Claudio Albuquerque Frate – Renewable Energy – Research Excellence in Civil and Environmental Engineering Award

Published on by Civil Engineering

Claudio Albuquerque Frate - Renewable Energy - Research Excellence in Civil and Environmental Engineering Award

Federal University of Ceará - Brazil

AUTHOR PROFILE

ORCID

EXPERT IN DECENTRALIZED RENEWABLE ENERGY SYSTEMS

Claudio Albuquerque Frate's research focuses on decentralized renewable energy systems and their complex interactions with institutions, society, and nature. His work emphasizes the integration of low-carbon technologies using quali-quantitative methods to address diverse research questions.

PHOTOVOLTAIC SYSTEMS IN BRAZIL

Frate has extensively studied the adoption of photovoltaic systems in multi-unit buildings, examining agents' rationalities for supporting distributed generation diffusion in Brazil. His 2024 publication in Energy Policy highlights key factors influencing the spread of renewable energy in urban settings.

INLAND WATERWAY TRANSPORT

Another significant area of Frate's research is the development of inland waterway transport, particularly in the Brazilian Amazon. His 2023 Q-Method study on the Tocantins River, published in Case Studies on Transport Policy, explores sustainable transport solutions in this ecologically sensitive region.

TECHNO-ECONOMIC ANALYSIS OF RENEWABLE ENERGY

Frate's techno-economic analysis of PV-wind-battery systems for remote communities, such as his 2020 case study in Haiti published in Case Studies in Chemical and Environmental Engineering, provides insights into the feasibility and impact of renewable energy solutions in isolated areas.

CARBON PAYBACK AND PHOTOVOLTAIC POWER

In his 2020 article in Utilities Policy, Frate conducted a sensitivity analysis of the carbon payback time for a Brazilian photovoltaic power plant. This research underscores the environmental benefits and sustainability metrics of solar energy projects.

JUSTICE IN WIND POWER DEVELOPMENT

Frate has also explored procedural and distributive justice in the context of wind power development. His 2019 study in Energy Policy examines the subjective experiences and perceptions of local communities in Rio Grande do Norte, Brazil, regarding wind energy projects.

BARRIERS TO LARGE-SCALE RENEWABLE ENERGY

Understanding stakeholder perspectives on barriers to the adoption of large-scale renewable energy is another key focus of Frate's research. His 2019 and 2017 studies in Energies and Energy Policy, respectively, use Q-Method to reveal the challenges and drivers in the introduction of wind and solar power in Brazil.

ETHANOL AND AGRARIAN REFORM IN BRAZIL

Frate has investigated the social implications of Brazil's ethanol production ambitions on agrarian reform goals. His work highlights the complex interplay between biofuel policies and social equity, providing a nuanced understanding of sustainable development in the agricultural sector.

Momen Mousa – Construction Materials – Best Researcher Award

Published on by Civil Engineering

Momen Mousa - Construction Materials - Best Researcher Award

Sam Houston State University - United States

AUTHOR PROFILE

SCOPUS

ASSISTANT PROFESSOR OF CONSTRUCTION MANAGEMENT

Momen Mousa is an esteemed Assistant Professor at Sam Houston State University, specializing in construction management. With over a decade of experience, he focuses on transportation engineering and construction materials, utilizing experimental testing, numerical modeling, and advanced machine-learning techniques to develop sustainable and resilient infrastructure materials.

EXPERT IN SUSTAINABLE CONSTRUCTION MATERIALS

His research emphasizes the development of novel construction materials, including asphalt and concrete, to enhance the durability and sustainability of transportation infrastructure. Momen has led numerous research projects, securing $1.3 million in funding and publishing over 30 journal articles in top U.S. transportation journals.

ROBUST TEACHING EXPERIENCE

Momen has developed and taught various civil engineering and construction management courses. His educational sessions for transportation professionals highlight his strong teaching capabilities, ensuring the next generation of engineers is well-equipped for future challenges.

MENTORSHIP AND LEADERSHIP

He has mentored 11 master’s and Ph.D. students, providing guidance on research projects and fostering a diverse learning environment. His leadership skills were further honed as the Program Manager of Tran-SET University Transportation Center, coordinating efforts with over 200 consortium members and various transportation agencies.

TECHNICAL CONSULTING EXPERTISE

As a Technical Consulting Pavement Engineer for Gulf Engineers and Consultants, Momen conducted forensic evaluations and technical analyses of road infrastructure damage, demonstrating his expertise in practical applications of his research.

RECOGNIZED RESEARCHER

Momen's contributions have been widely recognized, earning him awards such as the Editors' Choice Award by the ASCE Journal of Transportation Engineering and the Public Agency Official Scholarship from ATSSA. His work has been featured in notable publications like the Louisiana Civil Engineer Journal and Roads & Bridges magazine.

SYNERGISTIC ACTIVITIES

Active in professional communities, Momen has served as president of the TRF chapter at LSU, a member of the scientific committee for Tran-SET conferences, and a guest lecturer for various educational programs. His involvement with the American Society of Civil Engineers and other professional organizations underscores his commitment to advancing the field of civil engineering.

NOTABLE PUBLICATION

Machine-Learning-Based Framework for Prediction of the Long-Term Field Performance of Asphalt Concrete Overlays in a Hot and Humid Climate
Authors: E. Mansour, M.R. Mousa, H. Dhasmana, M. Hassan
Year: 2023
Journal: Transportation Research Record, 2677(10), pp. 375–385

Modeling of Restriping of Waterborne Paints Using Transverse Test Deck Data in Hot and Humid Climate
Authors: E. Mansour, M.R. Mousa, M. Hassan
Year: 2023
Journal: Transportation Research Record, 2677(7), pp. 509–519

Effects of hydrogel-encapsulated bacteria on the healing efficiency and compressive strength of concrete
Authors: R. Hungria, M.M. Hassan, M. Mousa
Year: 2023
Journal: Journal of Road Engineering, 3(2), pp. 156–170

Optimizing the Self-Healing Efficiency of Hydrogel-Encapsulated Bacteria in Concrete
Authors: R. Hungria, M.M. Hassan, G. Arce, J. Milla, T. Rupnow
Year: 2023
Journal: Journal of Materials in Civil Engineering, 35(4), 04023048

Optimization of the Self-Healing Efficiency of Bacterial Concrete Using Impregnation of Three Different Precursors into Lightweight Aggregate
Authors: O. Omar, M.R. Mousa, M. Hassan, J. Milla, T. Rupnow
Year: 2023
Journal: Transportation Research Record, 2677(3), pp. 1611–1624

Jinxing Chen – Sustainability – Best Researcher Award

Published on by Civil Engineering

Jinxing Chen - Sustainability - Best Researcher Award

Soochow University - China

AUTHOR PROFILE

SCOPUS

PRECISE SYNTHESIS OF NANOSTRUCTURES

Jinxing Chen is highly regarded for his expertise in the precise synthesis of nanostructures, pushing the boundaries of nanotechnology and material science.

CATALYTIC UPCYCLING OF WASTE PLASTICS

His groundbreaking work in the catalytic upcycling of waste plastics has contributed significantly to sustainable materials science, developing innovative solutions for environmental challenges.

JOURNAL EDITORIAL BOARD MEMBER

Jinxing serves on the editorial boards of prestigious journals such as Materials Research Letters, Rare Metals, and Advanced Powder Materials, where he influences the direction of cutting-edge research.

RESEARCH AWARDS

Jinxing has been recognized with multiple research awards, including the 2022 Nanoscale Emerging Investigator, the 2024 ChemComm Emerging Investigator, the 2024 Journal of Materials Chemistry A Emerging Investigator, and the 2022 Cell Press China Paper Award Winner.

NOTABLE PUBLICATIONS

His prolific research output includes influential papers such as “Grave-to-Cradle Photothermal Upcycling of Waste Polyesters over Spent LiCoO2” published in Nature Communications and several key publications in the Journal of the American Chemical Society and Angewandte Chemie.

SUSTAINABLE MATERIALS SCIENCE

Jinxing’s work is at the forefront of sustainable materials science, focusing on solar thermal catalysis for efficient polyester upcycling and innovative approaches to polyolefin upcycling, contributing to a more sustainable future.

EMERGING INVESTIGATOR

As an emerging investigator, Jinxing continues to make significant strides in his field, with his research being highly regarded and widely cited, paving the way for future innovations in nanostructures and sustainable materials.

NOTABLE PUBLICATION

Synergistically coupling CoS/FeS2 heterojunction nanosheets on a MXene via a dual molten salt etching strategy for efficient oxygen evolution reaction
Authors: Z. Zhang, T. Liang, C. Jin, J. Chen, X. Zeng
Year: 2024
Journal: Journal of Materials Chemistry A, 12(24), pp. 14517–14530

Upgrading waste plastics to value-added aromatics
Authors: S. Li, Z. Li, F. Zhang, J. Chen
Year: 2024
Journal: Chem Catalysis, 4(5), 100928

Chiral Multidentate Ligand Facilitating Perovskite Nanocrystals with Circularly Polarized Luminescence and Chiral Assembly
Authors: S. Chen, J. Fu, C. Zhang, Q. Zhang, M. Cao
Year: 2024
Journal: Advanced Optical Materials, 12(14), 2302883

Non-Photochemical Origin of Selectivity Difference between Light and Dark Catalytic Conditions
Authors: L. Zhang, X. An, K. Feng, X. Zhang, L. He
Year: 2024
Journal: ACS Applied Materials and Interfaces, 16(17), pp. 21987–21996

Hydrogen Bubbles: Harmonizing Local Hydrogen Transfer for Efficient Plastic Hydro-Depolymerization
Authors: Q. Kang, X. Zhang, Q. Feng, Q. Zhang, J. Chen
Year: 2024
Journal: ACS Nano, 18(17), pp. 11438–11448

NGUYEN QUOC MINH – Renewable Energy – Best Researcher Award

Published on by Civil Engineering

NGUYEN QUOC MINH - Renewable Energy - Best Researcher Award

Hanoi University of Science and Technology - Vietnam

EDUCATION AND RESEARCH INTERESTS

Nguyen Quoc Minh earned a PhD in Electrical Engineering from The University of Texas at Arlington in 2016. Prior to this, he completed an MSc in Electrical Engineering at Hanoi University of Science and Technology in 2009 and a Bachelor's degree at the same institution in 2007. His research interests encompass power system protection and control, integration of renewable energy into power systems, data science applications in smart grids, and wireless power transmission.

PROFESSIONAL EXPERIENCE AND CONTRIBUTIONS

Nguyen Quoc Minh has made significant contributions to the field of electrical engineering through his research and publications. He has authored numerous papers on topics such as microgrid planning, electricity load forecasting, PV array fault classification, and wireless power transfer systems. His work has been published in prestigious journals and presented at international conferences, reflecting his expertise and influence in the field.

SELECTED PUBLICATIONS

Nguyen Quoc Minh has published several influential papers, including "A Bi-level Optimization for the Planning of Microgrid with the Integration of Hydrogen Energy Storage" in the International Journal of Hydrogen Energy (2024), and "Short-term Electricity Load Forecasting of Hanoi City based on Prophet Model" presented at the 2023 Asia Meeting on Environment and Electrical Engineering. His research on PV array fault classification and machine learning was showcased at the 11th International Conference on Control, Automation and Information Sciences in 2022.

AWARDS AND RECOGNITION

Throughout his career, Nguyen Quoc Minh has been recognized for his contributions to electrical engineering and renewable energy research. His work on wireless power transfer systems, including studies on frequency modes in MIMO systems and field distribution models of spiral coils, has garnered attention and acclaim in both academic and professional circles.

ONGOING RESEARCH AND FUTURE DIRECTIONS

Currently, Nguyen Quoc Minh is focused on advancing his research in power systems and renewable energy integration. His ongoing projects explore innovative solutions to enhance the efficiency and reliability of electrical grids, leveraging cutting-edge technologies and data science applications to address contemporary challenges in the field.

PERSONAL AND PROFESSIONAL IMPACT

Nguyen Quoc Minh's work continues to influence the development of smart grid technologies and renewable energy systems. His dedication to research and education, combined with his extensive publication record, underscores his commitment to advancing the field of electrical engineering and contributing to sustainable energy solutions for the future.

NOTABLE PUBLICATION

A Bi-level optimization for the planning of microgrid with the integration of hydrogen energy storage 2024 (2)

Peiwen Li – Solar energy – Best Scholar Award

Published on by Civil Engineering

Peiwen Li - Solar energy - Best Scholar Award

University Of Arizona - United States

AUTHOR PROFILE

GOOGLE SCHOLAR
SCOPUS

PEIWEN LI: PIONEERING RESEARCHER IN ENERGY SYSTEMS 🌞

RESEARCH INTERESTS AND EXPERTISE 🔍

Peiwen Li is a distinguished expert whose research spans a broad spectrum of advanced energy technologies. His primary research interests include CONCENTRATED SOLAR THERMAL POWER TECHNOLOGIES, RENEWABLE ENERGY AND ENERGY STORAGE, FUEL CELLS, FUEL REFORMING AND HYDROGEN PRODUCTION, and more. With a focus on computational heat transfer and fluid mechanics, Peiwen's work also delves into HVAC systems, thermal and flow measurement techniques, and turbulence drag reduction.

PROFESSIONAL ENGAGEMENTS 🚀

Peiwen Li has been actively involved in professional societies, notably serving in the American Society of Mechanical Engineers (ASME) since 2003. His editorial contributions include roles as Associate Editor for prestigious journals such as Solar Energy, ASME J. Solar Energy Engineering, and AIMS Energy. He also serves as Editor in Chief for AIMS Energy since 2019, further solidifying his impact on the scholarly dissemination of energy-related research.

JOURNAL REFERENCE AND PEER REVIEW 📚

As a respected referee for various leading journals, Peiwen Li contributes significantly to advancing knowledge in thermal sciences and engineering. His expertise is sought after for IEEE Transactions on Components and Packaging Technologies, Journal of Energy and Environmental Science, ASME Journal of Heat Transfer, and many others across the field of energy systems and heat transfer.

PROFESSIONAL AFFILIATIONS AND LEADERSHIP 🌐

Beyond his editorial roles, Peiwen Li actively participates in the academic community through membership in numerous professional organizations. His contributions to journals and conferences reflect his commitment to promoting excellence in energy research and innovation.

CONTRIBUTIONS TO TECHNOLOGY AND INNOVATION 🌍

Peiwen Li's research efforts are not only prolific but also transformative, focusing on enhancing the efficiency and sustainability of energy systems. His work in concentrated solar thermal power, fuel cells, and renewable energy technologies underscores his dedication to addressing global energy challenges.

AWARDS AND RECOGNITION 🏆

Throughout his career, Peiwen Li has garnered recognition for his outstanding contributions to the field of mechanical engineering and energy systems. His leadership and scholarly impact continue to inspire peers and students alike.

VISION FOR THE FUTURE 🌱

Looking ahead, Peiwen Li remains committed to pushing the boundaries of energy research, aiming to develop innovative solutions that contribute to a more sustainable and resilient energy future globally.

EDUCATIONAL BACKGROUND AND ACADEMIC ACHIEVEMENTS 🎓

Peiwen Li's academic journey is marked by a dedication to advancing knowledge and expertise in energy systems. His research and professional engagements reflect a deep-seated commitment to excellence in mechanical engineering and thermal sciences.

NOTABLE PUBLICATION

A systematic comparison of different S-CO2 Brayton cycle layouts based on multi-objective optimization for applications in solar power tower plants 2018 (190)

Experimental Test of Properties of KCl–MgCl2 Eutectic Molten Salt for Heat Transfer and Thermal Storage Fluid in Concentrated Solar Power Systems 2018 (146)

Extending the validity of lumped capacitance method for large Biot number in thermal storage application 2012 (162)

Vapor pressure and corrosivity of ternary metal-chloride molten-salt based heat transfer fluids for use in concentrating solar power systems 2015 (172)

A comprehensive model for analysis of real-time optical performance of a solar power tower with a multi-tube cavity receiver 2017 (125)

Nathalia Hidalgo Leite – Solar Energy – Best Researcher Award

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Nathalia Hidalgo Leite - Solar Energy - Best Researcher Award

State University of Campinas - Brazil

AUTHOR PROFILE

GOOGLE SCHOLAR

NATHALIA HIDALGO LEITE: RESEARCHER AND EDUCATOR IN ENERGY SYSTEMS PLANNING 🌱

EDUCATION AND ACADEMIC JOURNEY 📚

Dr. Nathalia Hidalgo Leite is currently pursuing her Ph.D. in Energy Systems Planning at the State University of Campinas (Unicamp), Brazil, focusing on the Economic and Financial Viability for Electric Mobility. She holds an MBA in Value Investing from the University Center UniBTA and completed her M.S. in Energy Systems Planning at Unicamp, where she explored the Economic and Financial Viability of Photovoltaic Solar Energy under various feed-in tariff rules. Nathalia's academic foundation includes a B.S. in Agronomic Engineering from the Federal University of Sao Carlos (UFSCar), Brazil.

PROFESSIONAL EXPERIENCE AND RESEARCH FOCUS 🔍

Dr. Hidalgo Leite's professional journey encompasses various roles, including Researcher at the Unicamp / Sao Paulo Center for Energy Transition Studies (CPTEn) and instructor positions at Unicamp focusing on Computer Algorithms and Programming. She has contributed significantly to the field of energy transition through her research on renewable energy systems, particularly in photovoltaic solar energy and electric mobility. Her expertise extends to financial planning and analysis in the energy sector, demonstrated during her tenure at Grupo JLJ and CPFL Energy.

CERTIFICATIONS AND CONTINUOUS LEARNING 🎓

Nathalia is dedicated to continuous professional development, as evidenced by certifications in Financial Market Preparatory Course, Value Income, and specialized training in Photovoltaic Solar Energy and Financial Analysis. Her training also includes courses in Matlab, Neural Networks, and Agricultural Systems Modeling, reflecting her interdisciplinary approach to research and teaching.

AWARDS AND RECOGNITIONS 🏆

Throughout her academic journey, Nathalia has been recognized for Excellence in Academic Performance and Outstanding Athlete awards during her earlier education in Brazil and the United States. Her commitment to academic excellence and her contributions to energy systems planning underscore her role as a leader in sustainable energy research and education.

Dr. Nathalia Hidalgo Leite continues to drive innovation in energy systems planning, integrating economic viability with renewable energy technologies to pave the way for a sustainable future. Her multifaceted expertise in research, education, and financial analysis positions her as a key influencer in shaping policies and practices in the energy sector.

NOTABLE PUBLICATION

Mohtaram Danish – Photocatalysis – Best Researcher Award

Published on by Civil Engineering

Dr. Mohtaram Danish - Photocatalysis - Best Researcher Award

Kyungpook National University - South Korea

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS:

Dr. Mohtaram Danish embarked on his academic journey with a focus on Chemistry and Environmental Sciences. He achieved notable milestones during his early academic pursuits, including qualifying in the National Eligibility Test (NET) in 2016 and excelling in the Graduate Aptitude Test in Engineering (GATE) in 2017.

PROFESSIONAL ENDEAVORS:

Dr. Danish's professional journey has been marked by a commitment to cutting-edge research in the field of environmental and energy engineering. His postdoctoral position at the College of Environmental and Energy Engineering, Kyungpook National University, South Korea (since 2023), showcases his dedication to exploring nanocomposite materials for environmental and energy applications under the guidance of Advisor Wan-Kuen Jo.

CONTRIBUTIONS AND RESEARCH FOCUS:

Driven by a passion for advancing knowledge in energy storage, Dr. Danish's research focuses on various aspects, including photocatalytic wastewater treatment, hydrogen production, and nanocomposites. His expertise lies in the design, synthesis, and characterization of advanced photocatalysts. Dr. Danish has contributed significantly to the field, with a Ph.D. thesis titled "Synthesis and characterization of UV/Visible light responsive catalysts for the photodegradation of selected organic compounds in aqueous suspension."

IMPACT AND INFLUENCE:

Dr. Danish has made a substantial impact on the scientific community, evident through his numerous publications in esteemed journals. His work, particularly in the field of photocatalysis, has been recognized and cited, contributing to the advancement of knowledge in this critical area. Notably, he has been honored with prestigious fellowships, awards, and achievements, including the Best Researcher Award from the Department of Chemistry at AMU, Aligarh, in 2021.

ACADEMIC CITES:

Dr. Danish's research has been well-received within the academic community, as reflected in the significant number of citations his publications have garnered. His work has been published in reputable journals, attaining high impact factors.

LEGACY AND FUTURE CONTRIBUTIONS:

As a mentor and guide, Dr. Danish has played a crucial role in fostering the academic and research growth of students. He has mentored numerous Master's and Ph.D. students, contributing to the development of new learning experiences. His role as a lab coordinator, evaluator of assignments and papers, and reviewer of Ph.D. theses demonstrates his commitment to academic excellence.

NOTABLE PUBLICATION

Facile Synthesis of a Z-Scheme ZnIn2S4/MoO3 Heterojunction with Enhanced Photocatalytic Activity under Visible Light Irradiation.  2020 (74)

Synthesized copper oxide nanoparticles via the green route act as antagonists to pathogenic root-knot nematode.  2022 (11)

Photoelectrochemical and photocatalytic properties of Fe@ZnSQDs/TiO2 nanocomposites for degradation of different chromophoric organic pollutants in aqueous suspension.  2020 (70)

Excellent visible-light-driven Ni-ZnS/g-C3N4 photocatalyst for enhanced pollutants degradation performance: Insight into the photocatalytic mechanism and adsorption isotherm.  2021 (37)

Prashant Nagapurkar – Carbon Capture – Best Researcher Award

Published on by Civil Engineering

Prashant Nagapurkar - Carbon Capture - Best Researcher Award

Oak Ridge National Laborator - United States

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Prashant Nagapurkar's academic journey is distinguished by a strong foundation in chemical engineering. He earned a Bachelor's in Chemical Engineering (B.E.) from the University of Pune, India, followed by a Master's and a Ph.D. in Chemical Engineering from the Missouri University of Science and Technology. His academic achievements include a notable GPA of 3.58/4.0 for his Ph.D.

PROFESSIONAL ENDEAVORS:

Prashant's professional trajectory showcases a blend of academic research and industry experience. His postgraduate internship at Shell Oil Company in Houston, TX, provided hands-on experience in materials and corrosion, contributing to deepwater oil production systems. Following this, he transitioned to research roles at Oak Ridge National Laboratory, engaging in techno-economic analyses and environmental life cycle assessments (LCA) of various processes.

CONTRIBUTIONS AND RESEARCH FOCUS:

Prashant's contributions extend to the realms of Techno-Economic Optimization and Environmental Life Cycle Assessment (LCA) of chemical and manufacturing processes. Noteworthy projects include LCA of integrated chip manufacturing processes, techno-economic analyses of coal to carbon fiber processes, and the optimization of microgrids for developing countries in Africa and Asia. His research employs advanced techniques such as Simulated Annealing, Genetic Algorithm, and Artificial Neural Networks.

IMPACT AND INFLUENCE:

Prashant's impact is evident through his work at Oak Ridge National Laboratory, where he conducted analyses to determine the economic competitiveness of the U.S. in comparison to other countries. His techno-economic analyses and environmental LCAs contribute valuable insights, especially in areas like coal to carbon fiber processes. These assessments have implications for both economic feasibility and environmental sustainability.

ACADEMIC CITES:

Prashant's research has garnered recognition in peer-reviewed publications. Notable publications include articles in Elsevier Journal of Sustainable Computing, ASTM International's Smart and Sustainable Manufacturing Systems, and Elsevier's Energy Conversion and Management Journal. His contributions to journals with substantial impact factors underscore the significance of his work in the academic community.

LEGACY AND FUTURE CONTRIBUTIONS:

As a researcher and postdoctoral associate, Prashant's work lays the groundwork for future advancements in sustainable manufacturing and energy systems. His expertise in Techno-Economic Optimization and Environmental LCA positions him as a key contributor to the evolving landscape of chemical engineering. The potential impact of his work on microgrid optimization and manufacturing processes indicates a promising legacy and continued contributions to the field.

NOTABLE PUBLICATIONS

Techno-economic and life cycle analyses for a supercritical biodiesel production process from waste cooking oil for a plant located in the Midwest United States. 2023 (1)
Economic and embodied energy analysis of integrated circuit manufacturing processes  2022 (3)
Advances in Energy Hybridization for Resilient Supply: A Sustainable Approach to the Growing World Demand  2022 (5)
Leveraging Flexible Smart Manufacturing to Accelerate Industrial Supply Chain Recovery.  2020 (5)
Techno-economic optimization and environmental Life Cycle Assessment (LCA) of microgrids located in the US using genetic algorithm.  2019 (66)