Fazel Pourmirzaei Deylami | Electrical Engineering | Best Researcher Award

Posted on by ScienceFather

🌟Dr. Fazel Pourmirzaei Deylami, Electrical Engineering, Best Researcher Award🏆

Doctorate at Shahrood University of Technology, Iran

Fazel Pourmirzaei Deylami, born on March 1, 1993, in Astaneh Ashrafieh, Guilan, Iran, is an accomplished electrical engineer specializing in electrical machines and power electronics. He holds a B.Sc. degree from the University of Guilan and an M.Sc. degree from the Shahrood University of Technology, both in Electrical Engineering. Currently pursuing his Ph.D. at Shahrood University of Technology, Fazel’s career spans academia and industry, with notable roles at AMPER Innovation Factory and MAPNA Generator Engineering and Manufacturing Co. (PARS).

Author Metrics

Google Scholar Profile

Fazel has established a strong presence in academia, evidenced by his publications in reputable journals and conferences. He serves as a reviewer for prominent journals such as IEEE Transactions on Magnetics and IET Electric Power Applications. Additionally, he edits for the Global Journal of Energy Technology Research Updates, further contributing to the scholarly community.

Fazel Pourmirzaei Deylami has received 14 citations, resulting in an h-index of 2 and an i10-index of 0. This suggests that while Fazel’s work has been cited, the number of citations is relatively low, and there are no publications with at least 10 citations. As Fazel continues to publish and engage in research activities, these metrics may evolve, reflecting the impact and influence of his contributions within the scholarly community.

Education

Fazel’s educational journey includes a B.Sc. in Electrical Engineering from the University of Guilan, an M.Sc. from Shahrood University of Technology, and ongoing Ph.D. studies in Electrical Engineering (Power Engineering) at the same institution. His academic achievements are highlighted by consistently high GPAs and thesis work focusing on advanced topics in electrical machines and power electronics.

Research Focus

Fazel’s research interests encompass various aspects of electrical engineering, including the design, modeling, and optimization of electrical machines. He is particularly passionate about renewable power generation and transportation electrification, with a focus on wind energy conversion and electric vehicles. His expertise extends to electrostatic machinery, demonstrating a diverse range of interests within the field.

Professional Journey

Fazel’s professional journey has been marked by significant contributions to the industry and academia. He has worked as a research and innovation expert at AMPER Innovation Factory, focusing on electromechanical subsystems in the automotive industry. Currently, he serves as an R&D member at MAPNA Generator Engineering and Manufacturing Co., specializing in electromagnetic design and analysis of electrical motors and generators.

Honors & Awards

Throughout his career, Fazel has received recognition for his academic and professional achievements. While specific honors and awards are not mentioned in the provided information, his consistent academic performance and contributions to the field likely merit acknowledgment from his peers and institutions.

Publications Noted & Contributions

Fazel’s publications in esteemed journals and conferences underscore his research contributions. Notable works include papers on the design and modeling of various electrical machines, as well as studies on renewable energy systems and electrostatic machinery. His research outputs contribute to advancing knowledge in the field of electrical engineering.

“Impact of the Stator Coil Pitch on Acoustic Noise and Vibration of Squirrel Cage Induction Motors”

  • Authors: M Rahmani, A Darabi, FP Deylami
  • Published in: IEEE Transactions on Energy Conversion
  • This study investigates the impact of the stator coil pitch on the acoustic noise and vibration levels of squirrel cage induction motors, providing insights into optimizing motor designs for reduced noise and vibration.

“Steady-state performance analysis for optimal operation determination of doubly fed induction motors”

  • Authors: F Pourmirzaei Deylami, A Darabi
  • Published in: The Journal of Engineering
  • The research focuses on analyzing the steady-state performance of doubly fed induction motors to determine optimal operation conditions, contributing to the efficient utilization of these motors in various applications.

“Dynamic-transient modeling and performance evaluation of a multilayer variable-capacitance energy conversion system”

  • Authors: F Pourmirzaei Deylami, A Darabi
  • Published in: International Transactions on Electrical Energy Systems
  • This study presents dynamic-transient modeling and performance evaluation of a multilayer variable-capacitance energy conversion system, offering insights into its dynamic behavior and performance characteristics.

“Dual Independent Rotor Axial Flux Induction Motor for Electric Vehicle Applications”

  • Authors: A Hesari, A Darabi, F Pourmirzaei Deylami
  • Published in: IET Electrical Systems in Transportation
  • The publication introduces a dual independent rotor axial flux induction motor designed for electric vehicle applications, highlighting its potential for improving vehicle performance and efficiency.

“Modeling and Characterization of a Synchronous Variable-Capacitance Electrostatic Motor”

  • Author: FP Deylami
  • Published at: Shahrood University of Technology
  • This work focuses on modeling and characterizing a synchronous variable-capacitance electrostatic motor, potentially contributing to the advancement of electrostatic motor technology.

Research Timeline

Fazel’s research journey has evolved over time, from his early academic pursuits during his B.Sc. and M.Sc. studies to his current Ph.D. research focusing on hybrid-excitation axial-flux generators for wind energy conversion. Alongside his academic endeavors, he has gained practical experience through industry roles, allowing him to apply theoretical knowledge to real-world challenges.

Collaborations and Projects

Fazel’s involvement in industry and academia has likely facilitated collaborations with professionals and researchers across various projects. His experience at AMPER Innovation Factory and MAPNA Generator Engineering and Manufacturing Co. indicates his participation in diverse projects related to electromechanical systems and electrical machinery development. These collaborations have likely enriched his professional experience and contributed to his growth as an engineer and researcher.

Hossam A.Gabbar | Energy Modeling | Best Researcher Award

Posted on by ScienceFather

🌟Prof Dr. Hossam A.Gabbar, Energy Modeling, Best Researcher Award🏆

 Professor at Ontario Tech University, Canada

Hossam A. Gabbar is a distinguished academic and researcher specializing in energy systems, nuclear engineering, and smart energy technologies. As a full Professor at Ontario Tech University (UOIT), he leads several prominent research labs and has garnered recognition for his impactful contributions to the field. With a diverse educational background and extensive experience in academia and industry, Gabbar’s expertise encompasses a wide range of topics, from hybrid energy systems to AI applications in energy management.

Author Metrics:

ORCID Profile

Google Scholar Profile

Gabbar’s prolific research output includes over 220 publications, comprising patents, books/chapters, journal articles, and conference papers. His work has been cited extensively, reflecting its significant impact within the scientific community. Gabbar’s contributions to the field have positioned him among the top 2% of worldwide scientists, particularly for his work on smart energy systems integrated with applied AI.

Citations: Gabbar’s work has been cited 4523 times, indicating the widespread recognition and relevance of his research contributions within scholarly literature.

h-index: With an h-index of 30, Gabbar has published at least 30 papers that have each received at least 30 citations, demonstrating the depth and impact of his scholarly output.

i10-index: Gabbar’s i10-index, which measures the number of publications with at least 10 citations, stands at 111. This index provides further insight into the breadth of his impact, as it reflects the dissemination and uptake of his research across a wide range of scholarly works.

Education:

Gabbar holds a Ph.D. in Process Systems & Safety Engineering from Okayama University, Japan, as well as a Master’s Degree in Computer and Automatic Control from Alexandria University, Egypt. He completed his undergraduate studies with distinction, earning a B.Sc. Degree from Alexandria University. This robust educational background has provided him with a solid foundation for his subsequent academic and professional endeavors.

Research Focus:

Gabbar’s research interests encompass hybrid nuclear and energy systems, smart energy grids, energy safety and control systems, and waste-to-energy technologies employing advanced plasma methodologies. His work is at the forefront of addressing challenges in sustainable energy production, grid resilience, and environmental conservation. Through his interdisciplinary approach, Gabbar seeks to advance innovative solutions for a more sustainable energy future.

Professional Journey:

Gabbar’s professional journey spans academia, industry, and international collaboration. He has held various academic positions, including Associate Professorships at Tokyo Institute of Technology and Okayama University in Japan. Additionally, he has contributed to research and teaching at prestigious institutions worldwide, fostering global partnerships and knowledge exchange. Gabbar’s industry experience in intelligent systems, process automation, and safety engineering further enriches his academic pursuits, enabling him to bridge theory and practice effectively.

Honors & Awards:

Gabbar’s contributions to the field have been recognized with numerous honors and awards. Notably, he received the Senior Research Excellence Award from UOIT in 2016. He has also been the recipient of grants and funding from prestigious organizations such as NSERC, OCE/OCI, Mitacs, and the Qatar National Research Foundation, underscoring the significance and impact of his research endeavors.

Publications Noted & Contributions:

Gabbar’s extensive publication record reflects the breadth and depth of his contributions to academia and industry. His research outputs, including patents, books/chapters, and peer-reviewed articles, have advanced knowledge in key areas such as energy systems, control engineering, and safety management. Gabbar’s work not only contributes to the scholarly discourse but also informs practical solutions for real-world challenges in energy and sustainability.

“Hydrogen energy planning with water considerations: A SWITCH model enhancement for sustainable deployment”

  • Published in the International Journal of Hydrogen Energy in May 2024.
  • This article presents an enhancement to the SWITCH model focusing on hydrogen energy planning, taking into account water considerations for sustainable deployment.
  • Contributors: Hossam A. Gabbar; Elena Villalobos Herra.

“A Symmetric Sixth-Order Step-Up Converter with Asymmetric PWM Achieved with Small Energy Storage Components”

  • Published in the journal Symmetry in April 2024.
  • The paper discusses a symmetric sixth-order step-up converter with asymmetric PWM achieved using small energy storage components.
  • Contributors: IvĂĄn Dueñas-GarcĂ­a; Julio C. Rosas-Caro; Hector R. Robles-Campos; Johnny Posada; Jesus E. Valdez-Resendiz; Antonio Valderrabano-Gonzalez; Hossam A. Gabbar; Bhanu Babaiahgari.

“Power Signal Analysis for Early Fault Detection in Brushless DC Motor Drivers Based on the Hilbert–Huang Transform”

  • Published in the World Electric Vehicle Journal in April 2024.
  • This paper presents a power signal analysis technique for early fault detection in brushless DC motor drivers, based on the Hilbert–Huang Transform.
  • Contributors: David Marcos-Andrade; Francisco Beltran-Carbajal; Eduardo Esquivel-Cruz; Ivan Rivas-Cambero; Hossam A. Gabbar; Alexis Castelan-Perez.

“ARSIP: Automated Robotic System for Industrial Painting”

  • Published in the journal Technologies in February 2024.
  • The article introduces ARSIP, an Automated Robotic System for Industrial Painting.
  • Contributors: Hossam A. Gabbar; Muhammad Idrees.

“Analysis of Essential Features and Optimal Operational Parameters of an RF-ICP Torch for Waste Treatment Applications”

  • Published in the journal Recycling in February 2024.
  • This paper analyzes essential features and optimal operational parameters of an RF-ICP Torch for waste treatment applications.
  • Contributors: Mustafa A. Aldeeb; Sharif Abu Darda; Vahid Damideh; Isaac Hassen; Hossam A. Gabbar.

Research Timeline:

Gabbar’s research journey has evolved over several decades, beginning with his academic pursuits in the late 1980s and culminating in his current role as a leading authority in smart energy systems. From his early research and teaching assistantships to his tenure as a full Professor, Gabbar has consistently pursued innovative research avenues and forged collaborations with academia, industry, and governmental agencies worldwide.

Collaborations and Projects:

Gabbar’s research endeavors have been enriched by collaborations with diverse stakeholders, including researchers, industry professionals, and policymakers. Through collaborative projects, he has tackled complex challenges in energy infrastructure, transportation electrification, and resilience planning. Gabbar’s involvement in national and international initiatives underscores his commitment to interdisciplinary collaboration and knowledge exchange for addressing global energy challenges.

Slah Farhani | Energy | Best Researcher Award

Posted on by ScienceFather

🌟Assist Prof Dr. Slah Farhani, Energy, Best Researcher Award🏆

  •  Assistant Professor at ISSAT Kairouan, universitĂ© Kairouan, Tunisia

Slah Farhani, an assistant professor in Electrical Engineering specializing in Electrical Power Systems, was born on February 01, 1981, in Kairouan, Tunisia. He obtained his Bachelor’s degree in Electrical Engineering from the University of Tunis, High School of Science and Technology of Tunis, in 2004. Subsequently, he earned his Master’s degree in Power Systems and Advanced Electrical Machines in 2007 and completed his Doctorate in Electrical Engineering in 2019, both from the University of Tunis. His doctoral thesis focused on the “Design and modeling of power converter for fuel cell used in electrical vehicle.” Farhani has held various academic positions, including serving as the Head of the Electrical Engineering Department at the Higher Institute of Technological Studies of Kairouan, Tunisia. He is currently a faculty member at the Higher Institute of Applied Sciences and Technology of Kairouan (University of Kairouan) and actively participates in research at the Laboratory of Informatics for Industrial Systems, National Institute of Applied Sciences and Technology, University of Carthage, Tunisia. His research interests span experimental Power Electronics, Electrical Machines, Solar Energy, Green Hydrogen Energy, and Wind Energy, with notable contributions in academia through over 30 published papers.

Author Metrics

Slah Farhani’s academic output is marked by his extensive contributions, with over 30 published papers in reputable journals and conferences. His work showcases a commitment to advancing knowledge in Electrical Engineering and Renewable Energies, reflecting both depth and breadth in his research pursuits.

ORCID Profile

Education

Farhani’s academic journey began with a Bachelor’s degree in Electrical Engineering, specializing in Electrical Machines and Power Electronics, from the University of Tunis in 2004. He continued his studies with a Master’s degree in Power Systems and Advanced Electrical Machines in 2007, followed by a Doctorate in Electrical Engineering in 2019, both from the University of Tunis.

Research Focus

Farhani’s research interests encompass several key areas within Electrical Engineering and Renewable Energies, including experimental Power Electronics, Electrical Machines, Solar Energy, Green Hydrogen Energy, and Wind Energy. His work explores innovative solutions and advancements in these fields, contributing to the sustainable development of energy systems.

Professional Journey

Slah Farhani’s professional journey is marked by a diverse range of academic roles and responsibilities. He served as the Head of the Electrical Engineering Department at the Higher Institute of Technological Studies of Kairouan, Tunisia, from September 2020 to September 2022. Currently, he holds a position as an electric power teacher at the Higher Institute of Applied Sciences and Technology of Kairouan (University of Kairouan) while also being actively involved in research as a member of the Laboratory of Informatics for Industrial Systems at the National Institute of Applied Sciences and Technology, University of Carthage, Tunisia.

Honors & Awards

While specific honors and awards received by Slah Farhani are not mentioned, his significant contributions to academia and research likely earned him recognition within his field, potentially including awards for outstanding research, teaching excellence, or leadership in the academic community.

Publications Noted & Contributions

Farhani’s publication record includes over 30 papers spanning topics in Electrical Engineering and Renewable Energies. His contributions to academic literature demonstrate a commitment to advancing knowledge and addressing key challenges in the field, with research findings disseminated through reputable journals and conferences.

1. Optimal design and economic analysis of a stand-alone integrated solar hydrogen water desalination system: Case study agriculture farm in Kairouan Tunisia

Journal: International Journal of Hydrogen Energy

Date: April 2024

DOI: 10.1016/j.ijhydene.2024.03.043

Contributors:

  • Slah Farhani
  • El Manaa Barhoumi
  • Qamar Ul Islam
  • Faouzi Becha

Summary: This article, published in April 2024 in the International Journal of Hydrogen Energy, presents a study on the optimal design and economic analysis of a stand-alone integrated solar hydrogen water desalination system. The case study focuses on an agriculture farm in Kairouan, Tunisia. The authors investigate the feasibility and economic viability of utilizing solar energy to power a water desalination system, producing hydrogen for energy storage and agricultural applications. The study provides insights into the potential benefits and challenges of implementing such systems in arid regions like Tunisia.

2. Techno-economic analysis of photovoltaic-hydrogen refueling station case study: A transport company Tunis-Tunisia

Journal: International Journal of Hydrogen Energy

Date: July 2022

DOI: 10.1016/j.ijhydene.2021.10.111

Contributors:

  • El Manaa Barhoumi
  • Paul C. Okonkwo
  • Slah Farhani
  • Ikram Ben Belgacem
  • Manaf Zghaibeh
  • Ibrahim B. Mansir
  • Faouzi Bacha

Summary: This article, published in July 2022 in the International Journal of Hydrogen Energy, presents a techno-economic analysis of a photovoltaic-hydrogen refueling station. The case study focuses on a transport company in Tunis, Tunisia. The authors assess the feasibility and economic viability of integrating photovoltaic systems with hydrogen refueling stations for sustainable transportation. The study provides valuable insights into the potential of hydrogen as an alternative fuel and its economic implications for transportation infrastructure in Tunisia.

3. Design and hardware investigation of a new configuration of an isolated DC-DC converter for fuel cell vehicle

Journal: Ain Shams Engineering Journal

Date: March 2021

DOI: 10.1016/j.asej.2020.07.014

Contributors:

  • Slah Farhani
  • El Manaa Barhoumi
  • Faouzi Bacha

Summary: This article, published in March 2021 in the Ain Shams Engineering Journal, presents the design and hardware investigation of a new configuration of an isolated DC-DC converter for fuel cell vehicles. The authors explore innovative designs to enhance the efficiency and performance of DC-DC converters used in fuel cell vehicles. The study contributes to the advancement of power electronics technology for sustainable transportation systems, aiming to improve energy efficiency and reduce environmental impacts associated with vehicle emissions.

Research Timeline

2004: Bachelor’s degree in Electrical Engineering from the University of Tunis.

2007: Master’s degree in Power Systems and Advanced Electrical Machines from the University of Tunis.

2019: Doctorate in Electrical Engineering from the University of Tunis.

2020-2022: Head of the Electrical Engineering Department at the Higher Institute of Technological Studies of Kairouan, Tunisia.

Present: Electric power teacher at the Higher Institute of Applied Sciences and Technology of Kairouan (University of Kairouan) and member of the Laboratory of Informatics for Industrial Systems at the National Institute of Applied Sciences and Technology, University of Carthage, Tunisia.

Collaborations and Projects

While specific collaborations and projects involving Slah Farhani are not outlined, his affiliation with academic institutions and research laboratories suggests active engagement in collaborative research initiatives. His expertise likely contributes to interdisciplinary projects aimed at advancing knowledge and addressing challenges in Electrical Engineering and Renewable Energies.

Nidia Elizabeth Ramirez-Contreras | Energy | Best Researcher Award

Posted on by ScienceFather

🌟Dr. Nidia Elizabeth Ramirez-Contreras, Energy, Best Researcher Award🏆

  • Doctorate at Cenipalma, Colombia

Nidia Elizabeth Ramirez-Contreras is a dedicated researcher and professional with extensive experience in the field of palm oil research, processing, and sustainability. With a background in Food Chemistry and Environmental Management, she has pursued advanced studies, including a PhD in Science and Engineering from the University of Groningen. Her work primarily focuses on the sustainable utilization of biomass, particularly in the context of the palm oil industry in Colombia. Throughout her career, she has made significant contributions to the field through her research, publications, and leadership roles at the Colombian Oil Palm Research Centre (CENIPALMA).

Author Metrics

ORCID Profile

Scopus Profile

Nidia Elizabeth Ramirez-Contreras has demonstrated prolificacy and impact as a researcher through her author metrics. Her publications have garnered significant attention and citations within the scientific community, indicating the relevance and importance of her work. With numerous publications in reputable journals and technical bulletins, she has established herself as a leading authority in the field of palm oil sustainability and biomass utilization.

  • Citations: 256
  • Documents: 228
  • h-index: 6

These metrics indicate Ramirez’s scholarly impact and productivity within the academic community. With a total of 256 citations across 228 documents, she has demonstrated significant influence in her field. Her h-index of 6 reflects the number of publications (6) that have each received at least 6 citations. This suggests a consistent level of impact and recognition for her research contributions.

Education

Ramirez-Contreras has pursued a comprehensive educational journey to equip herself with the knowledge and skills necessary for her research and professional endeavors. She obtained her undergraduate degree in Food Chemistry from the Universidad PedagĂłgica y TecnolĂłgica de Colombia, followed by a Master’s degree in Environmental Management from the Pontificia Universidad Javeriana. She further advanced her academic pursuits by completing a PhD in Science and Engineering at the University of Groningen in the Netherlands.

Research Focus

Ramirez-Contreras’s research primarily revolves around the sustainable utilization of biomass, with a particular focus on the palm oil industry in Colombia. Her work spans various aspects, including the environmental and economic performance of bioenergy production, carbon footprint management, and the development of biorefinery technologies. By integrating environmental sustainability with industrial processes, her research aims to contribute to the transition towards a more sustainable and circular economy.

Professional Journey

Throughout her career, Ramirez-Contreras has held various research and leadership positions, primarily at the Colombian Oil Palm Research Centre (CENIPALMA). Starting as a student intern, she gradually progressed to become a Postdoctoral Researcher and Audit Specialist, overseeing projects related to biorefinery development, sustainability, and processing plant optimization. Her professional journey reflects her commitment to advancing knowledge and practices within the palm oil industry.

Honors & Awards

Ramirez-Contreras’s contributions to the field have been recognized through various honors and awards. These accolades highlight her excellence in research, leadership, and dedication to sustainability. Whether for her impactful publications, leadership roles, or innovative research projects, these honors underscore her significant contributions to the scientific community and the palm oil industry.

Publications Noted & Contributions

Ramirez-Contreras has authored numerous publications in reputable journals, technical bulletins, and research reports. These publications cover a wide range of topics, including the environmental and economic performance of bioenergy production, carbon footprint management, and the utilization of biomass in the palm oil industry. Her research outputs have not only contributed to the academic discourse but also provided valuable insights and solutions to real-world challenges faced by the industry.

Biomass-based energy potential from the oil palm agroindustry in Colombia: A path to low carbon energy transition

  • Journal: Journal of Cleaner Production
  • Date: March 2024
  • Contributors: Juan Camilo Barrera Hernandez, Alexis Sagastume Gutierrez, Nidia Elizabeth RamĂ­rez-Contreras, Juan J. Cabello Eras, JesĂșs Alberto GarcĂ­a-Nunez, Osmar Ricardo Barrera Agudelo, Electo Eduardo Silva Lora
  • This article likely explores the potential of biomass-based energy derived from the oil palm agroindustry in Colombia and its role in transitioning towards low-carbon energy.

EconomĂ­a baja en carbono para el sector agropecuario de la Orinoquia colombiana: una oportunidad para la producciĂłn de bioenergĂ­a

  • Journal: GestiĂłn y Ambiente
  • Date: October 3, 2023
  • Contributors: David Arturo Munar Florez, Clara InĂ©s Caro Caro, Nidia Elizabeth RamĂ­rez Contreras, JesĂșs Alberto GarcĂ­a NĂșñez
  • This article likely discusses low-carbon economy strategies for the agricultural sector in the Orinoquia region of Colombia, focusing on opportunities for bioenergy production.

Towards a sustainable biobased economy in Colombia: integrated environmental and economic analyses of land use and biomass value chains

  • Publication Type: Dissertation/Thesis
  • Date: 2022
  • Contributors: Nidia Ramirez
  • This dissertation likely explores the path towards a sustainable biobased economy in Colombia, integrating environmental and economic analyses of land use and biomass value chains.

Integral analysis of environmental and economic performance of combined agricultural intensification & bioenergy production in the Orinoquia region

  • Journal: Journal of Environmental Management
  • Date: February 1, 2022
  • Contributors: Nidia Ramirez, Carlos A. Fontanilla-DĂ­az, Lain E. Pardo, Tulia Delgado, David Munar-Florez, Birka Wicke, Jonathan RuĂ­z-Delgado, Floor van der Hilst, JesĂșs Alberto Garcia-Nuñez, Mauricio Mosquera-Montoya
  • This article likely provides an in-depth analysis of the environmental and economic performance of combined agricultural intensification and bioenergy production in the Orinoquia region of Colombia.

GHG Balance of Agricultural Intensification & Bioenergy Production in the Orinoquia Region, Colombia

  • Journal: Land
  • Date: March 2021
  • Contributors: Nidia Ramirez, David Arturo Munar-FlĂłrez, Floor van der Hilst, Juan Carlos Espinosa, Álvaro Ocampo-Duran, Jonathan RuĂ­z-Delgado, Diego L. Molina-LĂłpez, Birka Wicke, JesĂșs Alberto Garcia-Nunez, AndrĂ© P.C. Faaij
  • This article likely focuses on the greenhouse gas (GHG) balance of agricultural intensification and bioenergy production in the Orinoquia region of Colombia, assessing its environmental implications

Research Timeline

Ramirez-Contreras’s research timeline showcases her progression and achievements throughout her academic and professional journey. From her early student internships to her current role as a Postdoctoral Researcher, each phase has been marked by significant contributions to the field of palm oil sustainability and biomass utilization. This timeline reflects her continuous growth, expertise, and dedication to advancing knowledge and practices within the industry.

Collaborations and Projects

Ramirez-Contreras has actively collaborated with various institutions, organizations, and researchers to undertake collaborative projects aimed at addressing key challenges in the palm oil industry. These collaborations have facilitated knowledge exchange, innovation, and the implementation of sustainable practices. By working with diverse stakeholders, Ramirez-Contreras has been able to leverage collective expertise and resources to achieve meaningful impact in her research and projects.