Chaohe Zheng | carbon capture| Best Researcher Award

Mr.Chaohe Zheng | carbon capture| Best Researcher Award

Chaohe Zheng is an Assistant Professor at the School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China. He earned his Ph.D. in Energy and Power Engineering from the same institution, following his Bachelor’s degree in the field. His research primarily focuses on computational dynamics, molecular dynamics, quantum dynamics, carbon capture and utilization, and chemical looping technologies.

Profiles

scopus

πŸ†Β Major Accomplishments

Throughout his career, Chaohe Zheng has made significant contributions to the field of energy engineering. He is renowned for developing multi-scale kinetic models essential for advancing chemical looping technologies. His work extends beyond academia, as he actively collaborates with industry leaders such as Petrochina and Sinosteel to implement these innovations. Notably, he played a pivotal role in the development and operation of the world’s largest 4 MWth natural gas chemical looping combustion demonstration device. His research also spearheaded advancements in oxygen carrier technology, crucial for enhancing efficiency and reducing environmental impact in chemical looping combustion processes.

πŸ“–Β Publication Highlights

Chaohe Zheng has authored 24 SCI papers, including cover papers in prestigious journals like Proceedings of the Combustion Institute and Fuel. His publications have garnered considerable attention, reflected in an H-index of 11 and over 361 citations. His research is dedicated to exploring low-carbon combustion strategies and the utilization of negative carbon technologies.

πŸ”Β Journal Experience

Chaohe Zheng serves as an editor for IgMin-Research-STEM and actively contributes as a peer reviewer for esteemed journals such as Proceedings of the Combustion Institute, Physics of Fluids, and Energy & Fuel. His editorial contributions underscore his commitment to advancing scientific discourse and innovation in energy and power engineering.

πŸ“šΒ Education and Research Highlights

In addition to his academic achievements, Chaohe Zheng has developed industrial-scale solutions for chemical looping combustion and waste treatment. His research innovations have significantly influenced the design and operational strategies of oxygen carriers, enhancing their performance and longevity while minimizing environmental impact.

Publications

Long-Term performance of composite Cu-Fe ore oxygen carrier by Extrusion-Spheronization in chemical looping combustion

Authors: Xiong, K., Kuang, C., Tang, Q., Cheng, J., Zhao, H.

Journal: Fuel, 2024, 372, 132260

Inexpensive composite copper ore/red mud oxygen carrier: Industrial granulation via hydroforming and multiple-cycle evaluation in chemical looping combustion

Authors: Wang, P., Bu, H., Liu, X., Ma, J., Zhao, H.

Journal: Fuel, 2024, 365, 131271

Industrial-Scale Preparation of Biore Oxygen Carriers for Chemical Looping Combustion via a Hydroforming Method

Authors: Liu, X., Bu, H., Zou, G., Ma, J., Zhao, H.

Journal: Energy and Fuels, 2024, 38(7), pp. 6156–6170

Identification of HCl corrosion mechanism on Cu-based oxygen carriers in chemical looping combustion

Authors: Ma, J., Huang, H., Zheng, C., Xu, G., Zhao, H.

Journal: Fuel, 2024, 359, 130373

Sodium doped SrTi1-xBxO3 (B[dbnd]Mn, Co) for formaldehyde catalytic oxidation: Flame spray pyrolysis fabrication and reaction mechanism elaboration

Authors: Yuan, X., Zheng, C., Zhang, T., Yang, Q., Zhao, H.

Journal: Fuel Processing Technology, 2023, 247, 107763

CrOx/Ce1βˆ’xZrxO2 for chemical looping propane oxidative dehydrogenation: The redox interaction between CrOx and the support

Authors: Chen, X., Tian, X., Zheng, C., Zhao, H.

Journal: Chemical Engineering Science, 2023, 274, 118697

The intrinsic kinetic study on oxidation of a Cu-based oxygen carrier in chemical looping combustion

Authors: Zheng, C., Su, M., Zhao, H.

Journal: Fuel, 2023, 334, 126720

The competition/inhibition effect of H2O/CO2-char gasification in typical in situ gasification-chemical looping combustion (iG-CLC) conditions via particle-resolved simulation

Authors: Zheng, C., Zheng, C., Su, M., Zhao, H.

Journal: Fuel, 2023, 333, 126316

The synergic removal mechanism for photothermocatalytic toluene over single-atom Pt/TiO2 catalysts via flame spray pyrolysis

Authors: Yuan, X., Zheng, C., Xu, Z., Luo, X., Zhao, H.

Journal: Proceedings of the Combustion Institute, 2023, 39(4), pp. 5637–5645

Microscopic insight into catalytic HCN removal over the CuO surface in chemical looping combustion

Authors: Zheng, C., Ma, J., Yang, Q., Luo, X., Zhao, H.

Journal: Proceedings of the Combustion Institute, 2023, 39(4), pp. 4457–4466

 

Grace Taiwo | Hydrogen Storage| Women Researcher Award

Mr.Grace Taiwo | Hydrogen Storage| Women Researcher Award

Grace Oluwakemisola Taiwo is a seasoned geoscientist with over a decade of expertise in the Niger Delta and Dahomey Basins, Nigeria. Currently pursuing a PhD at the University of North Dakota, her research focuses on sedimentology in the Williston Basin. She excels in seismic interpretation, well log correlation, and reservoir characterization, contributing to integrated well planning and field development. Grace thrives in multicultural environments, demonstrating strong teamwork and communication skills. Her career highlights include significant contributions to gas production enhancement and geological evaluations across various oil and gas projects, showcasing her leadership in geoscience and commitment to continuous professional growth.

Profiles

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🌟 Professional Profile 

I am a dedicated geoscientist with over a decade of extensive experience in the Niger Delta and Dahomey Basins, Nigeria. Currently, I am pursuing a PhD focused on sedimentology in the Williston Basin, leveraging my expertise in seismic interpretation, well log correlation, reservoir characterization, and integrated well planning.

πŸ› οΈ Areas of ExpertiseΒ 

Seismic Interpretation & Attribute Mapping:Β Proficient in analyzing seismic data to map subsurface structures and properties.Β Well Logs Correlation and Interpretation:Β Skilled in integrating well log data to understand geological formations and reservoir characteristics.Β Reservoir Characterization for Storage Feasibility:Β Experienced in assessing reservoirs for optimal resource extraction and storage capabilities.Β Integrated Well Planning and Field Development:Β Expertise in planning and executing well operations to maximize efficiency and productivity.Β Williston Basin and Niger Delta Experience:Β In-depth knowledge of geological settings and challenges in these key oil-producing regions.Β Excellent Communication & Presentation Skills:Β Strong ability to convey complex geological concepts effectively to diverse audiences.

πŸŽ“Β Academic Pursuits

PhD Candidate, University of North Dakota (Expected 2024). MSc. Petroleum Geology/Sedimentology, University of Ibadan. Graduate Diploma in Petroleum Geoscience, Institute Francais du Petrole (IFP Training). B.Sc. Hons. Geology, University of Ado Ekiti

 🌐Professional Experience 

NPDC/NDW OML 34 AMT: Led initiatives to increase gas production through geoscience data reprocessing and strategic well planning.. ND Western Limited: Managed appraisal and development well planning projects.. Petrobras Nigeria Limited: Conducted 3D seismic mapping and shallow hazard analysis for offshore operations.

Β πŸ†Leadership & AwardsΒ 

Vice President, University of North Dakota AAPG Student Chapter. Vice President, Colorado State University AAPG Student Chapter. Deputy Coordinator, Nigerian Association of Petroleum Explorationists (NAPE), Warri Chapter. Recipient of multiple scholarships and awards in geology and leadership.

Publications

 

 

Neelima Singh–Photovoltaics- Best Researcher Award –Winner

Congratulations to Neelima Singh–Photovoltaics- Best ResearcherΒ  – Award Winner 2023

Neelima Singh-Photovoltaics

professional profile:

Early Academic Pursuits:

Neelima Singh pursued her early academic endeavors at National Institute of Technology, Sikkim, where she demonstrated exceptional dedication and aptitude in her studies. Her academic journey laid the foundation for her future achievements and contributions in the field of technology.

Professional Endeavors:

Building on her academic success, Neelima Singh embarked on a journey of professional endeavors. Her commitment to excellence and passion for technology led her to make significant contributions in her chosen field. Her professional experiences reflect a strong work ethic and a determination to make a positive impact.

Contributions and Research Focus:

Neelima Singh's contributions to the field of technology are marked by a focused research agenda. She has demonstrated a keen interest in areas such as Photovoltaics, making noteworthy contributions that have advanced the understanding and application of technology in her domain.

Accolades and Recognition:

Neelima Singh's achievements have not gone unnoticed, as she has garnered accolades and recognition for her outstanding contributions. These acknowledgments serve as a testament to her dedication and expertise in her field, further establishing her as a notable figure in the technological landscape.

Impact and Influence:

Neelima Singh's work has had a tangible impact on the technological community. Her research and initiatives have influenced the way we perceive and utilize technology in Photovoltaics. Her ability to create positive change through her work sets her apart as a thought leader in her field.

Legacy and Future Contributions:

Neelima Singh's legacy is characterized by a commitment to pushing the boundaries of technological innovation. As she continues to make strides in her career, it is evident that her contributions will have a lasting impact on the field. Her dedication to advancing technology and inspiring future generations positions her as a trailblazer with a promising legacy.

Future Contributions Highlight:

Looking ahead, Neelima Singh remains poised to make even greater contributions to the technological landscape. Her vision for the future involves Photovoltaics, indicating a continued commitment to advancing technology for the betterment of society.

Notable Publication:

Numerical Analysis of Lead-free Methyl Ammonium Tin Halide Perovskite Solar Cell 130033, 2020

Computational analysis of cesium based inorganic perovskite solar cell using SCAPS 1D. 2265, 030672 (2020)

Performance evaluation of lead-free double-perovskite solar cell. April 2021, 110964 (49)

Study the Effect of Band Offsets on the Performance of Lead-Free Double Perovskite Solar Cell. Β March 2022, 112112 (10)

Highly efficient lead-free ethyl ammonium substituted perovskite solar cell simulated using SCAPS 1D. Β March 2024, 111834 (43)

Ayyadurai Saravanakumar- Bioenergy- Best Researcher – Award Winner 2023πŸ†

Congratulations toΒ Ayyadurai Saravanakumar- Bioenergy- Best ResearcherΒ  - Award Winner 2023πŸ†

Dr. Ayyadurai Saravanakumar:

Dr. Ayyadurai Saravanakumar, born on May 6, 1977, began his academic journey with a Bachelor's degree in Physics from Jayaraj Chelladurai College, Madurai Kamaraj Universityacademic achievements culminated in a Ph.D. in Energy from Madurai Kamaraj University in 2008. His doctoral research was supported by the National Renewable Energy Fellowship program, spanning from Junior Research Fellowship (JRF) from 2000 to 2003 to Senior Research Fellowship (SRF) from 2003 to 2006. This program was sponsored by the Ministry of New and Renewable Energy, Government of India, through the Centre for Energy Studies at IIT Delhi

professional profile:

Early Academic Pursuits

Dr. Ayyadurai Saravanakumar embarked on his academic journey by obtaining a Ph.D. in Energy in 2008 from Madurai Kamaraj University. His doctoral research was sponsored by the National Renewable Energy Fellowship program from 2000 to 2006, a commendable tenure that laid the foundation for his expertise in bio-energy.

Professional Endeavors

With a total working experience of 20 years and 10 months, Dr. Saravanakumar has a diverse professional background. His recent role is as an Assistant Professor at the Centre for Research in Environment, Sustainability, Advocacy, and Climate Change (REACH) at SRM Institute of Science and Technology, where he has been contributing since August 2020.

Contributions and Research Focus

Dr. Saravanakumar's extensive research experience spans various organizations and roles, including research positions in Biomass Energy R&D, Renewable Energy R&D, and Bio-Energy R&D. His research focuses on Biomass Gasification Technologies, Biomass to Charcoal conversion technologies, and Computational modeling of long stick wood gasifiers.

Accolades and Recognition

Throughout his career, Dr. Saravanakumar has earned recognition for his work, as evidenced by a patent granted for a Gasifier and a Process for Production of Producer Gas. He has also published numerous papers in international journals and presented at both national and international conferences.

Impact and Influence

His work has practical applications, evident in projects like the 2MWth and 1MWth Biomass Gasifier Project, showcasing his dedication to sustainable energy solutions. Additionally, his computational models contribute to evaluating the anticipated performance characteristics of gasifiers.

Legacy and Future Contributions

Dr. Saravanakumar's legacy includes significant contributions to the field of bio-energy and renewable technologies. With a rich academic, research, and teaching background, his future contributions are likely to further advance sustainable solutions in the realm of energy and environmental studies.

Notable Publication:

Experimental investigation and modelling study of long stick wood gasification in a top lit updraft fixed bed gasifier

Pyrolysis of lignocellulosic, algal, plastic, and other biomass wastes for biofuel production and circular bioeconomy: A review of thermogravimetric analysis (TGA) approach

Experimental investigations of long stick wood gasification in a bottom lit updraft fixed bed gasifier

Flaming pyrolysis model of the fixed bed cross draft long-stick wood gasifier

Numerical modelling of a fixed bed updraft long stick wood gasifier

Mass and energy analysis of a 60Β kWthΒ updraft gasifier using large size biomass

Operation and modelling of an updraft long-stick wood gasifier

Pilot-scale study on downdraft gasification of municipal solid waste with mass and energy balance analysis

For Waste to Energy, Assessment of Fluff Type Solid Refuse Fuel by Thermal Characteristics Analyses

Experimental investigations on sugarcane bagasse pyrolytic oil production from flash pyrolysis using a rotary screw reactor

Murali Mohan Seepana- Sustainable energy and Wastewater treatment- Best ResearcherΒ  – Award Winner 2023

Congratulations toΒ 

Dr. Murali Mohan Seepana:

Dr. Murali Mohan Seepana, Associate Professor in the Department of Chemical Engineering at the National Institute of Technology, Warangal, has been honored with the prestigious Best Researcher Award. This recognition is a testament to his outstanding contributions to the field of Chemical Engineering and his impactful research endeavors.

professional profile:

Early Academic Pursuits:

Dr. Murali Mohan Seepana embarked on his academic journey with a profound focus on Chemical Engineering. He completed his B. Tech in Chemical Engineering from JNTU Hyderabad in 2006, achieving a commendable first-class performance with a score of 69.76%. Subsequently, he pursued his M.Tech in Chemical Engineering at IIT Delhi, graduating in 2009 with a noteworthy CGPA of 8.13/10. His academic prowess culminated in a Ph.D. in Chemical Engineering from IIT Delhi in 2013, with a remarkable CGPA of 9/10 in coursework. His doctoral thesis, titled "Synthesis and Characterization of Ion-Exchange Membrane for Vanadium Redox Flow Battery," showcased early signs of his expertise in cutting-edge research.

Professional Endeavors:

Dr. Murali Mohan Seepana has demonstrated a longstanding commitment to academia and research. He assumed the role of Assistant Professor at the National Institute of Technology, Warangal, in October 2013. Over nearly a decade, his academic journey ascended, culminating in his current position as an Associate Professor since July 2022.

Contributions and Research Focus:

His research interests span across critical areas such as Flow Batteries & Fuel Cells, Membrane synthesis, Characterization, and Wastewater Treatment. Dr. Seepana's notable contributions include spearheading various projects, such as the Royal Society international exchanges focused on tackling textile pollution, a Scheme for Promotion of Academic and Research Collaboration (SPARC) international collaborative project on hydrogen redox flow battery development, and a pilot-scale Hybrid Wastewater Treatment System.

Accolades and Recognition:

The pinnacle of Dr. Murali Mohan Seepana's career includes the Best Researcher Award conferred by the National Institute of Technology, Warangal. This prestigious accolade stands as a testament to his exemplary contributions and dedication to advancing knowledge in the field of Chemical Engineering.

Impact and Influence:

Dr. Seepana's impact extends beyond his immediate academic community. Through his guidance and mentorship, he has successfully supervised and mentored several Ph.D. and M.Tech students, contributing to the growth of budding researchers in the field.

Legacy and Future Contributions:

While Dr. Seepana has already left an indelible mark with his research achievements and the Best Researcher Award, his legacy continues to unfold. The recognition serves as both a celebration of his past accomplishments and a testament to the promising trajectory of his future contributions in the realm of Chemical Engineering. His dedication to research, innovative projects, and mentorship positions him as a leader in the academic and research community, with a promising legacy and ongoing impact.

Notable Publication:

Zirconium phosphate based proton conducting membrane for DMFC application

A review on recent advances in the application of biosurfactants in wastewater treatment

Synthesis of highly stable PTFE-ZrP-PVA composite membrane for high-temperature direct methanol fuel cell

Design of control strategies for nutrient removal in a biological wastewater treatment process

Sustainable development with renewable energy resources: a review

A novel robust Virtual Reference Feedback Tuning approach for minimum and non-minimum phase systems

Synthesis of (Si-PWA)-PVA/PTFE high-temperature proton-conducting composite membrane for DMFC

Design of fractional order PID controller using genetic algorithm optimization technique for nonlinear system

Supervisory control configurations design for nitrogen and phosphorus removal in wastewater treatment plants

Synthesis and characterization of PWA based inorganic ion-exchange membrane