Senior Lecturer at University of Greenwich, United Kingdom.

Short Biography 📖✨

Dr. Tong Deng (BSc, BEng, MSc, PhD, FHEA) is a distinguished expert in solids erosion, electrostatics, powder segregation, adhesion, and powder flow 🏗️🔬. With over three decades of experience in academia and industry, he serves as a Senior Lecturer and Consultant Engineer at the University of Greenwich 🎓. His extensive research has significantly contributed to industries such as food, pharmaceuticals, and energy ⚡💊. As a mentor, researcher, and educator, he has supervised numerous students and led groundbreaking projects 📚💡. Dr. Deng is a prolific author with 60+ publications, making a lasting impact in his field 📑🌍.

Profile🔍

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Education & Experience 🎓🔍

✅ Doctor of Philosophy (PhD) – University of Greenwich, UK (2001) 🏛️
✅ Master of Science (MSc) in Instrumentation & Analytical Science – University of Manchester (1997) 🧪
✅ Bachelor of Engineering (BEng) in Mechatronics Engineering – Shenyang Ligong University (1992) ⚙️
✅ Bachelor of Science (BSc) in Theoretical Physics – Liaoning University (1987) 🌀

Experience:
📌 Senior Lecturer & Consultant Engineer – University of Greenwich (2014–Present) 🏫
📌 Lecturer & Consultant Engineer – University of Greenwich (2013–2014) 🎓
📌 Research & Consultant Engineer – University of Greenwich (2006–2013) 🧑‍🔬
📌 Research Fellow – University of Greenwich (2001–2006) 📖
📌 Engineer – Shenyang Light Industrial Machinery Co. Ltd, China (1989–1996) 🏭
📌 Teacher – Shenyang Coal Miner’s High School, China (1987–1989) 🎓

Professional Development 🚀📘

Dr. Tong Deng has dedicated his career to advancing research and innovation in bulk solids handling and powder technology 🏗️🔬. A Fellow of the Higher Education Academy (FHEA), he actively contributes to academia through teaching, mentoring, and supervising research students 📚🎓. His collaborations with industries and funding bodies have led to numerous groundbreaking projects in materials processing, electrostatics, and segregation science 💡💰. Dr. Deng also plays a key role in organizing international conferences, reviewing top-tier journals, and delivering professional training courses, ensuring that his expertise benefits both the scientific community and industry leaders globally 🌍🧑‍🏫.

Research Focus 🔬📊

Dr. Deng’s research revolves around the science of bulk solids handling, with a particular focus on solids erosion, electrostatics, powder segregation, adhesion, and powder flow 💨⚡. His work plays a crucial role in optimizing industrial processes for food, pharmaceuticals, minerals, and energy sectors 🌾💊⚡. He investigates particle behavior in flow systems, powder caking, and electrostatic charging to enhance manufacturing efficiency 📈🔍. With extensive funding and industry collaborations, he has developed novel techniques for powder characterization and process optimization. His research directly contributes to improving material handling, reducing energy consumption, and ensuring sustainable industrial practices ♻️🏭.

Awards & Honors 🏆🎖️

🏅 Fellow of the Higher Education Academy (FHEA) – UK (2022) 🎓
🏅 Outstanding Reviewer Award – Particuology Journal (2022-2024) 🏅
🏅 Co-chair of 9th UK-China International Particle Technology Forum – Greenwich (2023) 🌏
🏅 Scientific Advisory Committee Member – 8th UK-China PTF (2021) 🏛️
🏅 Session Chair – CHoPS International Conference (2018) 🎤
🏅 US & UK Patent Contributor – Pneumatic Conveying Feedback Control (2023, 2025) 📜💡

Publications📖

📖 A novel model for hourly PM2.5 concentration prediction based on CART and EELM – Z Shang, T Deng, J He, X Duan | Science of The Total Environment | Cited by: 104 | Year: 2019

⚙️ Effect of particle concentration on erosion rate of mild steel bends in a pneumatic conveyor – T Deng, AR Chaudhry, M Patel, I Hutchings, MSA Bradley | Wear | Cited by: 85 | Year: 2005

🔄 The influence of particle rotation on the solid particle erosion rate of metals – T Deng, MS Bingley, MSA Bradley | Wear | Cited by: 77 | Year: 2004

📏 Influence of particle size, density, particle concentration on bend erosive wear in pneumatic conveyors – R Macchini, MSA Bradley, T Deng | Wear | Cited by: 70 | Year: 2013

🧪 The effect of carbon nanotube orientation on erosive wear resistance of CNT-epoxy based composites – J Chen, IM Hutchings, T Deng, MSA Bradley, KKK Koziol | Carbon | Cited by: 52 | Year: 2014

🔄 Effect of bend orientation on life and puncture point location due to solid particle erosion of a high concentration flow in pneumatic conveyors – T Deng, M Patel, I Hutchings, MSA Bradley | Wear | Cited by: 52 | Year: 2005

📊 Determination of a particle size distribution criterion for predicting dense phase pneumatic conveying behaviour of granular and powder materials – T Deng, M Bradley | Powder Technology | Cited by: 50 | Year: 2016

Conclusion:

Dr. Tong Deng’s exceptional research output, industry collaborations, funding success, and mentorship contributions make him a top candidate for a Best Researcher Award. His work not only advances scientific understanding but also translates into real-world industrial applications, making a lasting impact on multiple sectors. 🚀🏆

Fred Lang | Engineering | Best Researcher Award

Posted on 14/02/202514/02/2025 by ScienceFather

Mr. Fred Lang | Engineering | Best Researcher Award

President at Exergetic Systems Limited, United States

Fred D. Lang, P.E., P.Eng., is a distinguished power plant engineer with over 50 years of experience in energy systems, nuclear safety, and thermal performance monitoring. Renowned across North America and Europe, he has significantly contributed to power plant engineering through software innovation, advanced testing methodologies, and novel monitoring techniques. As the President of Exergetic Systems Limited, he has developed industry-transforming tools for power plant efficiency and safety. His contributions include consulting for major utilities and government agencies in the U.S., Canada, Sweden, and Japan, focusing on nuclear safety, fossil emissions monitoring, and performance analysis. Lang’s expertise spans simulation, plant design, exergy analysis, and fuel efficiency optimization, making him a leader in the energy sector. His commitment to research and technological advancements has led to groundbreaking methodologies that enhance power plant performance and operational safety, earning him a reputation as an innovator in the field.

Professional Profile

Education

Fred D. Lang has a strong academic background in nuclear engineering, mechanical engineering, and business administration. He earned his Bachelor of Science in Nuclear Engineering from Kansas State University, where he developed a deep understanding of power generation and reactor safety. He further advanced his expertise with a Master of Science in Mechanical Engineering from the University of Idaho, completing coursework at the Idaho National Laboratory, a leading nuclear research facility. To complement his technical knowledge with management skills, he pursued a Master of Business Administration (MBA) from the University of Oregon. In addition to his formal degrees, Lang holds several professional certifications, including a California Energy Auditor Certificate (#5872). He is a licensed Professional Engineer (P.E.) in California for mechanical and nuclear engineering and an active P.Eng. in British Columbia (#54236). His diverse educational background has provided him with the expertise to drive innovation in power plant engineering.

Professional Experience

Fred D. Lang has had an illustrious career spanning over five decades in power plant engineering. He is the President of Exergetic Systems Limited, a company specializing in power plant performance monitoring and efficiency solutions. Previously, he founded and led Exergetic Systems, Inc., which for nearly 40 years served major utilities across North America with software and engineering services. Lang is known as the “Father of PEPSE,” a widely used power plant simulation software. His expertise includes thermodynamic analysis, emissions monitoring, and nuclear safety systems. He has conducted hundreds of power plant studies and has been involved in 33 thermal performance evaluation projects, each lasting several months. His professional experience also includes consulting for Babcock & Wilcox, Exxon Nuclear (now Framatome), and government agencies in Sweden and Japan on critical nuclear safety issues. His work has shaped modern approaches to fuel monitoring, efficiency testing, and safety in power generation.

Research Interests

Fred D. Lang’s research focuses on power plant thermodynamics, nuclear safety, emissions monitoring, and exergy analysis. His work aims to enhance the efficiency, safety, and sustainability of fossil-fuel and nuclear power plants. A major area of his research is the development of advanced monitoring techniques, such as the Input/Loss Method, which allows real-time determination of fuel chemistry, calorific value, and heat rate in coal-fired power plants. Another significant contribution is the NCV Method, a groundbreaking approach to nuclear reactor monitoring, neutron flux measurement, and coolant flow analysis, which improves nuclear safety. Lang has also developed innovative instrumentation for emissions testing, heat balance analysis, and fuel efficiency optimization. His research integrates software development, thermodynamic modeling, and real-world application, ensuring that power plants operate more efficiently while reducing environmental impact. His findings have led to significant improvements in plant performance and fuel economy worldwide.

Awards and Honors

Fred D. Lang has received numerous accolades for his contributions to power plant engineering and nuclear safety. He holds 38 patents, including 22 in the U.S. and 16 in Canada, Australia, and Europe, covering innovations in power plant instrumentation, Rankine cycle modifications, and emissions monitoring technologies. His pioneering Input/Loss Method and NCV Method have been recognized as transformative advancements in the energy sector. Lang has been invited by major utilities and government agencies to develop new technologies, including a 2021 invitation to design a novel nuclear plant monitoring system. His software tools, such as PEPSE, EX-FOSS, and THERM, are used by leading power utilities worldwide. In addition to his technical achievements, he has been honored for his mentorship and leadership in the engineering field. His work has redefined power plant efficiency, fuel monitoring, and nuclear safety standards, earning him a reputation as a pioneer in the industry.

Conclusion

Fred D. Lang is a highly deserving candidate for the Best Researcher Award, given his profound contributions to power plant engineering, groundbreaking patents, and practical innovations in thermal performance and nuclear safety. While strengthening academic publications and mentorship efforts could further solidify his influence, his technical advancements have already had a significant impact on the industry. His work represents a paradigm shift in power plant monitoring and nuclear reactor safety, making him a strong contender for this recognition.

Publications Top Noted

Lang, F. D. (Year Unknown). “Verified Knowledge of Nuclear Power Plants Using the NCV Method.” Conference Paper. Citations: 0
Lang, F. D., Mason, D., & Rodgers, D. A. T. (Year Unknown). “Effects on Boiler Efficiency Standards and Computed Coal Flow Given Variable Ambient Oxygen and Humidity.” Conference Paper. Citations: 0

Tong Deng | Mechanical and Process Engineering | Best Researcher Award

Dr. Tong Deng | Mechanical and Process Engineering | Best Researcher Award