P
Prasanta Kumar Das
Researcher at Indian Institute of Technology Kharagpur
Publications - 383
Citations - 6358
Prasanta Kumar Das is an academic researcher from Indian Institute of Technology Kharagpur. The author has contributed to research in topics: Heat transfer & Two-phase flow. The author has an hindex of 36, co-authored 348 publications receiving 5364 citations. Previous affiliations of Prasanta Kumar Das include Indian Statistical Institute & Indian Institute of Technology Guwahati.
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Techniques for measuring the thermal conductivity of nanofluids: A review
TL;DR: In this paper, a detailed description of a unique thermal conductivity measurement device based on the thermal comparator principle, developed by the present authors, has been described, besides the principle of this measurement device, the constructional details have been elaborated.
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Synthesis and characterization of nanofluid for advanced heat transfer applications
TL;DR: In this article, the size/microstructure of the nanoparticles are characterized by X-ray diffraction and transmission electron microscopy, and the thermal conductivity of the nanofluid is measured using a modified thermal comparator.
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Effect of Particle Size on Thermal Conductivity of Nanofluid
TL;DR: In this paper, the impact of Al2Cu and Ag2Al nanoparticle size and volume fraction on the effective thermal conductivity of water and ethylene glycol based nanofluid prepared by a two-stage process comprising mechanical alloying of appropriate Al-Cu and Al-Ag elemental powder blend followed by dispersing these nanoparticles (1 to 2 vol pct) in water and glycol with different particle sizes.
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Synthesis, characterization, and thermal property measurement of nano-Al95Zn05 dispersed nanofluid prepared by a two-step process
TL;DR: In this article, the authors have synthesized Al-5wt%Zn nanoparticles by mechanical alloying, characterized these nanoparticles using X-ray diffraction and scanning and transmission electron microscopy.
Journal ArticleDOI
Neutron-Antineutron Oscillations: Theoretical Status and Experimental Prospects
D. G. Phillips,D. G. Phillips,William Snow,K. S. Babu,Sw. Banerjee,David V. Baxter,Zurab Berezhiani,M. Bergevin,Saptaparna Bhattacharya,G. Brooijmans,Luis A. Castellanos,Luis A. Castellanos,Mingshui Chen,C. E. Coppola,Ramanath Cowsik,J. A. Crabtree,Prasanta Kumar Das,E. B. Dees,E. B. Dees,A. D. Dolgov,A. D. Dolgov,Phillip D. Ferguson,M. Frost,T. Gabriel,Avraham Gal,Franz X. Gallmeier,K. S. Ganezer,E. Golubeva,Geoffrey Greene,B. Hartfiel,Ayman I. Hawari,Lawrence Heilbronn,Calvin A. Johnson,Yuri Kamyshkov,B. Kerbikov,Masaaki Kitaguchi,B. Z. Kopeliovich,V. B. Kopeliovich,V. B. Kopeliovich,V. A. Kuzmin,Chen-Yu Liu,P. L. McGaughey,Michael Mocko,Rabindra N. Mohapatra,N.V. Mokhov,G. Muhrer,Hans P. Mumm,L. Okun,Robert W. Pattie,Robert W. Pattie,Chris Quigg,E. J. Ramberg,A. Ray,Amit Roy,Arthur E. Ruggles,Utpal Sarkar,Alexander Saunders,A. Serebrov,H. M. Shimizu,Robert Shrock,A. K. Sikdar,S. K. L. Sjue,S. Striganov,Lawrence W. Townsend,R. Tschirhart,Arkady Vainshtein,R. Van Kooten,Zhehui Wang,Albert Young,Albert Young +69 more
TL;DR: In this paper, an optimized search for oscillations using free neutrons from a slow neutron moderator could improve existing limits on the free oscillation probability by at least three orders of magnitude.