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Particulate Science and Technology
An International Journal
Volume 39, 2021 - Issue 5
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Articles

Experimental determination of thermophysical properties of Indonesian fly-ash nanofluid for heat transfer applications

Praveen Kantia Department of Mechanical Engineering, Jyothy Institute of Technology, Bangalore, Karnataka, IndiaView further author information
,
Korada Viswanatha Sharmab Department of Mechanical Engineering, Center for Energy Studies, JNTUH College of Engineering, Kukatpally, Telangana, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-9527-4850View further author information
ORCID Icon,
Ramachandra C. G.c Department of Mechanical Engineering, Presidency University, Bangalore, Karnataka, IndiaView further author information
&
W. H. Azmid Faculty of Mechanical Engineering, Universiti Malaysia Pahang, Pekan, Pahang, MalaysiaView further author information
Pages 597-606 | Published online: 17 Aug 2020

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Sameer Ranjan Sahu, Hrushikesh Barik & Pandaba Patro. (2024) Heat transfer study of water and air-based nanofluids with Al2O3 nanoparticles in a circular pipe using a multiphase approach. Particulate Science and Technology 42:3, pages 393-407.
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Lal Kundan & M. B. Darshan. (2022) Performance investigation of a concentric double tube heat exchanger using twisted tape inserts and nanofluid. Particulate Science and Technology 40:3, pages 307-324.
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Praveen Kumar Kanti, K. V. Sharma, Zafar Said, Mehdi Jamei & Kyathanahalli Marigowda Yashawantha. (2022) Experimental investigation on thermal conductivity of fly ash nanofluid and fly ash-Cu hybrid nanofluid: prediction and optimization via ANN and MGGP model. Particulate Science and Technology 40:2, pages 182-195.
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Praveen Kanti, Korada Viswanatha Sharma, Kyathanahalli Marigowda Yashawantha & Siddeswara Dmk. (2021) Experimental determination for viscosity of fly ash nanofluid and fly ash-Cu hybrid nanofluid:Prediction and optimization using artificial intelligent techniques. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 0:0, pages 1-20.
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Articles from other publishers (22)

M. Zubair Akbar Qureshi, M. Faisal, Kaleem Razzaq Malik & Nehad Ali Shah. (2023) Computing of temperature-dependent thermal conductivity and viscosity correlation for solar energy and turbulence appliances via artificial neuro network algorithm. Modern Physics Letters B 38:14.
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Sami Ullah Khan, Qasim Ali & Adnan. (2024) Thermal determination of hybrid nanofluid with molybdenum disulphide (MoS$$_{2}$$) and graphene oxide (GO) nanoparticles: AB fractional simulations. Pramana 98:2.
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K. Praveen Kumar, Rohit Khedkar, Prabhakar Sharma, Rajvikram Madurai Elavarasan, Prabhu Paramasivam, V. Vicki Wanatasanappan & Sesathiri Dhanasekaran. (2024) Artificial intelligence-assisted characterization and optimization of red mud-based nanofluids for high-efficiency direct solar thermal absorption. Case Studies in Thermal Engineering 54, pages 104087.
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Haojie Zhang, Wenwen Guo, Guoneng Li, Youqu Zheng, Huangjie Bao & Han Chen. (2024) Preparation and application of rice husk-based SiO2/water nanofluids in heat transfer enhancement under pulsation. Journal of Molecular Liquids 394, pages 123751.
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Siridet Piboonudomkarn, Pongtanawat Khemthong, Saran Youngjan, Kitirote Wantala, Visanu Tanboonchuy, Yingyote Lubphoo & Rattabal Khunphonoi. (2023) Co-hydrothermally carbonized sewage sludge and lignocellulosic biomass: An efficiently renewable solid fuel. Arabian Journal of Chemistry 16:12, pages 105315.
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Hao Zhu & Liwen Fan. (2023) Nanofluids effect on the overall transfer coefficients change mechanism analysis. Energy Science & Engineering 11:12, pages 4481-4492.
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K.V. Sharma, P.H.V. Sesha Talpa Sai, Prabhakar Sharma, Praveen Kumar Kanti, P. Bhramara & Suleiman Akilu. (2023) Prognostic modeling of polydisperse SiO2/Aqueous glycerol nanofluids' thermophysical profile using an explainable artificial intelligence (XAI) approach. Engineering Applications of Artificial Intelligence 126, pages 106967.
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Sorakka Ponnappan Venkatesan, B. Keshava Kalyan, G. Gopinath, M. Purusothaman & J. Hemanandh. (2022) Study of the performance of a coolant mixed with an Al 2 O 3 /SiC nanomaterial in an engine radiator . Environmental Quality Management 33:1, pages 53-59.
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S. Samaneh Sadeghi, Amin Hadi & Mahmoud Mosavi Mashhadi. (2023) Viscosity of Fe2O3-water nanofluids by molecular dynamics simulations: Effects of nanoparticle content, temperature and size. Journal of Molecular Liquids 382, pages 121859.
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Ebrahem A. Algehyne, Sadique Rehman, Rashid Ayub, Anwar Saeed, Sayed M. Eldin & Ahmed M. Galal. (2023) Brownian and thermal diffusivity impact due to the Maxwell nanofluid (graphene/engine oil) flow with motile microorganisms and Joule heating. Nanotechnology Reviews 12:1.
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Badis Meradi, Djamal Eddine Ghersi, Meriem Amoura & Khaled Loubar. (2022) A new methodology to evaluate the usefulness of developing a new hybrid nanofluid: application to water-based Fe–Si hybrid nanofluid. Journal of Thermal Analysis and Calorimetry 148:5, pages 2189-2206.
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Rand Ahmed Adeeb Babat, Adnan Sözen & Mutlu Tarık Çakır. (2023) EVALUATION OF A NOVEL TWO-PHASE CLOSED THERMOSYPHON SYSTEM UTILIZING NiFe2O4/DW, Fe3O4/DW, Fe2O3/DW MAGNETIC NANOFLUIDS. Heat Transfer Research 54:12, pages 15-37.
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Mohd Kamal Kamarulzaman, Sakinah Hisham, K. Kadirgama, D. Ramasamy, M. Samykano, R. Saidur & Talal Yusaf. (2023) Improving the thermophysical properties of hybrid nanocellulose-copper (II) oxide (CNC-CuO) as a lubricant additives: A novel nanolubricant for tribology application. Fuel 332, pages 126229.
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Hallera Basavarajappa Marulasiddeshi, Praveen Kumar Kanti, Mehdi Jamei, Sajjal Basanna Prakash, Somalapura Nagappa Sridhara & Zafar Said. (2022) Experimental study on the thermal properties of Al 2 O 3 ‐CuO /water hybrid nanofluids: Development of an artificial intelligence model . International Journal of Energy Research 46:15, pages 21066-21083.
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Jake Wohld, Joshua Beck, Kallie Inman, Michael Palmer, Marcus Cummings, Ryan Fulmer & Saeid Vafaei. (2022) Hybrid Nanofluid Thermal Conductivity and Optimization: Original Approach and Background. Nanomaterials 12:16, pages 2847.
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Soheyl Alidoust, Fatemeh AmoozadKhalili & Sajad Hamedi. (2022) Investigation of effective parameters on relative thermal conductivity of SWCNT (15%)-Fe3O4 (85%)/water hybrid ferro-nanofluid and presenting a new correlation with response surface methodology. Colloids and Surfaces A: Physicochemical and Engineering Aspects 645, pages 128625.
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Wisdom Etabiese Ukueje, Fidelis Ibiang Abam & Anthony Obi. (2022) A Perspective Review on Thermal Conductivity of Hybrid Nanofluids and Their Application in Automobile Radiator Cooling. Journal of Nanotechnology 2022, pages 1-51.
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Seham S. Alterary & Narguess H. Marei. (2022) New Isolated Shrimp (Litopenaeus setiferus) Chitosan-Based Films Loaded with Fly Ash for Antibacterial Evaluation. Polymers 14:10, pages 2099.
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Praveen Kanti, K. V. Sharma, Zafar Said & Evangelos Bellos. (2021) Numerical study on the thermo-hydraulic performance analysis of fly ash nanofluid. Journal of Thermal Analysis and Calorimetry 147:3, pages 2101-2113.
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Roozbeh Moshfeghi & Davood Toghraie. (2022) An analytical and statistical review of selected researches in the field of estimation of rheological behavior of nanofluids. Powder Technology 398, pages 117076.
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Arun Kumar Tiwari, Amit Kumar & Zafar Said. 2022. Advances in Nanofluid Heat Transfer. Advances in Nanofluid Heat Transfer 59 93 .
O. Kuipa, G. Kasungasunge & P. K. Kuipa. (2021) Production of oxalic acid from sawdust using coal fly ash as a catalyst. SN Applied Sciences 3:11.
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