Yanhong Wang | Energy chemical Engineering | Best Researcher Award

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Dr. Yanhong Wang | Energy chemical Engineering | Best Researcher Award

Associate researcher at South China University of Technology, China

Yanhong Wang is a doctoral supervisor in the Department of Chemistry and Chemical Engineering at South China University of Technology. With an extensive academic background and expertise, she has contributed significantly to the fields of hydrogen storage, CO₂ capture, and natural gas hydrate exploration. Dr. Wang’s innovative research focuses on energy conservation technologies and advanced materials. She has been part of numerous national and international projects and authored high-impact publications in esteemed journals. Her work has garnered recognition for its application to sustainable energy solutions.

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🎓 Education 

Bachelor’s Degree: Chemical Engineering, Tianjin University (1997.09-2001.07). Master’s Degree: Chemical Engineering, Tianjin University (2003.09-2005.07). PhD: Environmental Chemical Engineering, Tianjin University (2005.07-2008.07)

🏢 Experience 

Assistant Professor: South China University of Technology (2008.07-2013.08). Visiting Scholar: Colorado School of Mines (2017.09-2018.09). Associate Researcher: South China University of Technology (2013.08-Present)

🏆 Awards & Honors 

Dr. Wang has received multiple honors for her innovative research, including recognition from national foundations for her groundbreaking contributions to energy and environmental science.

🔬 Research Focus 

Hydrogen storage materials and technology. CO₂ capture and storage systems. Exploration of natural gas hydrates. Energy conservation methodologies

Conclusion

Yanhong Wang is a highly qualified candidate for the Best Researcher Award due to their extensive contributions to energy and environmental chemical engineering. Their innovative research in hydrogen storage, CO2 capture, and natural gas hydrate exploration addresses critical challenges in energy sustainability. With a solid academic and professional foundation, Dr. Wang’s expertise and leadership stand out. Strengthening the profile through highlighted publications, international collaborations, and showcasing impactful results will make them a top contender for the award.

📚Publications 

  1. Hydrate phase equilibrium of hydrogen with THP, DCM, TBAB+THF, and sulfur hexafluoride +TBAB aqueous solution systems
    • Journal: Fluid Phase Equilibria
    • Year: 2025
    • Volume: 590
    • Article: 114282
    • Authors: Wang, Y.; Chen, S.; Li, X.; Li, G.; Fan, S.

 

  1. Enhanced methane hydrate formation through lignocellulose fiber
    • Journal: Fuel
    • Year: 2025
    • Volume: 380
    • Article: 133194
    • Authors: Zhang, Y.; Fan, S.; Wang, Y.; Lang, X.; Li, G.

 

  1. Facile synthesis and mechanistic insights into ZSM-5 aggregates via a mesoporogen-free route
    • Journal: Journal of Solid State Chemistry
    • Year: 2025
    • Volume: 341
    • Article: 125078
    • Authors: Ye, F.; Fan, S.; Lang, X.; Lv, Y.; Li, G.

 

  1. Intriguing phenomenon of hydrogen molecules occupancy in clathrate hydrate cages: Implications for hydrogen storage
    • Journal: Chemical Engineering Journal
    • Year: 2024
    • Volume: 499
    • Article: 156089
    • Authors: Chen, S.; Wang, Y.; Fan, S.; Lang, X.; Li, G.

 

  1. Organic template residues confined in silicalite-1 zeolite membranes for tuning pore structures and boosting H2/CO2 separation
    • Journal: Separation and Purification Technology
    • Year: 2024
    • Volume: 346
    • Article: 127362
    • Authors: Ye, F.; Fan, S.; Lang, X.; Wang, Y.; Li, G.

 

  1. Hydrate Formation and Dissociation of Liquid CO2 with Seawater Containing Organic Matters in Sand
    • Journal: Energy and Fuels
    • Year: 2024
    • Volume: 38(18)
    • Pages: 17750–17760
    • Authors: Liu, F.; Wang, Y.; Lang, X.; Li, G.; Fan, S.

 

  1. Insights of kaolinite surface and salt ions on the formation of carbon dioxide hydrates in confined nanopore: A molecular dynamics simulation study
    • Journal: Gas Science and Engineering
    • Year: 2024
    • Volume: 129
    • Article: 205390
    • Authors: Fan, S.; Wu, S.; Lang, X.; Wang, Y.; Li, G.

 

  1. Heterogeneous nucleation of CO2 hydrate: A thermodynamics analysis considering effects of wall characteristics and solution activity
    • Journal: International Journal of Heat and Mass Transfer
    • Year: 2024
    • Volume: 224
    • Article: 125285
    • Authors: Li, M.; Fan, S.; Wang, Y.; Lang, X.; Cheng, P.

 

  1. Design and Optimization of Carbon Dioxide Storage Technology: Energy Efficiency and Economic Analysis
    • Journal: Energy and Fuels
    • Year: 2024
    • Volume: 38(8)
    • Pages: 7108–7120
    • Authors: Xu, Z.; Lang, X.; Fan, S.; Li, G.; Wang, Y.

 

Yujie Bai | Oil-gas field | Young Scientist Award

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 Dr. Yujie Bai | Oil-gas field | Young Scientist Award

Dr. northeast petroleum university, China

👩‍🔬 Dr. Yujie Bai is a visionary in Petroleum and Natural Gas Engineering, graduating with a Doctorate from Northeast Petroleum University in 2021. Their pioneering research in chemical flooding for oil and gas recovery has earned them accolades, including the China Petroleum and Chemical Automation Association Technical Invention First Prize in 2024. With over 50 published papers and 20 patents, they’ve made significant contributions to the field. Their innovative work in synthesizing nanoparticles from acidizing flowback fluids has revolutionized oil recovery methods, showcasing a commitment to excellence and innovation in the industry.🌟

Profile

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Orcid

 

Education, Experience, and Academic Achievements

🎓 Graduating from Northeast Petroleum University in June 2021 with a Doctorate in Petroleum and Natural Gas Engineering, I embarked on a journey fueled by a passion for innovation and advancement in the oil and gas industry.

🔬 In 2021, I commenced my professional career, focusing primarily on pioneering research in chemical flooding to enhance oil and gas recovery methods. I proposed a groundbreaking technical method for extracting nano flooding systems from oil well-produced liquid, substantiating its feasibility through rigorous testing.

💡 My research delved deep into the micro-interaction characteristics among various elements within porous media, including oil phase, water phase, rock formations, and nano-displacement systems. This exploration led to the establishment of a novel quantitative characterization method for emulsification rates, shedding light on the micro-seepage mechanisms of multiphase fluids in porous media.

🏆 Over the years, I have demonstrated leadership by spearheading four significant scientific research projects and contributing as a core member to one National Natural Science Foundation and two national science and technology major projects. My contributions have been recognized through the publication of over 50 papers, with 30 indexed by SCI, and the acquisition of 20 authorized invention patents.

🌟 In 2024, my dedication and ingenuity were honored with the prestigious China Petroleum and Chemical Automation Association Technical Invention First Prize, reaffirming my commitment to excellence and innovation in the field.

Contributions to Research & Development, Innovations, and Extension Activities 🚀

My involvement in research and development has been instrumental in exploring innovative solutions for the treatment of produced water and enhancing oil recovery processes. A notable contribution stems from the utilization of silicates found in flowback fluids from acidizing oil wells as raw materials for synthesizing nanomaterials.

Using the sol-gel method, we successfully synthesized nanomaterials from acidizing flowback fluids and meticulously optimized reaction conditions. Comprehensive assessments of interfacial tension, wetting angle, and surface tension were conducted, providing crucial insights into the solution’s properties.

In-depth investigations, including displacement efficiency tests and flooding experiments in two-dimensional flat cores, unveiled the mechanisms underlying enhanced oil recovery facilitated by nanoparticles. Our findings demonstrated that nanoparticles with a diameter of 351 nm could be effectively extracted and synthesized from acidizing flowback solutions at low pH levels.

The synthesized nanoparticles exhibited remarkable properties, altering interfacial properties between oil and water, thus enhancing recovery rates. At an injection concentration of 300 mg/L, significant reductions in water cut, up to 27.16%, were achieved, with subsequent water flooding yielding a recovery rate of 32.25%.

By advocating for the strategic elevation of nanoparticle injection concentrations derived from acidizing flowback fluids, we have paved the way for efficient oil and gas resource development. Our research outcomes not only present a novel method for treating oilfield wastewater but also offer promising avenues for advancing oil recovery technologies. 🌊🛢️🔬

Publications Top Notes 📝

  1. Title: “Experimental study on the influence of clay particles on the stability of heavy oil emulsions and explanation of the influencing mechanism”
    • Journal: Energy Sources, Part A: Recovery, Utilization, and Environmental Effects
    • Year: 2024
    • DOI: 10.1080/15567036.2024.2320756
    • Contributors: Dan Li; Huifen Xia; Guangsheng Cao; Ning Zhang; Yujie Bai; Ying Liu; Zihang Zhang; Yuyang Du

 

  1. Title: “Unstable Coalescence Mechanism and Influencing Factors of Heterogeneous Oil Droplets”
    • Journal: Molecules
    • Year: 2024
    • DOI: 10.3390/molecules29071582
    • Contributors: Zhuolun Li; Xiayi Huang; Xuenan Xu; Yujie Bai; Che Zou

 

  1. Title: “The Effect of Crude Oil Stripped by Surfactant Action and Fluid Free Motion Characteristics in Porous Medium”
    • Journal: Molecules
    • Year: 2024
    • DOI: 10.3390/molecules29020288
    • Contributors: Qingchao Cheng; Guangsheng Cao; Yujie Bai; Ying Liu

 

  1. Title: “Permeability Enhancement Mechanism of Acidizing in Steam-Assisted Gravity Flooding Wells”
    • Journal: Processes
    • Year: 2023
    • DOI: 10.3390/pr11103004
    • Contributors: Ming Yu; Chao Xu; Yujie Bai; Che Zou; Weibo Liu; Guangsheng Cao; Xi Yi; Jing Zhang

 

  1. Title: “Probing the Demulsification Mechanism of Emulsion with SPAN Series Based on the Effect of Solid Phase Particles”
    • Journal: Molecules
    • Year: 2023
    • DOI: 10.3390/molecules28073261
    • Contributors: Qingchao Cheng; Guangsheng Cao; Yujie Bai; Zhixuan Zhu; Ning Zhang; Dongju Li

 

  1. Title: “Optimization of Anti-Plugging Working Parameters for Alternating Injection Wells of Carbon Dioxide and Water”
    • Journal: Processes
    • Year: 2022
    • DOI: 10.3390/pr10112447
    • Contributors: Kemin Li; Guangsheng Cao; Gaojun Shan; Ning Zhang; Xincheng Liu; Shengbo Zhai; Yujie Bai

 

  1. Title: “Preparation and Optimization of Modified Asphalt by Profile Control Parameters at Lamadian Oilfield”
    • Journal: Processes
    • Year: 2022
    • DOI: 10.3390/pr10101917
    • Contributors: Qing Luo; Kemin Li; Gaojun Shan; Guangsheng Cao; Yujie Bai; Ning Zhang; Jiajun Wu

 

  1. Title: “Construction of sulfur-free gel breaker agent system and investigation on gel-breaking mechanism for association fracturing fluid”
    • Journal: Energy Sources, Part A: Recovery, Utilization, and Environmental Effects
    • Year: 2022
    • DOI: 10.1080/15567036.2022.2083272
    • Contributors: Zhe Wang; Guangsheng Cao; Yujie Bai; Peilun Wang; Xin Wang; Xincheng Liu; Dan Li

 

  1. Title: “Study on migration characteristics of oil gas water three-phase interface and distribution law of remaining oil in gas cap edge water reservoir”
    • Journal: Energy Sources, Part A: Recovery, Utilization, and Environmental Effects
    • Year: 2022
    • DOI: 10.1080/15567036.2022.2090642
    • Contributors: Guangsheng Cao; Jiajun Wu; Ning Zhang; Yu Sui; Yujie Bai