). Sharaf, Omar Z ; Abu-Nada, Eiyad ; Kyritsis, Dimitrios C ; Al-Khateeb, Ashraf N.
    In: Applied Energy.
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  17. Modeling, simulation and performance analysis of parabolic trough solar collectors: A comprehensive review. (2018). Yilmaz, Brahim Halil ; Mwesigye, Aggrey.
    In: Applied Energy.
    RePEc:eee:appene:v:225:y:2018:i:c:p:135-174.

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  18. Full-spectrum volumetric solar thermal conversion via graphene/silver hybrid plasmonic nanofluids. (2018). Mehrali, Mohammad ; Pecnik, Rene ; Ghatkesar, Murali Krishna.
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  19. Enhanced heat transfer in a parabolic trough solar receiver by inserting rods and using molten salt as heat transfer fluid. (2018). Chang, Chun ; Ding, Yulong ; Wang, Zhifeng ; Deng, Jie ; Zhao, Mingzhi ; Li, Yongliang ; Wu, Zhiyong ; Sciacovelli, Adriano.
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  20. Enhanced solar thermal conversion and thermal conduction of MWCNT-SiO2/Ag binary nanofluids. (2018). Zeng, Jia ; Xuan, Yimin.
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  21. Complementary enhanced solar thermal conversion performance of core-shell nanoparticles. (2018). Chen, Meijie ; Hu, Yanwei ; Wang, Xinzhi.
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    RePEc:eee:appene:v:211:y:2018:i:c:p:735-742.

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  22. Investigation of the use of nano-refrigerants to enhance the performance of an ejector refrigeration system. (2017). Al-Nimr, Moh'd A., ; Khasawneh, Mohammad A ; Tashtoush, Bourhan M.
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  2. Performance assessment of a parabolic trough solar collector using nanofluid and water based on direct absorption. (2023). Kumar, Abhinav ; Saini, Vishnu ; Ganesan, H ; Ram, Shri.
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  22. A review of solar parabolic trough collector. (2016). Jebasingh, V K ; Joselin, G M.
    In: Renewable and Sustainable Energy Reviews.
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  23. Thermodynamic performance evaluation of solar and other thermal power generation systems: A review. (2015). Gupta, M K ; Tyagi, S K ; Reddy, Siva V ; Panwar, N L ; Ranjan, K R ; Kaushik, S C.
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  24. Energy and exergy analysis of typical renewable energy systems. (2014). Pandey, A. K. ; Tyagi, V. V. ; Park, S. R..
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  25. State-of-the-art of solar thermal power plants—A review. (2013). Ranjan, K. R. ; Reddy, Siva V. ; Tyagi, S. K. ; Kaushik, S. C..
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  26. Modeling and co-simulation of a parabolic trough solar plant for industrial process heat. (2013). Fernandez-Garcia, A. ; Silva, R. ; Perez, M..
    In: Applied Energy.
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  27. Performance analysis and comparison of concentrated evacuated tube heat pipe solar collectors. (2012). Nkwetta, Dan Nchelatebe ; Smyth, Mervyn.
    In: Applied Energy.
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    In: Renewable Energy.
    RePEc:eee:renene:v:31:y:2006:i:15:p:2411-2421.

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  29. Technical feasibility and economic viability of a small-scale grid connected solar thermal installation for electrical-energy saving. (2002). Bakos, G. C. ; Tsagas, N. F..
    In: Applied Energy.
    RePEc:eee:appene:v:72:y:2002:i:3-4:p:621-630.

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