Akash Kumar
About
Akash Kumar is a scholar working on Biomedical Engineering, Pollution and Mechanical Engineering.
According to data from OpenAlex, Akash Kumar has authored 49 papers receiving a total of 607 indexed citations (citations by other indexed papers that have themselves been cited), including 24 papers in Biomedical Engineering, 13 papers in Pollution and 12 papers in Mechanical Engineering. Recurrent topics in Akash Kumar's work include Thermochemical Biomass Conversion Processes (17 papers), Biodiesel Production and Applications (8 papers) and Recycling and Waste Management Techniques (8 papers). Akash Kumar is often cited by papers focused on Thermochemical Biomass Conversion Processes (17 papers), Biodiesel Production and Applications (8 papers) and Recycling and Waste Management Techniques (8 papers). Akash Kumar collaborates with scholars based in China, Ethiopia and Pakistan. Akash Kumar's co-authors include Belay Tafa Oba, Moses Akintayo Aborisade, Guanyi Chen, Beibei Yan, Junyu Tao, Lata Kumari, Imtiaz Ali Jamro, Lin Zhao, Daying Chen and Jiashu Liu and has published in prestigious journals such as SHILAP Revista de lepidopterología, The Science of The Total Environment and Journal of Cleaner Production.
In The Last Decade
Akash Kumar
42 papers receiving 587 citations
Peers — A (Enhanced Table)
Peers by citation overlap · career bar shows stage (early→late) cites · hero ref
| Name | h | Career | Trend | Papers | Cites | |||||
|---|---|---|---|---|---|---|---|---|---|---|
| Akash Kumar China | 15 | 291 | 135 | 121 | 108 | 100 | 49 | 607 | ||
| Kenny Vanreppelen Belgium | 13 | 271 0.9× | 129 1.0× | 108 0.9× | 78 0.7× | 91 0.9× | 20 | 656 | ||
| Fengmin Chang China | 12 | 283 1.0× | 90 0.7× | 174 1.4× | 93 0.9× | 91 0.9× | 18 | 606 | ||
| Abhijeet Anand India | 11 | 308 1.1× | 150 1.1× | 125 1.0× | 115 1.1× | 94 0.9× | 18 | 783 | ||
| Shuguang Zhu China | 16 | 496 1.7× | 154 1.1× | 147 1.2× | 157 1.5× | 96 1.0× | 45 | 920 | ||
| Deli Zhang China | 14 | 312 1.1× | 105 0.8× | 121 1.0× | 107 1.0× | 95 0.9× | 38 | 674 | ||
| Anil Kumar Sakhiya India | 15 | 443 1.5× | 192 1.4× | 157 1.3× | 156 1.4× | 125 1.3× | 23 | 983 | ||
| Sieng Huat Kong Malaysia | 11 | 393 1.4× | 77 0.6× | 90 0.7× | 110 1.0× | 68 0.7× | 15 | 658 | ||
| Ashish Pawar India | 9 | 282 1.0× | 103 0.8× | 85 0.7× | 102 0.9× | 112 1.1× | 12 | 625 | ||
| Faeiza Buyong Malaysia | 6 | 165 0.6× | 104 0.8× | 108 0.9× | 73 0.7× | 78 0.8× | 12 | 450 | ||
| Abhijeet Pathy India | 11 | 193 0.7× | 75 0.6× | 112 0.9× | 68 0.6× | 52 0.5× | 13 | 559 |
Countries citing papers authored by Akash Kumar
Since
Specialization
Citations
This map shows the geographic impact of Akash Kumar's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Akash Kumar with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Akash Kumar more than expected).
Fields of papers citing papers by Akash Kumar
Since
Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences
This network shows the impact of papers produced by Akash Kumar. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Akash Kumar. The network helps show where Akash Kumar may publish in the future.
Co-authorship network of co-authors of Akash Kumar
This figure shows the co-authorship network connecting the top 25 collaborators of Akash Kumar. A scholar is included among the top collaborators of Akash Kumar based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Akash Kumar. Akash Kumar is excluded from the visualization to improve readability, since they are connected to all nodes in the network.
All Works
1.
Manić, Nebojša, et al.. (2026). Probing co-pyrolysis of rice straw with sulfur-donor thiourea: Insights into product evolution, reaction kinetics, thermodynamics, and compensation effects. Journal of Analytical and Applied Pyrolysis. 195. 107647–107647.
2.
Aborisade, Moses Akintayo, et al.. (2026). Bio-Based Fertilizers from Waste: Nutrient Recovery, Soil Health, and Circular Economy Impacts. Toxics. 14(1). 90–90.
3.
Laghari, Azhar Ali, Akash Kumar, Muhammad Rizwan, et al.. (2025). Co-gasification of sewage sludge derived hydrochar and coal: Implications for syngas production and ash content. International Journal of Hydrogen Energy. 161. 150682–150682.
4.
Laghari, Azhar Ali, et al.. (2025). Soil organic matter and soil structure changes with tillage practices and straw incorporation in a saline-sodic soil. Frontiers in Plant Science. 16. 1681651–1681651.
5.
Memon, Sufyan Ali, et al.. (2025). CO2 to Methanol Conversion: A Bibliometric Analysis with Insights into Reaction Mechanisms, and Recent Advances in Catalytic Conversion. Processes. 13(2). 314–314.
6.
Yao, Zhitong, Jie Cui, Jingjing Jiang, et al.. (2025). End-of-life solar panels recycling: Focusing on the kinetic and thermodynamic compensation effects during back sheets pyrolysis. Process Safety and Environmental Protection. 195. 106838–106838.
7.
Jiang, Jingjing, Zhitong Yao, Jie Cui, et al.. (2025). Thermal decomposition of spent lithium-ion batteries pouch: Investigating kinetic and thermodynamic compensation effects. Chemical Engineering Science. 316. 121951–121951.
8.
Farooq, Muhammad Zohaib, Guanyi Chen, Akash Kumar, & Fawei Lin. (2025). Co-pyrolytic valorization and synergistic interactions of waste tire and corn plant stalk: A detailed study on kinetics, thermodynamics attributes, drivers, and mechanistic pathways of pollutants reduction. Journal of Analytical and Applied Pyrolysis. 191. 107202–107202.
9.
Rizwan, Muhammad, et al.. (2025). Controlled hydrothermal carbonization of wood-derived lignin-rich lignocellulose: Redefining pyrolytic pathways to tailored biochar and hydrogen-enriched syngas. Journal of Analytical and Applied Pyrolysis. 192. 107342–107342.
10.
Kumar, Akash, Imtiaz Ali Jamro, Hongwei Rong, et al.. (2024). Assessing bioenergy prospects of algal biomass and yard waste using an integrated hydrothermal carbonization and pyrolysis (HTC–PY): A detailed emission–to–ash characterization via diverse hyphenated analytical techniques and modelling strategies. Chemical Engineering Journal. 492. 152335–152335.
11.
Kumar, Akash, Lata Kumari, Azhar Ali Laghari, et al.. (2024). Exploring the integrated potential of pyrolysis and low-temperature wet torrefaction for typical medical waste valorization: A multifaceted approach leveraging online TG-FTIR-MS, 2D-COS, iso-conversional kinetics, and reaction mechanisms. Chemical Engineering Journal. 499. 156464–156464.
12.
Wang, Jian, Yong‐Jie Hu, Junyu Tao, et al.. (2024). Insights into behaviors of functional groups in biomass derived products during aqueous phase reforming over Ni/α-MoO3 catalysts. Renewable Energy. 224. 120233–120233.
13.
Kumar, Akash, Imtiaz Ali Jamro, Jian Wang, et al.. (2024). Co-pyrolysis of microalgae residue and sewage sludge: An in-depth characterization of kinetics, drivers, and gas-oil-char behaviors. Journal of Analytical and Applied Pyrolysis. 179. 106438–106438.
14.
Farooq, Muhammad Zohaib, et al.. (2024). Kinetic insights and pollution mitigation in waste tire pyrolysis: Targeting sulfur, nitrogen, and PAHs emissions. Journal of Analytical and Applied Pyrolysis. 181. 106626–106626.
15.
Li, Fan, Junyu Tao, Akash Kumar, et al.. (2024). Pyrolysis characteristics and kinetics of waste photovoltaic module: A TG-MS-FTIR study. Journal of Cleaner Production. 444. 141267–141267.
16.
Jamro, Imtiaz Ali, Akash Kumar, Muhammad Ahmad, et al.. (2023). Investigation of optimum H2 production from date palm waste leaves using different modeling tools. International Journal of Hydrogen Energy. 48(57). 21636–21653.
17.
Aborisade, Moses Akintayo, Belay Tafa Oba, Akash Kumar, et al.. (2023). Remediation of soil polluted with Pb and Cd and alleviation of oxidative stress in Brassica rapa plant using nanoscale zerovalent iron supported with coconut-husk biochar. Journal of Plant Physiology. 287. 154023–154023.
18.
Wang, Jian, Junyu Tao, Akash Kumar, et al.. (2023). Ni/MOFs-derived α-MoO3 catalyst for renewable hydrogen production and treatment of biogas slurry by aqueous-phase reforming. Fuel Processing Technology. 245. 107738–107738.
19.
Jamro, Imtiaz Ali, Abdul Raheem, Humair Ahmed Baloch, et al.. (2022). Investigation of enhanced H2 production from municipal solid waste gasification via artificial neural network with data on tar compounds. Journal of Environmental Management. 328. 117014–117014.
20.
Mishra, Archana, Akash Kumar, & Sanjoy Ghosh. (2018). Energy assessment of second generation (2G) ethanol production from wheat straw in Indian scenario. 3 Biotech. 8(3). 142–142.
Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.
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