Md Moinul Alom Shovon | Automobile Engineering | Best Researcher Award

Best Researcher Award

Md Moinul Alom Shovon
Affiliation Green University of Bangladesh
Country Bangladesh
Scopus ID 60611872700
Documents 4
Citations 84
h-index 2
Subject Area Automobile Engineering
Event Global Automobile Award
ORCID 0000-0001-8930-5633

Researcher: Md Moinul Alom Shovon

Institution: Green University of Bangladesh

The Best Researcher Award article presents a scholarly overview of the academic profile of Md Moinul Alom Shovon, affiliated with Green University of Bangladesh. The profile summarizes publicly available scholarly indicators, publication activity, citation performance, and research specialization in Automobile Engineering. The information is presented in a neutral encyclopedic style intended for academic documentation and recognition purposes.[1]

Abstract

This article documents the academic profile of Md Moinul Alom Shovon using publicly available bibliometric indicators, institutional affiliation, and publication records. It summarizes research activity within Automobile Engineering and discusses scholarly output in the context of academic recognition.[1]

Keywords

Automobile Engineering; Academic Research; Bibliometrics; Scopus; Citation Analysis; Research Recognition; Green University of Bangladesh.

Introduction

Academic recognition commonly considers publication quality, citation performance, research visibility, and sustained scholarly engagement. Bibliometric databases provide standardized indicators that assist in evaluating research productivity while complementing expert peer assessment.[2]

Research Profile

Md Moinul Alom Shovon is affiliated with Green University of Bangladesh and has an indexed Scopus author profile (Author ID: 60611872700). According to the supplied profile data, the researcher has 4 indexed documents, 84 citations, and an h-index of 2. The principal research area is Automobile Engineering.[1]

Research Contributions

The available publication record demonstrates participation in scholarly research within the field of Automobile Engineering. Citation activity indicates that published work has been referenced by subsequent academic literature, reflecting measurable scholarly engagement. Bibliometric indicators should be interpreted alongside qualitative assessment of research originality, methodological rigor, and field-specific impact.[2]

Publications

  • Indexed Scopus publications: 4.
  • Research specialization: Automobile Engineering.

Research Impact

Bibliometric indicators show 84 recorded citations and an h-index of 2 based on the supplied Scopus profile. These indicators provide quantitative evidence of scholarly visibility while recognizing that research influence also depends on disciplinary practices, collaboration patterns, and long-term scientific contribution.[1]

Award Suitability

Based on the supplied academic indicators, the researcher demonstrates documented scholarly activity through indexed publications, citation records, and international researcher identifiers. Consideration for recognition such as the Global Automobile Award should additionally include peer review, research quality, innovation, leadership, and the specific eligibility criteria established by the awarding organization.[3]

Conclusion

This academic profile provides a structured summary of publicly available bibliometric information for Md Moinul Alom Shovon. It is intended as an informational overview and should be interpreted together with comprehensive academic evaluation procedures and institutional review.

References

  1. Elsevier. (n.d.). Scopus author details: Md Moinul Alom Shovon, Author ID 60611872700. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=60611872700
  2. Wireless charging for electric vehicles: Navigating environmental trade-offs and infrastructure barriers towards sustainable transportation
    .https://www.researchgate.net/publication/404631706_Wireless_charging_for_electric_vehicles_Navigating_environmental_trade-offs_and_infrastructure_barriers_towards_sustainable_transportation

  3. Solar and wind energy transition towards a net-zero energy future in Asia: Key factors, drivers, challenges, and future pathways.
    https://accept.aseanenergy.org/arnecc-research-data/solar-and-wind-energy-transition-towards-a-net-zero-energy-future-in-asia-key-factors-drivers-challenges-and-future-pathways

  4. Global Automobile Award. (n.d.). Award information.
    https://automobileaward.com

Nashir Umirov | Automobile Awards | Editorial Board Member

Assoc. Prof. Dr. Nashir Umirov | Automobile Engineering | Editorial Board Member

Associate Professor | Tashkent Institute of Irrigation and Agricultural Mechanization Engineers National Research University | Uzbekistan

Assoc. Prof. Dr. Nashir Umirov is an accomplished engineering researcher and academic leader whose work advances the performance, reliability, and thermodynamic behavior of tractors, automobiles, and grain-processing machinery, with a focus on strengthening agricultural mechanization technologies for modern industry. His professional experience spans extensive teaching, research supervision, and applied engineering work, including several years of scientific and editorial engagement that support the development, evaluation, and dissemination of technical innovations. His research interests center on thermal and dynamic properties of vehicles, efficiency enhancement of automotive systems, and the mechanics of grain-crushing processes in industrial crushers, complemented by strong analytical skills in experimental testing, performance modeling, mechanical system optimization, and technology assessment. He has contributed to more than fifteen notable scientific publications and participated in two important research projects aimed at improving agricultural machine operations and advancing environmentally conscious engineering solutions. His research skills include experimental diagnostics, thermal analysis, vibration and dynamic modeling, mechanical system design, and result interpretation for system improvement. Although he is not affiliated with professional societies, he remains an active contributor to engineering scholarship and a committed mentor to emerging specialists. While awards and honors are not listed, his career reflects sustained professional impact and dedication to advancing engineering science. In conclusion, Nashir Umirov continues to enhance the scientific community through consistent research output, practical innovation, and a strong commitment to the evolution of mechanical engineering within the agricultural sector, reflecting the depth of his expertise and the relevance of his contributions to modern mechanization technologies.He has achieved 34 Citations, 14 Documents, 4 h-index.

Profiles:  Google Scholar Scopus | ORCID

Featured Publications 

Umirov, N., Abdurokhmonov, S., Ganiboyeva, E., & Alimova, Z. (2024). Thermal equilibrium of the tractor and vehicle engines’ cooling systems in agriculture technological processes. BIO Web of Conferences, 105, 05020. (5 citations)

Umirov, N., & Abdurokhmonov, S. (2022). On the de-aeration properties of radiators of the cooling system of engines of cars and tractors. Transportation Research Procedia, 63, 149–153. (5 citations)

Alijanov, D., Abdurokhmonov, S., & Umirov, N. (2020). Methods of regulating the work of units at irrigation pumping stations. IOP Conference Series: Materials Science and Engineering, 883(1), 012117. (5 citations)

Li, A., Sultanov, B., Sharipov, Z., & Umirov, N. (2021). Modelling the process of local application of manure under glass crops. IOP Conference Series: Earth and Environmental Science, 868(1), 012008. (4 citations)

Umirov, N., & Abdurokhmonov, S. (2021). Algorithm for calculating finned plate radiators for the cooling system of automobile and tractor engines. IOP Conference Series: Earth and Environmental Science, 868(1), 012002. (3 citations)

Nashir Umirov’s research strengthens agricultural mechanization by improving the thermal stability, efficiency, and reliability of vehicle and engine cooling systems essential for modern farming. His engineering innovations support sustainable agricultural productivity, reduced energy losses, and enhanced performance of critical agro-industrial machinery. His vision contributes to a future where smarter mechanical systems drive global food security and technological resilience.

Shavkatjon Abdurakhmonov | Automobile Engineering | Editorial Board Member

Assoc. Prof. Dr. Shavkatjon Abdurakhmonov | Automobile Engineering | Editorial Board Member

Associate Professor | Tashkent Institute of Irrigation and Agricultural Mechanization Engineers National Research University | Uzbekistan

Dr. Abdurakhmanov Shavkatjon Khasanovich is a distinguished Associate Professor and PhD scholar renowned for his significant contributions to the field of agricultural mechanization and thermal dynamics within mechanical engineering. Currently serving at the Tashkent Institute of Irrigation and Agricultural Mechanization Engineers, National Research University, he has built a strong academic and research foundation focused on advancing the efficiency, performance, and sustainability of agricultural and automotive systems. His research interests span the thermal-dynamic properties of tractors and automobiles, as well as the optimization of grain crushing processes in crushers—critical areas that bridge agricultural engineering with energy efficiency and mechanical innovation. Over his academic career, Dr. Abdurakhmanov has actively participated in four major research projects and has contributed to over twenty peer-reviewed publications, demonstrating a robust commitment to applied research and practical engineering solutions. His professional experience includes teaching, mentoring, and conducting experimental studies on machine performance under varying operational conditions, thereby strengthening the technological framework for modern agricultural systems. With two years of editorial and research review experience, he brings analytical precision and scholarly rigor to the scientific community. His research skills encompass thermodynamic analysis, mechanical system design, process modeling, and equipment optimization for agricultural production. Dr. Abdurakhmanov’s dedication to advancing sustainable mechanization technologies has earned him recognition for his academic excellence and his role in driving innovation within Uzbekistan’s agricultural sector. His ongoing work continues to contribute to the modernization of agricultural machinery and the improvement of energy efficiency in mechanized systems, aligning with global goals for sustainable development and technological advancement.He has achieved 68 citations, 22 documents, 5h-index.

Profiles:  Google Scholar  |  Scopus | ORCID

Featured Publications 

Akhmetov, A., Botirov, R., & Abdurokhmonov, S. (2020). Mechanism for changing the rear axle clearance of a universal-tiller tractor. IOP Conference Series: Materials Science and Engineering, 883(1), 012125.

Umirov, N., Abdurokhmonov, S., Ganiboyeva, E., & Alimova, Z. (2024). Thermal equilibrium of the tractor and vehicle engines’ cooling systems in agriculture technological processes. BIO Web of Conferences, 105, 05020.

Umirov, N., & Abdurokhmonov, S. (2022). On the de-aeration properties of radiators of the cooling system of engines of cars and tractors. Transportation Research Procedia, 63, 149–153.

Abdurokhmonov, S., Alijanov, D., & Ismaylov, K. (2020). Forces affecting the grain movement in the working chamber of the rotary crusher. IOP Conference Series: Earth and Environmental Science, 614(1), 012110.

Alijanov, D., Abdurokhmonov, S., & Umirov, N. (2020). Methods of regulating the work of units at irrigation pumping stations. IOP Conference Series: Materials Science and Engineering, 883(1), 012117.

 

Dr. Abdurakhmanov Shavkatjon Khasanovich advances the understanding of thermal and mechanical processes in agricultural and automotive systems, contributing to improved efficiency and sustainability in machinery design. His work bridges engineering innovation with practical agricultural applications, enhancing productivity while reducing environmental impact—supporting global progress toward smarter, energy-efficient mechanization