Rui Bao | Environmental Science | Best Researcher Award

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๐ŸŒŸDr. Rui Bao, Environmental Science, Best Researcher Award๐Ÿ†

ย Doctorate at Xi’an Jiaotong University, China

Rui Bao, born in December 1995, is a dedicated researcher in the field of environmental engineering, with a focus on solid waste resources, biomass energy development, and biomass subcritical hydrothermal treatment. With a Bachelor’s degree from Dalian University of Technology, Master’s from Beijing University of Chemical Technology, and currently pursuing a Ph.D. at Xi’an Jiao Tong University, Rui has demonstrated a strong commitment to advancing knowledge and technologies for sustainable waste management and renewable energy production.

Author Metrics

Scopus Profile

As a young researcher, Rui Bao has made significant contributions to the scientific community. With three SCI journal papers as the first student author, Rui has demonstrated expertise in various aspects of waste management and biomass utilization. Additionally, Rui has participated in four academic conferences, showcasing a commitment to knowledge sharing and networking within the scientific community.

Rui Bao’s academic profile from a database like Scopus. From the provided information, it appears that Rui Bao has an h-index of 2, indicating that they have published at least two papers that have each been cited at least twice. Additionally, they have 15 total citations across 14 documents.

Education

Rui Bao’s academic journey began with a Bachelor’s degree in Environmental Engineering from Dalian University of Technology, followed by a Master’s degree in the same field from Beijing University of Chemical Technology. Currently, Rui is pursuing a Ph.D. in Power Engineering and Engineering Thermophysics at Xi’an Jiao Tong University, focusing on biomass subcritical hydrothermal treatment and resource utilization.

Research Focus

Rui Bao’s research primarily focuses on two main areas: solid waste resources and high-value utilization, and biomass energy development and utilization. Within these fields, Rui explores innovative approaches such as anaerobic co-digestion of food waste and barley straw, as well as hydrothermal conversion of food waste for comprehensive utilization.

Professional Journey

Rui Bao’s professional journey showcases a steady progression in academia and research. Starting from undergraduate studies, Rui has continually expanded expertise through master’s and doctoral programs. Rui’s involvement in various projects, conferences, and publications underscores a commitment to advancing knowledge and addressing pressing environmental challenges.

Honors & Awards

Throughout the academic journey, Rui Bao has been recognized for both academic excellence and contributions to the community. Notable honors and awards include the National Encouragement Scholarship, academic scholarships, and recognition for personal and campus contributions.

Publications Noted & Contributions

Rui Bao has authored or co-authored several notable publications in esteemed journals such as Energy, Waste and Biomass Valorization, and Journal of Cleaner Production. These publications contribute to the understanding of waste management, biomass utilization, and sustainable energy production, highlighting Rui’s expertise and contributions to the field.

Article Title:

Solid-State Co-digestion of Food Waste and Highland Barley Straw: Effect of Inoculum-Substrate Ratio on the Performance and Microbial Community Structure

Authors:

  • Wei, Y.
  • Bao, R.
  • Guan, R.
  • Zuo, X.
  • Yuan, H.

Journal:

  • Waste and Biomass Valorization
  • Status: Article in Press
  • Year: 2023

Abstract:

  • The abstract of this article provides insights into the solid-state co-digestion of food waste and highland barley straw, focusing on the impact of inoculum-substrate ratio on performance and microbial community structure.

Related Documents:

  • There are no related documents available for this article.

Citations:

  • This article has received 1 citation.
Article Title:

High-solids anaerobic co-digestion performances and microbial community dynamics in co-digestion of different mixing ratios with food waste and highland barley straw

Authors:

  • Bao, R.
  • Wei, Y.
  • Guan, R.
  • Zuo, X.
  • Yuan, H.

Journal:

  • Energy
  • Status: Article
  • Year: 2023
  • Volume: 262
  • Pages: 125529

Abstract:

  • This article discusses the high-solids anaerobic co-digestion performances and microbial community dynamics in co-digestion scenarios with varying mixing ratios of food waste and highland barley straw.

Related Documents:

  • There are no related documents available for this article.

Citations:

  • This article has received 14 citations.

Research Timeline

Rui Bao’s research timeline reflects a comprehensive engagement with various projects and initiatives. From participating in national and international conferences to leading research projects funded by prestigious organizations, Rui’s journey is marked by continuous learning, exploration, and innovation.

Collaborations and Projects

Rui Bao has been actively engaged in collaborative projects with academic institutions, industry partners, and government agencies. These projects encompass a wide range of topics, including biogas slurry depolymerization, solid waste disposal in high-altitude ecological fragile areas, and food waste hydrothermal liquefaction. Such collaborations demonstrate Rui’s interdisciplinary approach and commitment to addressing real-world challenges through research and innovation.

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Mike Sserunjogi | Engineering | Best Researcher Award

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๐ŸŒŸMr. Mike Sserunjogi, Engineering, Best Researcher Award๐Ÿ†

  • Mike Sserunjogi at Purdue University, United States

Mike Sserunjogi is a Ph.D. candidate in Agricultural and Biological Engineering at Purdue University, with a Master’s degree from Iowa State University and a Bachelor’s degree from Makerere University in Uganda. His research focuses on particle technology, postharvest, and feed technology, with expertise in AI modeling, deep learning, and simulation techniques. He has a strong background in both academic research and industry applications, with experience in crop modeling, grain storage management, and automation technologies.

Author Metrics:

Mike Sserunjogi has demonstrated notable contributions to the field through his publications, presentations, and awards. His research has been recognized through awards such as 1st place in the ABE-GIRS 3-Minute Thesis competition and 1st place in the NC-213 U.S. Quality Grains Research Consortium poster presentation. He has also presented his work at prestigious conferences like ASABE Annual International Meetings and has co-authored publications in reputable journals.

Google Scholar Profile

11 citations, an h-index of 2, h-index: The h-index is a metric that attempts to measure both the productivity and impact of a researcher’s work. It is defined as the maximum value of h such that the researcher has published h papers that have each been cited at least h times. For example, an h-index of 2 means that the researcher has at least 2 papers that have been cited at least 2 times each.

Education:

Sserunjogi holds a Ph.D. in Agricultural and Biological Engineering from Purdue University, an MSc. in Agricultural and Biosystems Engineering from Iowa State University, and a BSc. in Agricultural Engineering from Makerere University. His academic journey has equipped him with a strong foundation in engineering principles and specialized knowledge in his field of study.

Research Focus:

Sserunjogi’s research focuses on particle technology, particularly in the area of industrial dust particle monitoring and management. He has conducted extensive research on suspended dust particle characterization, monitoring particle concentration, and utilizing deep learning for predicting industrial dust explosions. Additionally, his work includes automation of disturbance machines for insect management in stored grains.

Professional Journey:

Throughout his career, Sserunjogi has held various research and development roles in academia and industry. He has worked as a Graduate Research Assistant at Purdue University’s CP3 Lab and as an R&D Scientist at Amber Agriculture, Inc. and Iowa State University. Additionally, he has experience as a Crop Modeling Engineer at CNH-Industrial, where he developed virtual crop models and conducted big data analysis.

Honors & Awards:

Sserunjogi’s contributions to research have been recognized with several awards and honors. Notable accolades include 1st place awards in competitions such as the ABE-GIRS 3-Minute Thesis and the NC-213 U.S. Quality Grains Research Consortium poster presentation. He has also received awards for his presentations at conferences like ASABE Annual International Meetings and the Norman Borlaug Lecture at Iowa State University.

Publications Noted & Contributions:

Sserunjogi has made significant contributions to the field through his publications in reputable journals such as Advanced Powder Technology and the Journal of Stored Products Research. His research has covered topics including light extinction coefficient correlation with dust particle properties, mechanical stirring for insect suppression in stored grains, and wireless sensor utilization for grain quality monitoring.

Title: Periodic disturbance time interval for suppression of the maize weevils, Sitophilus zeamais Motschulsky (Coleoptera: Curculionidae) in stored maize (Zea mays L.)

  • Authors: M Sserunjogi, CJ Bern, TJ Brumm, DE Maier
  • Journal: Journal of Stored Products Research
  • Volume: 94
  • Page: 101875
  • Citations: 5
  • Year: 2021

Title: Physical disturbance as a non-chemical approach to control weevils in stored maize

  • Author: M Sserunjogi
  • Affiliation: Iowa State University
  • Year: 2020
  • Citations: 4

Title: Wireless sensors for quality monitoring and management of stored grain

  • Authors: D Maier, M Sserunjogi, GR Aby, G Obeng-Akrofi, J Varikooty
  • Publication: Iowa State University Research and Demonstration Farms Progress Reports 2020 (1)
  • Citations: 2
  • Year: 2021

Title: Mechanical stirring of bulk-stored maize in steel bins to suppress maize weevils and other beetle populations

  • Authors: M Sserunjogi, CJ Bern, TJ Brumm, DE Maier, TW Phillips
  • Journal: Journal of Stored Products Research
  • Volume: 106
  • Page: 102281
  • Year: 2024

Title: Stirring of Maize Stored in Farm-Sized Grain Bins to Control Maize Weevils

  • Authors: M Sserunjogi, C Berns, TJ Brumm, D Maier, T Phillips
  • Publication: Iowa State University Research and Demonstration Farms Progress Reports 2019 (1)
  • Year: 2020

Research Timeline:

Sserunjogi’s research journey spans from his Master’s studies at Iowa State University to his current Ph.D. candidacy at Purdue University. He has been actively involved in research projects focused on particle technology, postharvest engineering, and feed technology. His timeline includes experiences as a Graduate Research Assistant, R&D Scientist, and Teaching Assistant, contributing to both academia and industry.

Collaborations and Projects:

Sserunjogi has collaborated with various academic and industry partners on research projects related to his areas of expertise. His collaborations include working with professors and researchers from Purdue University, Iowa State University, and industry organizations such as CNH-Industrial and Amber Agriculture, Inc. Projects have ranged from developing AI models for dust particle monitoring to optimizing grain storage management techniques.