Xinyu Gao | Agricultural Technology | Best Researcher Award

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Dr. Xinyu Gao | Agricultural Technology | Best Researcher Award

Dr. Xinyu Gao , Inner Mongolia Agricultural University , China.

Xinyu Gao is an emerging researcher in agricultural electrification and automation, currently pursuing a Doctor of Engineering at Inner Mongolia Agricultural University, China. With a strong foundation in mechanical design and automation, Xinyu has demonstrated a commitment to advancing sustainable agricultural practices through technology. His research spans intelligent drying systems, feed automation, and fluid dynamics in agricultural processes. He has taken on leadership roles in academic projects and student organizations, reflecting a proactive and collaborative spirit. His work is increasingly being recognized through international publications and awards, showcasing his growth as a dedicated scholar and innovator in smart agriculture.

Publication Profile

Scopus

ORCID

🎓 Education Background

Xinyu Gao holds a progressive academic background focused on engineering and agricultural automation. He earned his Bachelor of Engineering in Mechanical Design, Manufacturing, and Automation in 2019, followed by a Master of Engineering in Mechatronic Engineering in 2023, both from Inner Mongolia Agricultural University, Hohehot, China. Currently, he is pursuing a Doctor of Engineering in Agricultural Electrification and Automation at the same institution, with expected completion in July 2026. His education blends theoretical depth with hands-on research in smart agricultural systems, laying a robust foundation for technological innovations in sustainable agriculture and intelligent farming.

💼 Professional Experience

Xinyu Gao’s professional journey combines academic responsibilities and industrial exposure. From 2019 to 2021, he served as a student support advisor at Inner Mongolia Agricultural University, offering academic and personal guidance while organizing career development activities. He also interned at a tractor factory in Luoyang in 2018, where he assisted in the design and analysis of tractor components and supported process improvements. These experiences have sharpened his practical engineering skills and understanding of industrial processes, contributing to his current research in intelligent control systems and agricultural machinery optimization with a focus on student-centered growth and innovation.

🏆 Awards and Honors

Xinyu Gao has received recognition for his innovative work and leadership. As team leader in the China International ‘Internet’ College Students Innovation and Entrepreneurship Competition (2022), he secured a bronze medal for developing an automatic control system for manure fermentation, integrating PLC and human-machine interface technology. He also holds a leadership position as Vice Secretary of the Graduate Student Party Branch at the College of Mechanical and Electrical Engineering, showcasing his dedication to academic community service and organizational leadership. These honors reflect both his technical ingenuity and his commitment to fostering excellence within academic and engineering communities.

🔬 Research Focus

Xinyu Gao’s research centers on agricultural electrification, intelligent control systems, and sustainable automation technologies. He explores advanced drying mechanisms for agricultural materials like alfalfa and straw, incorporating LSTM-GAN models and heat/mass transfer analysis. His work also investigates the design and optimization of automated feeding stations for livestock. With supervision from distinguished professors, Xinyu integrates machine learning, fluid dynamics, and control systems to enhance agricultural efficiency. His interdisciplinary approach addresses real-world agricultural challenges, contributing significantly to modern smart farming solutions that align with environmental sustainability and energy conservation goals.

📝 Conclusion

In summary, Xinyu Gao is a dynamic and driven scholar actively shaping the future of intelligent agriculture through engineering innovation. With a strong academic record, practical experience, notable awards, and impactful research, he stands out as a promising candidate for future academic and industrial contributions. His ability to merge mechanical design, intelligent systems, and sustainability-focused research highlights his suitability for international collaborations and scholarly recognition. Xinyu’s journey reflects a commitment to innovation, teamwork, and long-term impact in the evolving landscape of agricultural technology and smart automation.

📚 Top Publications

  1. Study of pellet feed based on MatLab

    • Year: 2024

    • Journal: Agricultural Mechanization Research, Vol. 46(09), pp. 173–179

    • Cited by: 5 articles

    • Summary: Developed a Matlab-based study on sheep pellet feed mechanics, design optimization, and simulation analysis.

  2. A dynamic drying process: Mathematical modeling and energy consumption optimization of alfalfa bales using hot air drying

    • Year: 2025

    • Journal: Renewable Energy, Vol. 246, Article 122961

    • Cited by: 12 articles

    • Summary: Modeled and optimized alfalfa drying using hot air, focusing on energy efficiency and thermal uniformity.

  3. Design Optimization and Performance Evaluation of an Automated Pelleted Feed Trough for Sheep Feeding Management

    • Year: 2025

    • Journal: Agriculture, Vol. 15(14), Article 1487

    • Cited by: 9 articles

    • Summary: Proposed and evaluated a mechanical solution to improve feeding efficiency in sheep using automation.

 

Huiping Dai | Plant Science | Best Scholar Award

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Ms. Huiping Dai | Plant Science | Best Scholar Award

Professor, Shaanxi University of Technology, China

👩‍🔬 Huiping Dai is a professor at Shaanxi University of Technology, where she specializes in bioremediation and selenium resource development. With extensive experience in environmental science, she has led numerous research projects funded by the Ministry of Science and Technology and provincial agencies, accumulating over 5 million yuan in funding. A renowned academic, she has published 50 SCI papers in top-tier journals and holds three national invention patents. Her contributions to the field have made a significant impact, with her work cited by hundreds of scholars.

Publication Profile

Scopus

Education:

🎓 Huiping Dai earned her academic credentials in environmental science and engineering, laying the foundation for her future research in bioremediation, plant ecology, and pollution control technologies. She has a long-standing commitment to developing sustainable solutions for environmental challenges, particularly in relation to heavy metal pollution and resource utilization.

Experience:

💼 Huiping Dai has presided over six Ministry of Science and Technology projects and managed 10 provincial and ministerial projects, leading innovations in environmental science. Her work spans across the development of AI solutions for pollution control and phytoremediation technologies. She is an expert in plant-microbe joint remediation of polluted environments and the safe utilization of agricultural products impacted by pollution.

Awards and Honors:

🏅 Throughout her career, Huiping Dai has earned several prestigious awards, including recognition from the Ministry of Science and Technology, as well as provincial honors for her pioneering work in bioremediation. Her achievements in developing smart platforms for environmental pollution control have been groundbreaking, earning her accolades both nationally and internationally.

Research Focus:

🌱 Huiping Dai’s research primarily focuses on mechanisms of selenium and cadmium accumulation in plants, resource utilization, and the remediation of heavy metal-contaminated soils. She is committed to advancing phytoremediation efficiency through innovative techniques such as the use of hyperaccumulator plants and AI-enhanced environmental management tools. Her work in this area is designed to improve the safety and sustainability of agricultural and industrial land.

Conclusion:

🌍 Huiping Dai continues to make strides in environmental science, particularly in the field of pollution control and sustainable resource development. Her leadership in both academic and practical applications of bioremediation technology positions her as a key figure in the fight against environmental degradation, particularly in areas affected by heavy metals.

Publications:

Remediation of Heavy Metal Contaminated Soils Using Hyperaccumulator Plants: Mechanisms and Applications,  Journal of Hazardous Materials.
Link to publication
Cited by: 112

Phytoremediation of Selenium and Cadmium Contamination: A Joint Plant-Microbe Approach, Chemosphere.
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Cited by: 98

Development of Smart Platforms for Pollution Control in Agricultural Zones, Environmental Pollution.
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Cited by: 75

Innovative Methods for Improving Phytoremediation Efficiency of Cadmium-Contaminated Soils, Journal of Agro-Environment Science.
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Cited by: 65

New Green Activators for Phytoremediation of Cadmium: Enhancing Efficiency in Hyperaccumulating Plants,”Chinese Journal of Applied Ecology.
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Cited by: 50