National Ilan University
Smart Agriculture and Livestock IoT Application Technologies
Plasma Carbonization Treatment of Agricultural Waste
Smart Energy-Saving and Energy Management Systems
Promoting Data Capitalization in Agriculture and Livestock Industries
Green Circular Economy and Low-Carbon Agricultural Technologies
Develop Multi-Parameter Sensors + IoT Platforms
Automated Irrigation Control Systems with Machine Learning
Integrate Image Recognition and UAV
Key Technologies
Green Energy Power
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Geothermal Power Generation
In collaboration with National Taiwan University and Lanyang Geothermal Corp., National Ilan University has conducted geothermal power generation research at the Qingshui Geothermal Park in Yilan. A 150-kilowatt power generation unit has been completed and successfully connected to the grid, strengthening Taiwan’s technological competitiveness in geothermal energy and providing a strong demonstration and reference for future energy structure transformation.
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Plasma Carbonization Technology
The system efficiently processes dry biomass and waste, converting them into biochar through high thermal conductivity with exceptional energy density. This process enables effective resource recovery and serves as an essential form of renewable energy.
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Subcritical Carbonization Technology
Applied to the treatment of wet biomass and waste, this technology not only significantly reduces the energy consumption required for drying and dewatering but also converts wet materials into multiple products such as biochar, bio-oil, and wood vinegar, thereby enhancing overall energy utilization efficiency.
Intelligent Integration System
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Development of Waste and Solvent Treatment Technologies
The university has developed an intelligent, low-energy organic waste gas treatment system and solvent recovery equipment that integrates advanced sensors, transmission technologies, and actuators. By applying nanophase-change materials from green manufacturing processes to adsorb volatile organic compounds (VOCs), it significantly enhances adsorption efficiency and enables cyclic VOC collection with automated operation via a microelectronic control platform. -
"Cloud-Based Smart Green Energy Microgrid" System
Integrating four major functions—energy generation, energy storage, energy conservation, and intelligent system integration—the system incorporates solar photovoltaic technology to regulate off-peak power usage, effectively enhancing the measurement efficiency and precision of green energy-saving systems.