Yuting Huang | Energy Conversation | Best Researcher Award

Posted on by ScienceFather

Dr. Yuting Huang, Energy Conversation, Best Researcher Award

Doctorate at Hunan University, China

Dr. Yuting Huang is a highly skilled engineer and researcher specializing in Civil and Hydraulic Engineering, with a focus on Heating, Ventilation, and Air Conditioning (HVAC). She is currently pursuing a Ph.D. at Hunan University, building upon her Master’s degree in Power Engineering and Engineering Thermophysics from Guangxi University, where she ranked 2nd out of 40 students. Dr. Huang’s academic journey began with a Bachelor’s degree in Built Environment and Energy Application Engineering from Wuhan Textile University, where she ranked 1st out of 80 students under the guidance of Prof. Guangcai Gong. Her expertise lies in areas such as indoor thermal and humid environments, indoor air quality, thermal comfort, comfort ventilation, building load, energy efficiency, and computational fluid dynamics (CFD) simulation. Dr. Huang’s research aims to optimize the thermal and humid environment of buildings, contributing to advancements in environmental comfort and energy efficiency.

Profile:

Education:

Ph.D. in Civil and Hydraulic Engineering (Heating, Ventilation, and Air Conditioning)

  • Institution: Hunan University
  • Duration: September 2022 – present

Master’s in Power Engineering and Engineering Thermophysics

  • Institution: Guangxi University
  • Duration: September 2018 – January 2021
  • Rank: 2nd out of 40 students

Bachelor’s in Built Environment and Energy Application Engineering

  • Institution: Wuhan Textile University
  • Duration: September 2014 – June 2018
  • Rank: 1st out of 80 students
  • Supervisor: Prof. Guangcai Gong

Professional Experience:

Dr. Yuting Huang’s professional experience includes working as a Computational Fluid Dynamics (CFD) Engineer in the CAE (Computer Aided Engineering) department at BYD Auto Industry Company Limited from March 2021 to August 2022. In this role, she was involved in various projects related to thermal comfort, air duct optimization, defrosting performance of air conditioners, battery cooling systems, air intake simulations for radiators, and wind resistance simulations. Additionally, Dr. Huang has been actively engaged in research and academic activities during her studies, focusing on areas such as indoor thermal and humid environments, indoor air quality, comfort ventilation, building load forecasting, and system optimization. Her work has contributed to advancements in understanding the dynamic response characteristics of air-carrying energy radiant diffuse terminals and optimization methods for the thermal and humid environment of buildings. Overall, Dr. Huang’s professional experience demonstrates her expertise in HVAC engineering, computational fluid dynamics, and research in building environmental engineering.

Research Interest:

Dr. Yuting Huang’s research interests lie at the intersection of Civil and Hydraulic Engineering, with a specialized focus on Heating, Ventilation, and Air Conditioning (HVAC) systems and building environmental engineering. Her primary areas of interest include optimizing the Indoor Thermal and Humid Environment to enhance comfort and energy efficiency. She is particularly interested in investigating Indoor Air Quality factors, such as pollutants and ventilation systems, to create healthier indoor spaces. Dr. Huang also delves into Thermal Comfort research, studying the interplay of temperature, humidity, and air movement for optimal occupant comfort. Her work extends to Comfort Ventilation strategies, Building Load analysis for energy optimization, and developing Energy Efficiency solutions for HVAC systems and building envelopes. Utilizing Computational Fluid Dynamics (CFD) Simulation techniques, she models airflow, heat transfer, and pollutant dispersion to inform design and operation decisions. Through her research, Dr. Huang aims to advance sustainable building practices and improve indoor environmental quality for enhanced occupant well-being.

Publication Top Noted:

Photovoltaic power forecasting based on a support vector machine with improved ant colony optimization

  • Authors: M Pan, C Li, R Gao, Y Huang, H You, T Gu, F Qin
  • Journal: Journal of Cleaner Production
  • Volume: 277
  • Pages: 123948
  • Cited By: 137
  • Year: 2020

Review on slagging evaluation methods of biomass fuel combustion

  • Authors: C Chen, Y Bi, Y Huang, H Huang
  • Journal: Journal of Analytical and Applied Pyrolysis
  • Volume: 155
  • Pages: 105082
  • Cited By: 61
  • Year: 2021

Accurate heating, ventilation and air conditioning system load prediction for residential buildings using improved ant colony optimization and wavelet neural network

  • Authors: Y Huang, C Li
  • Journal: Journal of Building Engineering
  • Volume: 35
  • Pages: 101972
  • Cited By: 48
  • Year: 2021

Effect of oxygen enriched atmospheres on combustion of bagasse, coal and theirs blends by thermogravimetric analysis

  • Authors: C Chen, Y Huang, S Yang, S Qin, F Chen
  • Journal: Journal of Environmental Chemical Engineering
  • Volume: 8 (5)
  • Pages: 104398
  • Cited By: 30
  • Year: 2020

Slagging tendency estimation of aquatic microalgae and comparison with terrestrial biomass and waste

  • Authors: C Chen, Y Huang, S Qin, D Huang, X Bu, H Huang
  • Journal: Energy
  • Volume: 194
  • Pages: 116889
  • Cited By: 30
  • Year: 2020

Dawit Ebissa | Energy Award | Best Researcher Award

Posted on by ScienceFather

Assist Prof Dr. Dawit Ebissa, Energy Award, Best Researcher Award

Assistant Professor at Bahir Dar University, Ethiopia

Dr. Dawit Ebissa is an accomplished academic and professional with a strong background in sustainable energy engineering, mechanical engineering, and business administration. He holds a Ph.D. in Sustainable Energy Engineering from Bahir Dar University, Ethiopia, awarded in 2023. Dr. Ebissa also has an MSc in Sustainable Energy Engineering from the same university, completed in 2011, and an MBA in Business Administration from Ashland University in collaboration with Leadstar College, completed in 2020.

With extensive experience in the field, Dr. Ebissa has held various roles such as Mechanical Engineer at SATCON Construction Enterprise and Amhara Water Works Construction Enterprise (AWWCE), among others. Currently, he serves as an Assistant Professor at Bahir Dar University, where he contributes to research and education in sustainable energy, mechanical engineering, and management.

Profile:

Education:

Ph.D. in Sustainable Energy Engineering from Bahir Dar University, Ethiopia, awarded in 2023.

MSc in Sustainable Energy Engineering from Bahir Dar University, Ethiopia, completed in 2011.

MBA in Business Administration from Ashland University in collaboration with Leadstar College, completed in 2020.

BSc in Mechanical Engineering from Mekelle University, Ethiopia, obtained in 2007.

BA in Management from Tsis Abay College, Ethiopia, completed in 2017.

Professional Experience:

Dr. Dawit Ebissa’s professional experience encompasses a range of roles that have shaped his expertise and contributed to his success in academia and industry. He began his career as a Mechanical Engineer at SATCON Construction Enterprise, where he gained foundational knowledge in engineering principles and project management. Building on this experience, he transitioned to roles at Amhara Water Works Construction Enterprise (AWWCE), including Mechanical Engineer and Maintenance Engineer/Garaj Coordinator, where he focused on water infrastructure projects and maintenance activities.

His journey in procurement and logistics management started at AWWCE as a Purchase Procurement Coordinator, where he oversaw supply chain operations within the construction sector. This experience was further developed during his time as a Purchase Procurement Officer at Amhara Road Works Enterprise (ARWE), contributing to road construction projects and enhancing his skills in procurement and vendor management.

Currently, as an Assistant Professor at Bahir Dar University, Dr. Ebissa leverages his extensive industry experience to educate and mentor students in sustainable energy engineering, mechanical engineering, and management. His professional background brings real-world insights to the classroom, enriching the learning experience for his students and contributing to innovative research in his areas of expertise. Dr. Ebissa’s multifaceted professional journey reflects his dedication to continuous learning, skill development, and impactful contributions to both academia and industry.

Research Interest:

Dr. Dawit Ebissa’s research interests are centered on sustainable energy engineering, mechanical engineering, and materials science. His primary focus lies in developing and optimizing renewable energy technologies, including solar, wind, and hydropower systems. Dr. Ebissa is particularly interested in improving energy efficiency, reducing environmental impacts, and promoting the adoption of clean energy solutions. Additionally, he explores biomass utilization for energy production, such as biofuels and biogas, with a focus on optimizing processes and developing sustainable biomass utilization strategies. In materials engineering, Dr. Ebissa studies composite materials for hydrokinetic turbine blades and investigates the thermal and mechanical properties of bamboo fibers for various engineering applications. His research also encompasses the integration of renewable energy into existing energy systems, addressing challenges related to grid integration, energy storage, and smart grid technologies. Overall, Dr. Dawit Ebissa’s research interests reflect his commitment to advancing sustainable energy practices, mitigating climate change impacts, and promoting environmental sustainability through innovative engineering solutions.

Publication Top Noted:

Title: Characterization and optimization of alkali-treated Yushania alpina bamboo fiber properties: case study of Ethiopia species

  • Authors: DT Ebissa, T Tesfaye, D Worku, D Wood
  • Journal: SN Applied Sciences
  • Volume: 4
  • Issue: 3
  • Year: 2022
  • Pages: 79
  • Citations: 12

Title: Design and development of household gasifier cooking stoves: natural versus forced draft

  • Authors: E Getahun, D Tessema, N Gabbiye
  • Journal: Advances of Science and Technology: 6th EAI International Conference, ICAST
  • Year: 2019
  • Pages: 11

Title: Characterization and optimization of the properties of untreated highland bamboo fibers

  • Authors: DT Ebissa, T Tesfaye, D Worku, D Wood
  • Journal: Heliyon
  • Volume: 8
  • Issue: 8
  • Year: 2022

Title: Characterization of thermal properties of highland bamboo fibers

  • Authors: DT Ebissa, T Tesfaye, DW Ayele
  • Journal: International Journal of Polymer Science
  • Year: 2022
  • Citations: 4

Title: Determinations and performance investigations of hybrid composite properties for hydrokinetic turbine blades

  • Authors: DT Ebissa, T Tesfaye, D Worku, D Wood
  • Journal: Journal of Composite Materials
  • Volume: 57
  • Issue: 7
  • Year: 2023
  • Pages: 1289-1302
  • Citations: 1