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As the global demands for high-purity silicon carbide powder continues to grow, this exhibits uses silicon wafer leftover material as the silicon source. Chair Man Hi-Tech Co. developed high-temperature direct reaction to synthesize regenerated silicon carbide powder with a purity of 3N, and further produced a silicon carbide wafer carrier. Through the development of high-value recycled materials, in addition to helping to master the silicon carbide materials independently, and gradually realizing the localization of raw materials, and with the advantages manufacturing and CNC processing technology, it provides customized overall solutions for key wafer carriers required by the domestic industry.
Sustainability | Green Energy & Environment/Materials & Chemical Engineering & Nanotech"Circular Materials Verification and Matchmaking (CMVM) Platform utilizes innovative technologies such as AI (Artificial Intelligence) and blockchain to comprehensively record information regarding the quality and flow of recycled materials. This ensures a safer and more transparent environmental distribution of resource recycling products, further reducing reliance on primary raw materials. This technology has also been recognized as a finalist for the 2022 """"R&D 100 Awards. Circular Materials Verification and Matchmaking (CMVM) Platform integrates long-lasting circular pavement design and verification mechanisms. By combining steel aggregates (from the steel industry) and reclaimed materials, it can replace up to 80% of the usage of natural sand and gravel. These pavements offer both flexibility and rigidity, and they have already been demonstrated in applications such as the Formosa Plastics Corporation Renwu Plant and Kaohsiung Intercontinental Container Terminal. Field tests have shown that the durability of these pavements can increase by more than 5 times compared to traditional methods, resulting in a reduction of over 70% in carbon emissions. This approach delivers economic, environmental, and carbon reduction benefits."
Sustainability | Green Energy & EnvironmentTaiwan generates an average of 160,000 tons of discarded oyster shells annually. Formosa Plastics Cprporation R&D team transforms these waste oyster shells through calcination and grinding into "Antibacterial Shell Powder" with an antibacterial rate exceeding 99.99%. They combine this antibacterial shell powder with various plastic materials to produce a wide range of antibacterial products. Long-FON DevelopmentLTD. actively embrace ESG principles by incorporating this "Antibacterial Oyster Shell Powder" into their perennially popular air-cushioned slippers, aiming to promote the circular economy. This product has been verified as a "Made in Taiwan" (MIT) product with the MIT Smiling Face Mark. In bending tests, the finished shoes withstood 22,500 cycles without damage and meet the CNS 3478 plasticizer content testing, ensuring that the product is safe for human use and poses no harm, making it a reliable and secure choice.
Sustainability | Green Energy & EnvironmentManual peeling of pomelos is time-consuming, labor-intensive, and can lead to injuries for operators due to the corrosive nature of pomelo peel oil. If mechanization could replace manual labor, it would significantly improve the existing challenges. Therefore, we have developed a set of equipment and processing procedures for the peeling and flesh extraction of pomelos. After cleaning and removing surface dirt from the pomelos, the peel is air-dried. Subsequently, a pomelo peeling machine is used to remove most of the white membranes from the pomelo skin and flesh, reducing the probability of bitterness in the flesh caused by contact with the membranes. Finally, we use the pomelo flesh extraction device to gather the flesh. The flesh can be sterilized, packaged, and stored at low temperatures, making it convenient for subsequent processing and utilization.
Sustainability | AgricultureEcoCal® Laundry Detergent composition for the laundry contains a surfactant component, and high-temperature calcination "EcoCal® Shell Calcium Oxide" powder obtained by recycled gold clam shells from Lichuan fishery in Hualien, Taiwan. Bottles made from 100% post-consumer recycled plastic and paperboard wraps with recycled paper and soy ink printing. EcoCal® Laundry Detergent won the Silver Award of The Environmental Protection Administration 111 Annual Excellent Resource Recycling Enterprise (startup company), as well as the 2022 Golden Pin Design Award "Annual Special Award - Recycling Design" and "Annual Best Design Award".
Sustainability | Life ApplicationThe production process of canned tea drinks produces a large amount of tea leaves, which contain polyphenols and other components that can be reused. This technology uses black tea leaves as raw material and uses enzyme decomposition technology to obtain the extract which, with anti-oxidation and tyrosinase inhibitory effects, can be used to develop tea skin care products and increase the tea leaves recycling value.
Sustainability | AgricultureThis technology is used for biosecurity white shrimp farming in common or photovoltaic facilities by adopting two high-density, minimum water usage modes: biofloc and simple recirculating systems, greatly reducing the cost of water treatment, the risk of disease transmission and the wastewater discharge. The production of each period can reach 4.8-5.0 kg/m2 and at least two batches per year. This technology simultaneously improves the paleness deviation of white shrimp under facilities. By adjusting the farming environment and feed, the shell color and commodity value can be effectively enhanced.
Sustainability | AgricultureUsing low-carbon physical recycled fiber materials as materials, make recycled fiber-related products and apply them to clothing, home furnishings, bags, and shoe textiles. The technology is aimed at all kinds of fabrics by physical defibrillation and recycling fabric classification, slitting, melting, granulation, spinning and layering ATY processing technology, to develop regenerated fiber layer ATY yarn and establish staple spinning cotton, Color matching and carding, drawing, roving, worsted, winding and other process development conditions and technologies are established to improve the reuse rate of industrial process waste (discarded yarn, bobbin yarn, defective cloth, and garment pieces), and develop Regenerated fiber is used in clothing, curtains, shoe materials and other related products.
Sustainability | Green Energy & Environment/Life ApplicationThis technology includes the aril separator machine and the recycling and reusing technology of the separated residue. The aril separator machine consists of a fixed cutting table, a rotary scraper and an aril separator. With a consistent operation process, aril can be obtained for subsequent processing use. Fermentation technology can be applied to the separated residue to turn it into reusable resources in order to achieve waste reduction and recycling.
Sustainability | AgricultureWaste green bamboo stalks are made into green bamboo boards through processes such as crushing, grading, sterilization and extrusion. The Phalaenopsis is cultivated on green bamboo boards. After 4 years of cultivation, it shows that the cultivation results are similar to those of the habitual snake wood board and no cracks are found. It can replace the traditional cultivation mode of the Phalaenopsis on snake wood board. It can also be used to cultivate foliage plants such as staghorn fern and nest fern as flower cultivation materials.
Sustainability | AgricultureJelly fig (<Ficus awkeotsang>) is an indigenous crop in Taiwan. A high-value extract was developed from the embryonic cells of jelly fig. The extract maintained the active compound, it was found to be non-toxic and showed melanin inhibition, anti-oxidation, solar-aging resistance, anti-inflammation, and skin repair in cell and animal models. These findings have been published in international journals. Furthermore, the development of healthcare products has been further completed and anti-inflammation clinical trials are now being carried out. It suggested that the jelly fig extract is a potential material for pharmaceutical applications.
Sustainability | AgricultureExtracting lemon peel residue by using non-heated ultrasonic extraction technology, high-value products such as polysaccharides (e.g. pectin) and alkenes (e.g. limonene) can be extracted. The extracted lemon peel is then inoculated with ITRI's patented bacteria, and combined with the conversion feed process and technology, it can be made into carbon-reducing silage and supplied to the livestock industry as feed. Through the above-mentioned conversion of agricultural residues into by-products with economic value, it can not only help manufacturers process food processing residues, but also recycle them, making full use of the value of the remaining materials.
Sustainability | Green Energy & Environment/AgricultureThis technology is an improved version of traditional steam distillation. By optimizing the condensation system, it achieves highly efficient condensation during the extraction of plant essential oils. The condensation system can automatically adjust the cooling water temperature, recycle water resources, and maintain a constant steam pressure and temperature. There is no need to closely monitor and adjust the equipment. Additionally, it allows simultaneous extraction of different materials, and the essential oils and hydrosols can be collected separately, resulting in labor-saving benefits.
Sustainability | AgricultureJTED is designed to reduce bycatch in trawling fishery. Based on the principle of size screening, the juvenile and trash fish guided into the trawl net will have a chance to escape when they touch the JTED, while the larger economical fish cannot pass through the JTED and follow the water current to be caught in the codend. The juvenile and trash fish excluded by JTED are all living bodies, which can be converted into basic productivity in the ocean, and promoting the recovery of aquatic resources in the surrounding waters of Taiwan.
Sustainability | Agriculturerenouvo was founded in 2018 with a core technology of converting agricultural waste into biomass materials and making home compostable packaging that are successfully exported globally, our low-carbon recycling economy concept has expanded globally by winning IDA and MUSE design awards in the US as well as a gold medal at the Concours Lepine International Paris.
Sustainability | Green Energy & EnvironmentThe total number of mobile phones in the world is nearly 10 billion, more than the world's population. However, these mobile phones will be incinerated and treated with toxic chemical solvents, resulting in a large amount of carbon emissions and waste liquid, which will seriously impact the environment. UWin Nanotech. adopts a low-carbon, eco-friendly recycling process, and low water consumption in the wet recycling process. It does not use toxic chemicals, which greatly reduces the impact on the environment. Such green process processing procedures have been certified by the Ministry of Environment and Resources, and have cooperated with international well-known brands and environmental protection enterprises to properly dispose of electronic waste.
Sustainability | Information & Communications/Green Energy & EnvironmentWe utilize ultrasound technology to clean non-standard sweet potatoes while reducing the monosaccharide compound in the sweet potatoes. Subsequently, we employ a two-stage non-fried drying process to achieve an oil-free and crispy texture for the sweet potato slices. This technology utilizes secondary sweet potatoes as raw materials, achieving resource sustainability and byproduct value-added benefits. Additionally, non-fried processing technology retains a higher content of functional compounds compared to the conventional crisp production method, and carotenoid content is 16 times higher than regular crisps. What's more important is that the investment cost for this drying processing equipment is lower compared to other fried processing lines, and the subsequent application possibilities will be even broader.
Sustainability | AgricultureThe technology focuses on the sustainable recycling of resources. The development direction of this technology combines a focus on a younger market with a functional product orientation, simultaneously enhancing the product value of domestically produced agricultural crops in Taiwan. We choose asparagus byproducts and utilize fine processing techniques for production, combined with specific extraction conditions, to obtain plant-based protein. We mix the plant-based protein obtained from asparagus byproducts with an appropriate amount of pineapple byproducts to develop a product with pineapple flavor and texture. This product is designed for both the younger generation and the elderly, providing a high-protein solution for muscle development. Moreover, it stands out as a rare vegan protein supplement in the current market.
Sustainability | AgricultureComing soon!
