On the October 18th, TCC will make its debut at Energy Taiwan, the largest annual energy event in Taiwan, to showcase "EnergyArk," the world''s first patented "Ultra-High Performance Concrete (UHPC) Energy Storage Cabinet" that integrates low-carbon construction materials with new energy technologies.
This fireproof and fire-extinguishing Ultra-High Performance Concrete (UHPC) cabinet combines energy storage with EV charging, addressing critical needs in the rapidly growing electric vehicle market.
Available in three sizes for electric vehicle charging or commercial level power, the cabinet has panels of UHPC whose compressive strength exceeds 15,000 psi and robust nature provides two hours of
Available in three sizes for electric vehicle charging or commercial level power, the cabinet has panels of UHPC whose compressive strength exceeds 15,000 psi and robust nature provides two hours of protection to heat hovering 1,050°C (1,920°F).
The UHPC energy storage cabinet provides Taiwan''s first DC-DC charging infrastructure for a symbolic store opened in July 2022 in Taiwan by one of Asia''s largest convenience store companies.
The UHPC energy storage cabinet provides Taiwan''s first DC-DC charging infrastructure for a symbolic store opened in July 2022 in Taiwan by one of Asia''s largest convenience store companies.
Installs a BTM energy storage system at TCC''s Hoping Plant in Eastern Taiwan to provide supplemental operating reserve services, which was the largest site joined in the electricity trading platform in Taiwan in 2022.
TCC''''s Ultra High Performance Concrete (UHPC) energy storage cabinet, signature-named "Energy Ark" which carries the dual conceptions of low-carbon and green energy as a bridge between them, is a jigsaw puzzle piece of our final picture of "Fantasy of Cement."
This fireproof and fire-extinguishing Ultra-High Performance Concrete (UHPC) cabinet combines energy storage with EV charging, addressing critical needs in the rapidly growing electric vehicle market.
It is also the first in Taiwan to install the new generation DC-DC charging infrastructure. To reach this goal, TCC designed and manufactured the world''s first ESS using environmental, fire- and explosion-resistant ultra-high performance concrete (UHPC) shell used as the cabinet for the ESS.
Compared to traditional 20/40-foot metal energy storage containers, our single-unit modular design offers greater space flexibility, enhances space utilization efficiency, and reduces asset risks during disasters.
The energy storage system also complies with NFPA 855 standards. Constructed with UHPC, EnergyArk offers fire resistance, heat resistance, and high-strength characteristics, distinguishing it from traditional metal containers.
The energy storage system also complies with NFPA 855 standards. Constructed with UHPC, EnergyArk offers fire resistance, heat resistance, and high-strength characteristics, distinguishing it from traditional
The UHPC energy storage cabinet provides Taiwan’s first DC-DC charging infrastructure for a symbolic store opened in July 2022 in Taiwan by one of Asia’s largest convenience store companies. This also marks as a milestone for the commercialization of the UHPC energy storage cabinet.
With its properties, UHPC can extend the life span of buildings from 50-70 years to 100-120 years, which reduces building reconstruction and avoids construction wastes generated in the interest of carbon reduction. Meanwhile, a patented UHPC energy storage cabinet was developed.
This is a brand new product jointly developed by TCC Low-carbon R&D Center and the Taiwan Construction Research Institute UHPC has greater compressive strength, toughness and durability than traditional concrete, with a life cycle up to 100 years, promoting the new use of low-carbon construction materials
Ultra-High Performance Concert, UHPC. Low-carbon infrastructure materials. UHPC cabinets are corrosion-resistant, leak-proof, salt-resistant, and highly weather-resistant, suitable for various construction environments. ● The general lifespan of anti-corrosion paint for metal cabinets is about 3-5 years.
Metal bodies are prone to moisture penetration through their seams. The thermal conductivity of UHPC cabinets is lower compared to traditional metal cabinets. The cabinet material has a long lifecycle, reducing carbon emissions by 50% compared to traditional metal cabinets. ● The lifespan of metal cabinet materials is around 10 years.
