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This technology, leveraging Artificial Intelligence (AI), significantly improves the safety evaluation of power plants, focusing on components with cracks. It thoroughly assesses vital parts like pipelines, nozzles, and canisters to ensure their structural integrity and reliability. Utilizing AI, it collects and analyzes extensive data, including power plant regulations and tool databases, creating a robust knowledge platform. Additionally, it offers training resources for staff to stay updated on safety issues and provides detailed assessments and reports for efficient, low-cost safety maintenance.
Sustainability | Green Energy & Environment/Machinery & SystemThe power transformer is a crucial piece of equipment in the power system. However, it can experience various faults due to voltage fluctuations, insulation degradation, and other factors. The traditional method for diagnosing these faults, such as Dissolved Gas Analysis (DGA), determines primarily the fault type based on the hydrocarbon composition and proportion of dissolved gases in the power transformer oil. However, different fault locations can lead to different outcomes. , the carbon oxide composition and proportion of the gas in the power transformer oil can help determine if the fault is related to the paper. The present invention further utilizes changes in the carbon oxide proportion over time to develop an auxiliary DGA analysis indicator for the power transformer. This uses the regular DGA report as input (no need to add new sensors), and it can help determine potential fault locations in the power transformer without shutting it down. It is also integrated into the power transformer diagnostic management platform to prevent accidents before they occur and reduce unexpected power outages through different monitoring and diagnostic methods.
Sustainability | Green Energy & EnvironmentThe prototype was designed for 14kW high efficiency and light-weight variable refrigerant flow (VRF) air conditioner. The technologies in the VRF included: wide range inverter control technology, aluminum extrusion heat exchanger and high-pressure axial fan. Therefore, the VRF was able to use in wide range application environments and improved product competitiveness by improving energy efficiency and reducing weight by 15%.
Sustainability | Green Energy & Environment(1)Utilizes AI and IoT technologies for dynamically adjusting equipment running parameters for optimizing energy consumption. A.Temperature set point of refrigerator is changed according to load variations. B.Defrost will only be triggered when the evaporator is frosted. C. Optimized -energy-saving control between Aircon and refrigerator. D.Support demand response event prediction and automated demand response (2)It has installed over 3,200 foor retail stores, and the 5-10% energy-saving rate for a store and the payback time for EMCS is less than 2 years. The system can also perform automated demand response, achieving a reduction of 5% of the contract demand and maintaining this reduction for 1 hour.
Sustainability | Green Energy & EnvironmentThis technology integrates flexible solar photovoltaic modules into soundproof walls, adopting a versatile and composite approach that combines sound insulation with electricity generation advantages. In addition to setting up demonstration sites and analyzing their power generation, subsequent steps will involve expanding installations to soundproof walls along high-speed railways, railways, or bridges.
Sustainability | Green Energy & EnvironmentThe fermentation product containing Bacillus siamensis CB36 demonstrated capabilities in promoting root development, reducing evapotranspiration, and increasing overall yield in various vegetable crops. <Bacillus siamensis> CB36 exhibits high activity and stability under diverse environmental conditions, produces numerous lytic enzymes, and forms endospores for survival in harsh conditions such as drought or high temperatures. It also showcases plant growth-promoting properties. Consequently, the adaptability and high efficiency of Bacillus siamensis CB36 make it a promising strain for agricultural applications.
Sustainability | AgricultureThis technology integrates existing food-grade transmission belts with mechatronics to create an intermittent transmission mechanism for three working lines. The resulting machine operates stably and, with operator assistance, can process over 6,000 mushrooms per hour with a cutting error rate below 2%. The absence of mechanical oil eliminates concerns about contamination, making this an ideal solution for mushroom farmers.
Sustainability | AgricultureIntroducing the TOPC on technology to the front and rear sides of the solar cell, forming a bifacial TOPCon structure, enhances passivation property and improves efficiency.
Sustainability | Electronics & Optoelectronics/Green Energy & EnvironmentIndirect carbonation assisted high gravity (higee) accelerometer is used to enhance the selectivity of Ca ions and purity of CaCO3 as products with tunable phase control for low cost and wide applications. Uniform CaCO3 ultra-microparticles can be successfully produced using this system which is controlled and operated with human machine interface for maintaining the high quality.
Sustainability | Green Energy & EnvironmentBreath-responsive powered air-purifying respirators (BR-PAPRs) had developed. The BR-PAPR could provide workers with better respiratory protection and a comfortable wearing environment, to reduce high temperature, high humidity and difficulty breathing problem when wearing a mask.
Sustainability | Life ApplicationThe blower sprayer, widely used in agriculture for trellis crops, has undergone significant design improvements to address climate change and promote sustainability. This technology focuses on optimizing the mechanical structure and segmented power transmission of the blower drive, resulting in the commercialization of an electric air blower sprayer. This innovation offers four key advantages: reduced carbon emissions, eliminated exhaust fumes, minimized noise pollution, and decreased machine vibration.
Sustainability | AgricultureThis research selected the multifunctional microorganisms, Stenotrophomonas sp. (CC-1 and CC-2), exhibiting superior cadmium and copper adsorption capabilities, as well as the ability to solubilize tricalcium phosphate and hydrolyze cellulose, proteins, and xylan. These microorganisms were formulated into solid bacterial preparations and applied to various vegetables, effectively reducing cadmium and copper absorption while increasing crop yield. This approach can be implemented in farms with heavy metal contamination that falls below regulatory limits, thereby improving vegetable yield and safety, as well as boosting farmer income and promoting ecological sustainability.
Sustainability | AgricultureThis technology uses the dry-anaerobic-fermentation system to treat solid wastes such as kitchen waste, livestock manure and agricultural wastes and converts them into biogas for heat and electricity utilization. This technology has the advantages of low energy consumption, low cost and low waste liquid output. ITRI has experience in the design and construction of a 40 tons/day commercial plants and established a laboratory test platform, an 1-m3 demonstration plant and a 10-m3 quasi-commercial system can be used to help the industry for the bio-source assessment and technical verification.
Sustainability | Green Energy & EnvironmentBacillus velezensis KHH13 (KHH13), a proven plant growth promoter, has been commercialized for agricultural use. We developed a heat tolerance-enhancing KHH13 formulation (HA+KHH13) and its production technology. In greenhouse cucumber trials under high-temperature stress, HA+KHH13 reduced plant wilting by 66% and increased biomass by 15.38% compared to the control. Summer field trials demonstrated a 19.21% increase in marketable fruit rate and a 3.3 ton per hectare yield increase with KHH13-HA.
Sustainability | Agriculture-
Sustainability | Green Energy & EnvironmentITRI developed a new Metal-Organic Frameworks (MOF) solid desiccant. Compared with traditional adsorbents, the adsorption capacity was increased by more than 30%, and the regeneration temperature dropped from 100~180℃ to below 80℃, which the high-efficiency heat pump can drive. ITRI also devises a low regeneration temperature ionic liquid desiccant. Because of the liquid property, the ionic liquid desiccant system has a significant advantage in system design. However, the lowest dew point of liquid desiccant is lower than that of solid desiccant, so both have their characteristics. These technologies can be applied to compressor air dryers, atmospheric dryers, process environmental control rooms, and dehumidifiers.
Sustainability | Electronics & Optoelectronics/Materials & Chemical Engineering & Nanotech/Biotechnology & Medical care/Machinery & System/Green Energy & Environment/Life ApplicationThe high-density GaN PD power supply uses the buck-type patented architecture as the main design axis to design a 140W power supply that complies with the PD 3.1 specification. Its power density is 40% higher than the traditional design, reaching 25W/in3.
Sustainability | Information & Communications/Electronics & Optoelectronics/Life ApplicationThe hydrogen production efficiency of anion exchange membrane (AEM) high-pressure electrolyzers surpasses that of conventional alkaline electrolysis technology, and its material costs are more favorable than proton exchange membrane (PEM) technology. This technology offers advantages such as reduced usage of precious metals, high-pressure output, and adaptability to fluctuations in renewable energy. The hydrogen production efficiency of this technology can reach 65%, and it can operate at low alkaline concentrations (<1M KOH), providing operational and maintenance advantages. Additionally, the ability to directly generate hydrogen at 30 bar pressure reduces pipeline transportation costs or lowers the energy consumption for high-pressure storage on the back end.
Sustainability | Green Energy & EnvironmentComing soon!