Work with thought leaders and academic experts in Energy Engineering and Power Technology

Companies can greatly benefit from working with experts in Energy Engineering and Power Technology. These professionals have the knowledge and skills to optimize energy systems, improve efficiency, and reduce costs. They can provide valuable insights and solutions for renewable energy projects, grid integration, energy storage, and power generation. By collaborating with academic researchers in this field, companies can stay at the forefront of technological advancements, develop sustainable energy strategies, and gain a competitive edge in the market.

Researchers on NotedSource with backgrounds in Energy Engineering and Power Technology include Dr. Fantai Kong, Ph.D., Zohreh Movahed, IQRAM HUSSAIN, Ph.D., Keisha Walters, Dr.Umud Shokri, and Milad Karimi.

IQRAM HUSSAIN, Ph.D.

New York City, New York, United States of America
Weill Cornell Medicine, Cornell University, NY, USA
Most Relevant Research Expertise
Energy Engineering and Power Technology
Other Research Expertise (33)
Biomedical & Medical Physics
AI (Machine & Deep Learning)
Anesthesiology
Sleep Medicine
Human Gait & brain
And 28 more
About
Iqram Hussain works at the Department of Anesthesiology, Weill Cornell Medicine, Cornell University, NY, USA. Earlier, he was a postdoctoral researcher at the Medical Research Center, Department of Biomedical Engineering, Seoul National University. He pursued a Ph.D. degree in Medical Physics from the University of Science and Technology (UST), South Korea. He worked as a Research Associate with the Korea Research Institute of Standards and Science (KRISS), Daejeon, South Korea. He worked on the Knowledgebase Super Brain (KSB) project at the Electronics and Telecommunication Research Institute (ETRI), Daejeon. He received a B.Sc. degree in mechanical engineering from the Khulna University of Engineering & Technology, Bangladesh, in 2007. He has ten years of work experience in power plant operation and maintenance and power plant project management. His research interests include wearable sleep monitoring, neuroscience, medical physics, human factors, and ergonomics. He has experience in healthcare research, project management, power plant operation, and maintenance. He is a reviewer in IEEE Access, Sensors, Applied Sciences, Biomedical Signal Processing and Control, IEEE Transactions, Science of the Total Environment, Neuroscience Informatics, Brain Sciences, etc. He is a guest editor in special issues of several Journals. Website: https://sites.google.com/view/iqram/home

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Dr.Umud Shokri

washington dc
Senior Visiting Fellow
Most Relevant Research Expertise
Energy Engineering and Power Technology
Other Research Expertise (11)
Energy Diplomacy
Energy Security
Central Asia
Middle East. GCC
Sociology and Political Science
And 6 more
About
Dr. Umud Shokri is a distinguished authority in energy strategy and foreign policy, boasting a Ph.D. in International Relations that underpins his unparalleled expertise in global energy dynamics, climate change, clean energy technologies, energy security, and complex geopolitics. With over two decades of experience in energy security and Geopolitical Risk Intelligence, he has contributed significantly to international relations. As the author of "US Energy Diplomacy in the Caspian Sea Basin: Changing Trends Since 2001," his contributions are substantial.   Dr. Shokri's extensive knowledge encompasses diverse areas. He conducts pioneering research on the energy transition landscape, examining policies, technologies, and market dynamics driving the shift toward clean and renewable energy sources. Additionally, he focuses on the role of critical minerals in renewable energy technologies and the associated geopolitics and supply chain challenges.   At George Mason University, he serves as a senior visiting fellow, sharing his wisdom with future energy and foreign policy leaders. Driven by his passion for renewable energy, he advocates for its transformative potential in addressing climate change. His research also extends to electric vehicles (EVs), where he explores policies, infrastructure, and market dynamics crucial for global EV adoption and sustainable transportation. Beyond energy and climate, Dr. Shokri delves into geopolitics. He analyzes Iranian regional and foreign policy, trade, security, military relations with neighbors, and regional rivalries in the Middle East, offering valuable insights into the impacts of these rivalries across the region.   Furthermore, he provides valuable perspectives on U.S. relations with the Caucasus, Central Asia, GCC, and MENA, enhancing our understanding of global politics and energy security. Dr. Shokri's writings cover various topics, from analyzing politics and economics in oil-rich nations to advocating sustainable urban development and the global transition to clean energy. His influence extends to major news outlets, including The New York Times, Al Jazeera, Liberation, Asharq News, and CNN Arabia.   Driven by the urgency of an energy transition and climate change, he tirelessly promotes clean energy adoption and a sustainable future. In conclusion, Dr. Umud Shokri's legacy is poised to shape clean energy adoption, climate action, and international relations. Through his groundbreaking research, analyses, and unwavering dedication, he paves the way for a greener and more prosperous tomorrow. His impact resonates across academia, policy, and the global community, driving transformative change for years to come.

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Example Energy Engineering and Power Technology projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on Energy Engineering and Power Technology?

Renewable Energy Integration

An academic researcher in Energy Engineering and Power Technology can help companies integrate renewable energy sources into their existing power systems. They can analyze the feasibility, design, and implementation of solar, wind, and hydroelectric power projects. By optimizing the integration process, companies can reduce reliance on fossil fuels, lower carbon emissions, and achieve long-term sustainability goals.

Energy Storage Solutions

Energy storage is a crucial component of modern power systems. Academic researchers in Energy Engineering and Power Technology can assist companies in developing efficient and cost-effective energy storage solutions. They can evaluate different technologies, such as batteries, flywheels, and pumped hydro storage, and provide recommendations based on the specific needs and requirements of the company. By implementing effective energy storage systems, companies can enhance grid stability, improve energy management, and maximize the utilization of renewable energy.

Power Grid Optimization

Academic researchers specializing in Energy Engineering and Power Technology can help companies optimize their power grids. They can analyze the grid infrastructure, identify bottlenecks, and propose solutions to enhance efficiency and reliability. By utilizing advanced modeling and simulation techniques, researchers can optimize power flow, reduce transmission losses, and improve grid resilience. This collaboration can result in significant cost savings, improved grid performance, and better integration of distributed energy resources.

Smart Grid Implementation

Smart grids are revolutionizing the energy sector by enabling real-time monitoring, control, and optimization of power systems. Academic researchers in Energy Engineering and Power Technology can assist companies in implementing smart grid technologies. They can develop algorithms and protocols for efficient energy management, demand response, and grid communication. By adopting smart grid solutions, companies can enhance energy efficiency, reduce operational costs, and enable the integration of renewable energy sources and electric vehicles.

Power Plant Optimization

Academic researchers in Energy Engineering and Power Technology can help companies optimize the performance of power plants. They can analyze the operation and maintenance practices, identify inefficiencies, and propose solutions to improve plant efficiency and reduce emissions. By implementing advanced control strategies, optimizing fuel consumption, and integrating renewable energy technologies, companies can achieve higher power plant efficiency, reduce environmental impact, and enhance overall operational performance.