Institution
Indian Institute of Technology Kharagpur
Education•Kharagpur, India•
About: Indian Institute of Technology Kharagpur is a education organization based out in Kharagpur, India. It is known for research contribution in the topics: Natural rubber & Dielectric. The organization has 16887 authors who have published 38658 publications receiving 714526 citations.
Topics: Natural rubber, Dielectric, Microstructure, Population, Heat transfer
Papers published on a yearly basis
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University of Hyderabad1, Indian Institute of Technology Kharagpur2, International Centre for Integrated Mountain Development3, Indian Institute of Remote Sensing4, Remote Sensing Center5, TERI University6, Banaras Hindu University7, University of Twente8, International Water Management Institute9, Centre for Development of Advanced Computing10, International Center for Agricultural Research in the Dry Areas11, Wildlife Institute of India12, Annamalai University13, Berhampur University14, United Nations University15, Indian Institutes of Information Technology16, University of Agricultural Sciences, Dharwad17, World Agroforestry Centre18, University of Kashmir19, National Botanical Research Institute20, Assam University21, Kerala Forest Research Institute22, North Orissa University23, Botanical Survey of India24, University of Calcutta25, Lincoln University (Pennsylvania)26, Pondicherry University27, Mohanlal Sukhadia University28, University of Jammu29, Council of Scientific and Industrial Research30
TL;DR: This vegetation type map is the most comprehensive one developed for India so far and was prepared using 23.5 m seasonal satellite remote sensing data, field samples and information relating to the biogeography, climate and soil.
140 citations
TL;DR: The therapeutic prospects of anticancer peptides are reviewed in the context of their ability to induce tumor regression and their possible application in tumor therapy.
140 citations
TL;DR: In this article, the structural and morphological characteristics of thin ZnS films have been investigated by X-ray diffraction (XRD), scanning electron microscope and atomic force microscope analysis.
140 citations
TL;DR: In this paper, peroxyacetic acid was used for epoxidation of karanja oil (KO), a non-drying vegetable oil, which was generated in situ from aqueous hydrogen peroxide and glacial acetic acid.
Abstract: Epoxidation of karanja oil (KO), a nondrying vegetable oil, was carried out with peroxyacetic acid that was generated in situ from aqueous hydrogen peroxide and glacial acetic acid. KO contained 61.65% oleic acid and 18.52% linoleic acid, respectively, and had an iodine value of 89 g/100 g. Unsaturated bonds in the oil were converted to oxirane by epoxidation. Almost complete epoxidation of ethylenic unsaturation was achieved. For example, the iodine value of the oil could be reduced from 89 to 19 by epoxidation at 30°C. The effects of temperature, hydrogen peroxide-to-ethylenic unsaturation ratio, acetic acid-to-ethylenic unsaturation ratio, and stirring speed on the epoxidation rate and on oxirane ring stability were studied. The rate constant and activation energy for epoxidation of KO were 10−6 L·mol−1·s−1 and 14.9 kcal·mol−1, respectively. Enthalpy, entropy, and free energy of activation were 14.2 kcal·mol−1, −51.2 cal·mol−1·K−1, and 31.1 kcal·mol−1, respectively. The present study revealed that epoxides can be developed from locally available natural renewable resources such as KO.
140 citations
TL;DR: In this paper, the nucleate pool boiling of ZrO2-based aqueous nanofluid has been studied and shown to be inferior even to pure water.
Abstract: Nucleate pool boiling of ZrO2 based aqueous nanofluid has been studied. Though enhancement in nucleate boiling heat transfer has been observed at low volume fraction of solid dispersion, the rate of heat transfer falls with the increase in solid concentration and eventually becomes inferior even to pure water. While surfactants increase the rate of heat transfer, addition of surfactant to the nanofluid shows a drastic deterioration in nucleate boiling heat transfer. Further, the boiling of nanofluid renders the heating surface smoother. Repeated runs of experiments with the same surface give a continuous decrease in the rate of boiling heat transfer.
140 citations
Authors
Showing all 17290 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Rajdeep Mohan Chatterjee | 110 | 990 | 51407 |
| Vijay P. Singh | 106 | 1699 | 55831 |
| Arun Majumdar | 102 | 459 | 52464 |
| Sanjay Gupta | 99 | 902 | 35039 |
| Biswajeet Pradhan | 98 | 735 | 32900 |
| Sandeep Kumar | 94 | 1563 | 38652 |
| Jürgen Eckert | 92 | 1368 | 42119 |
| Praveen Kumar | 88 | 1339 | 35718 |
| Tuan Vo-Dinh | 86 | 698 | 24690 |
| Lawrence Carin | 84 | 949 | 31928 |
| Anindya Dutta | 82 | 248 | 33619 |
| Aniruddha B. Pandit | 80 | 427 | 22552 |
| Krishnendu Chakrabarty | 79 | 996 | 27583 |
| Ramesh Jain | 78 | 556 | 37037 |
| Thomas Thundat | 78 | 622 | 22684 |