ISSN: 2576-1463
Innovative Energy & Research
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Google Scholar citation report
Citations : 712
Innovative Energy & Research received 712 citations as per Google Scholar report
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Innovative Energy & Research : Citations & Metrics Report
Articles published in Innovative Energy & Research have been cited by esteemed scholars and scientists all around the world. Innovative Energy & Research has got h-index 14 , which means every article in Innovative Energy & Research has got 14 average citations.
Following are the list of articles that have cited the articles published in Innovative Energy & Research.
| 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | |
|---|---|---|---|---|---|---|---|---|
Year wise published articles |
50 | 60 | 62 | 43 | 17 | 43 | 30 | 24 |
Year wise citations received |
38 | 146 | 158 | 115 | 95 | 67 | 44 | 12 |
| Journal total citations count | 712 |
| Journal impact factor | 2.49 |
| Journal 5 years impact factor | 2.62 |
| Journal cite score | 2.88 |
| Journal h-index | 14 |
| Journal h-index since 2018 | 13 |
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Shaqina, R. (2019). Cleaner production assessment and improvement strategies in a textile industry/Shaqina Ramlan (Doctoral dissertation, University Malaya). |
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Rajput, S. K., Wadhwani, S., & Singh, J. (2021). Reliability and Energy Efficiency of Ring Frame Machine in Textile Industries: Secure, Smart, and Reliable Network. In Advances in Smart Communication and Imaging Systems (pp. 657-663). Springer, Singapore. |
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Sarwar, N., Humayoun, U. B., Nawaz, A., & Yoon, D. H. (2021). Development of sustainable, cost effective foam finishing approach for cellulosic textile employing succinic acid/xylitol crosslinking system. Sustainable Materials and Technologies, 30, e00350. |
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Kumar, P. S., & Joshiba, G. J. (2019). Energy Footprints of Textile Products. In Energy Footprints of the Food and Textile Sectors (pp. 45-61). Springer, Singapore. |
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Al-Fadhat, F., & Nadita, S. S. (2021). QUESTIONING SUSTAINABILITY: ECONOMIC EXPANSION AND CONTRADICTIONS BEHIND INDIAS ECO-FRIENDLY TEXTILE POLICY. Asian Affairs, 52(2), 396-411. |
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Durru, O., Yessengeldina, A., Kosherbayeva, A., Shakeyev, S., & Shaikin, D. (2021). State Policy of Kazakhstan on Implementing of Renewable Energy Sources in Textile Industry Companies. International Journal of Energy Economics and Policy, 11(3), 51-56. |
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Bantelay, D. T., Getie, M. Z., Bruk, B. D., & Workalemayehu, R. N. (2020). Analytical Modeling of Specific Energy Consumption and Cost Share in Comprehensive Textile Industry: Case Study of Ethiopia. Journal of Optimization in Industrial Engineering, 13(2), 47-56. |
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Junaid, M., Aasim, M., & Manzoor, S. (2020). Potential Barriers to Implementing Energy Management System in Pakistan: A Case of Wet Processing in the Textile Sector. J. Energy Technol. Policy, 10, 36-46. |
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Jaitiang, T., Vorayos, N., Deethayat, T., & Vorayos, N. (2020). Energy conservation tracking of Thailands energy and GHG mitigation plan: a case of Thailands textile industry. Energy Reports, 6, 467-473. |
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Rajput, S. K., Rani, P., kumar Sadhu, P., Sadhu, M., & Das, N. (2018, April). Energy conservation in textile industries by replacing rewound motorsan energy audit study. In 2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC) (pp. 820-824). IEEE. |
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Ozturk, E., Cinperi, N. C., & Kitis, M. (2020). Improving energy efficiency using the most appropriate techniques in an integrated woolen textile facility. Journal of Cleaner Production, 254, 120145. |
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Tahir, N., Tahir, M. N., Alam, M., Yi, W., & Zhang, Q. (2020). Exploring the prospective of weeds (Cannabis sativa L., Parthenium hysterophorus L.) for biofuel production through nanocatalytic (Co, Ni) gasification. Biotechnology for Biofuels, 13(1), 1-10. |
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Bhavsar, P. S., Dalla Fontana, G., & Zoccola, M. (2021). Sustainable Superheated Water Hydrolysis of Black Soldier Fly Exuviae for Chitin Extraction and Use of the Obtained Chitosan in the Textile Field. ACS omega, 6(13), 8884-8893. |
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Ali, S., Shafique, O., Mahmood, S., Mahmood, T., Khan, B. A., & Ahmad, I. (2020). Biofuels production from weed biomass using nanocatalyst technology. Biomass and bioenergy, 139, 105595. |
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Dwivedi, P., Mishra, P. K., Mondal, M. K., & Srivastava, N. (2019). Non-biodegradable polymeric waste pyrolysis for energy recovery. Heliyon, 5(8), e02198. |
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Srinivasan, G. R., Shankar, V., & Jambulingam, R. (2019). Molecular Study on Dominant Fatty Acid Esters Characterized from Waste Beef Tallow BiodieselA Quantum Computational Approach. |
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AYDIN, F. The investigation of fuel properties of mixtures obtained by adding waste sunflower biodiesel and ethanol to euro diesel fuel. International Journal of Automotive Engineering and Technologies, 10(2), 91-99. |
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Gokul, R. S., & Jambulingam, R. (2019). Computational analysis of methyl oleate in biodiesel produced from waste beef tallow. Research Journal of Chemistry and Environment, 23(2), 51-59. |
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Jambulingam, R., Shankar, V., Palani, S., & Srinivasan, G. R. (2019). Effect of dominant fatty acid esters on emission characteristics of waste animal fat biodiesel in CI engine. Frontiers in Energy Research, 7, 63. |
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Srinivasan, G. R., Shankar, V., & Jambulingam, R. (2019). Experimental study on influence of dominant fatty acid esters in engine characteristics of waste beef tallow biodiesel. Energy Exploration & Exploitation, 37(3), 1098-1124. |
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