Agricultural Engineering at IgMin Research | Engineering Group

Our mission is to foster interdisciplinary dialogue and accelerate the advancement of knowledge across a wide spectrum of scientific domains.


Agricultural Engineering is the epitome of innovation and technological advancement in the world of agriculture. It plays a pivotal role in addressing the ever-growing global demand for food production, sustainability, and environmental preservation. This multidisciplinary field encompasses a wide array of topics, merging principles from engineering, biology, and environmental science to optimize agricultural processes.

At IgMin Research, we are dedicated to exploring the fascinating realm of Agricultural Engineering. Our goal is to foster knowledge exchange and collaboration among researchers, engineers, and scientists passionate about transforming agriculture through cutting-edge technologies.

  • Precision Agriculture
  • Irrigation and Water Management
  • Farm Machinery and Equipment
  • Soil and Crop Management
  • Sustainable Agriculture Practices
  • Biotechnology in Agriculture
  • Agricultural Automation and Robotics
  • Food Processing and Technology
  • Agricultural Energy Systems
  • Greenhouse Technology
  • Agricultural Waste Management
  • Pest and Disease Control in Agriculture
  • Agricultural Sensors and IoT
  • Climate Change and Agriculture
  • Agricultural Sustainability Metrics
  • Agricultural Data Analytics
  • Remote Sensing Applications in Agriculture
  • Aquaculture Engineering
  • Post-Harvest Technology
  • Agricultural Education and Extension
  • Agricultural Policy and Economics
  • Renewable Energy in Agriculture
  • Agricultural Safety and Ergonomics
  • Sustainable Livestock Management
  • Biodegradable Packaging in Agriculture

Engineering Group (1)

Research Article Article ID: igmin170

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Analysis of the State of Moisture Control to Ensure and Regulate the Quality of Grain and Grain Products
by Kalandarov Palvan Iskandarovich

The article discusses the methods for determining the maturity of grain and describes its behavior during harvesting, to optimize the selection of the grain moisture state, discusses the requirements for the choice of measurement method and the design of moisture control measuring devices, as well as its high accuracy ...and the possibility of measuring from field conditions, collection, storage, transportation, and industrial processing and release of finished products of granular materials.The purpose of the study is to improve the efficiency of control and management of complex technological processes and moisture control devices for granular bulk materials of plant origin through the development of systems for automatic and automated control of the electrophysical characteristics of grain products and to increase the reliability of quantitative and qualitative assessments of production and technological measurement information. To achieve this goal, it is necessary to conduct analytical and experimental studies of the possibility of creating an express method for controlling the moisture content of grain and products of their industrial processing and the development of a moisture meter for automated control of raw material parameters during acceptance and storage at grain processing enterprises. The article discusses the scientific and methodological foundations for measuring the electrophysical characteristics of grain products of agricultural production and the implementation on this basis of the functional subsystem of information support by the Automated Process Control System for Controlling the Mass Ratio of Moisture of Plant Origin Materials. A critical analysis of the current state of the theory and practice of automatic control of electrophysical characteristics of grain products and the identification of the trend of their further development and improvement are carried out. A mathematical model of the interaction of a high-frequency field with a granular material has been constructed, where the influence of the elastic properties of the grain on the electrical characteristics of the electromagnetic wave, which distinguishes its behavior in the field of a high-frequency wave from many other dielectrics, has been substantiated, and the influence of a large number of various disturbing factors has been studied, often the measurement results cannot be applied in the control of the technological process due to the uneliminated error, which is the cause of inaccurate information. Primary measuring transducers of electrophysical parameters of grain products are proposed, and their mathematical models are considered. A functional scheme of the measuring device based on the dielcometric method of moisture control of grain and granular materials has been developed, and metrological characteristics have been given.

Agricultural Engineering SensorsAutomation Engineering