Ebenezer Aniyom | Environmental Biotechnology | Best Researcher Award

Published on by Biotechnology Scientist

Ms. Ebenezer Aniyom | Environmental Biotechnology | Best Researcher Award

Graduate Engineer at Hydroserve Oil Services, Nigeria

Engr. Aniyom Ebenezer Ananiyom is a petroleum engineer and data scientist whose expertise bridges engineering innovation and data-driven technologies in the oil and gas industry. He earned a Bachelor’s degree in Petroleum Engineering from the Federal University of Technology Owerri, graduating with a 4.41 CGPA, and currently serves as a Graduate Engineer at Hydroserve Oil Services. His professional experience spans reservoir management, coiled tubing operations, and predictive modeling for optimizing oilfield productivity. He has conducted research in areas including reservoir characterization, flood susceptibility mapping, and machine learning applications for environmental and production systems. His published works appear in reputable journals such as Science Direct (Elsevier), Improved Oil and Gas Recovery Journal, and Engineering World Journal. Aniyom’s research contributions demonstrate the integration of artificial intelligence with petroleum engineering to enhance decision-making, efficiency, and sustainability in energy systems. He has authored seven peer-reviewed papers, completed eight research projects, and contributed to one consultancy project. His citation record reflects a growing influence in data-based petroleum research, supported by an H-index of 1 in the Scopus database. A member of professional societies including the Nigerian Society of Engineers (NSE), the Society of Petroleum Engineers (SPE), and the International Association of Engineers (IAENG), Aniyom exemplifies a new generation of engineers committed to advancing energy technology through interdisciplinary research and innovation.

profile: Google Scholar | Orcid

Featured Publications

Okoli, E. A., Josephine, K. M., Agoha, C. C., Ikoro, D. O., Oyinebielador, D. O., Aniyom, E. E. A., Oladipupo, J. T., & Emenyonu, U. D. (n.d.). Integrated flood susceptibility mapping using machine learning and geospatial techniques: A case study of Imo State, Southeastern Nigeria. Science Direct (Elsevier).

Chikwe, A. O., Aniyom, E. E., & Mbah, S. (n.d.). Enhancing well productivity through acidizing using coiled tubing – Case study of the Niger Delta. Improved Oil and Gas Recovery Journal, 9.

Anyadiegwu, C. I., Okalla, C. E., Kerunwakerunwa, A., Uzor, C. D., Uzohuzoh, J. C., Aniyom, E. E. A., & Dike, C. F. D. (n.d.). Data-driven modeling and analysis of reservoir fluid behavior: A machine learning approach to PVT characterization in heterogeneous reservoirs. Engineering World Journal, 7(11).

Aniyom, E. E., & Chikwe, A. O. (n.d.). Prediction of leak on gas pipeline using a hybrid machine learning model. Improved Oil and Gas Recovery Journal, 9.

Nmesoma, L. W., Aniyom, E. E. A., & Okere, N. (n.d.). Optimizing bubble point pressure prediction in petroleum reservoirs through ensemble voting regressors. Society of Petroleum Engineers – SPE Nigeria Annual International Conference and Exhibition, NAIC.

Chikwe, A. O., Aniyom, E. E. A., Nwanwe, O. I., & Odo, J. E. (n.d.). Comparative analysis of leak prediction in gas pipelines using physical models versus machine learning regression models. Journal of Petroleum and Mining Engineering, 0(0), 1–6.

Ihenetu, V. N., Aniyom, E. E., Jean Claude, W., Ewuzie, U., & Okoli, E. A. (n.d.). Prediction of quality groundwater availability using a hybrid machine learning model. Nigerian Association of Petroleum Explorationists Bulletin.

Aniyom, E. E., Chikwe, A. O., & Odo, J. E. (n.d.). Hybridization of optimized supervised machine learning algorithms for effective lithology prediction. Society of Petroleum Engineers – SPE Nigeria Annual International Conference and Exhibition, NAIC.

Zhiming Mi | Environmental Biotechnology | Best Researcher Award

Published on by Biotechnology Scientist

Dr. Zhiming Mi | Environmental Biotechnology | Best Researcher Award

Lecturer at East China University of Technology | China

Dr. Mi Zhiming is a Lecturer at Donghua University of Technology and an accomplished researcher in the field of Applied Chemistry. His research primarily focuses on the development and application of functional polymer membranes for the enrichment and separation of radioactive isotopes, high-frequency communication substrates, and ultra-high-strength 3D printing photosensitive resins. He obtained his doctoral degree in Applied Chemistry from Jilin University and currently supervises master’s students while leading several research initiatives. Dr. Mi has hosted four enterprise collaboration projects and two Natural Science Foundation projects funded by the Jiangxi Provincial Department of Science and Technology. His research excellence is evident through more than 20 high-impact publications in internationally reputed journals such as Separation and Purification Technology, New Journal of Chemistry, Polymer Testing, and Express Polymer Letters. According to his Scopus profile, Dr. Mi has approximately 230 citations across 21 documents and holds an h-index of 8, reflecting his growing influence in the scientific community. He has also secured over ten national authorized invention patents and earned more than ten awards in innovation and entrepreneurship competitions, demonstrating his strong capability in both academic and applied research. His innovative work in uranium enrichment membranes, asymmetric nanofiltration systems, and sustainable water treatment technologies contributes significantly to advancements in materials science and environmental protection. Through his impactful research, patents, and leadership in academic collaborations, Dr. Mi continues to play a vital role in advancing functional polymer and membrane technology, making him a leading young researcher in his field.

Profile: Orcid

Publication Top Notes

Mi, Z., et al. (2025). Preparation of high-permeance polyester nanofiltration membranes utilizing biobased phloretin derivatives for antibiotic separation. Separation and Purification Technology, 381, Article 134210.

Mi, Z., et al. (2025). UV-assisted fabrication of crosslinked polyacrylic acid membranes embedding phytic acid moiety for efficient uranium enrichment. Separation and Purification Technology, 377, Article 133972.

Mi, Z., et al. (2024). Novel robust hierarchical porous membrane for uranium enrichment: fabrication, degradation behavior, and uranium sorption performance. Separation and Purification Technology, 362, Article 131450.

Mi, Z., et al. (2023). Facile fabrication of a modified polyamide acid porous membrane for uranium enrichment in wastewater. New Journal of Chemistry, 47(15), 6296–6307.

Mi, Z., et al. (2023). Quaternary ammonium salts modification preparing charged Janus nanofiltration membrane for the simultaneous separation of divalent anions and cations. Polymer Testing, 119, Article 107805.