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YACI
Widely used in distributed generation, combined heat and power (CHP), backup power systems, mobile power sources, and other fields, providing customers with efficient and stable clean energy solutions.
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YACI
High mechanical strength and ease of stack assembly; excellent stability and reliability; low impedance and high power density; flexible size customization.
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YACI
A high-tech enterprise specializing in the R&D and industrial application of core technologies for solid oxide fuel cells (SOFCs) and solid oxide electrolyzers (SOECs).
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YACI Hydrogen is committed to providing global customers with efficient, clean, and sustainable energy solutions.
Porcelain Heart Builds Capability
Hydrogen Powers the Future
◀ The company is a high-tech enterprise specializing in the R&D and industrial application of core technologies for solid oxide fuel cells (SOFCs) and solid oxide electrolysis cells (SOECs). The company’s founder has extensive experience successfully founding and developing several prominent real-world enterprises.
◀ Leveraging Ya'an’s abundant green electricity resources and its deep-rooted local ceramic industry foundation, Ya Ci Hydrogen has established a comprehensive R&D and manufacturing platform spanning the entire value chain—from nano-powders and single cells to fuel cell stacks—and is committed to becoming a leading player in the SOC sector. Currently, the company boasts an experienced, highly qualified, and exceptionally capable R&D team that can efficiently translate cutting-edge laboratory-developed products into mass production and rapidly capture market opportunities. We are dedicated to providing global customers with efficient, clean, and sustainable energy solutions.
Registered capital: 10 million yuan
The laboratory covers an area of 2,000㎡.
2 R&D pilot production lines
Annual production capacity per single cell: 150,000 cells
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What's Our Product
SOFC-specific powder
SOFC-specific powder
Core Functions: Core raw materials for SOFC/SOEC electrodes and electrolytes, including YSZ, GDC, and NiO series; Technical Parameters: Purity ≥ 99.7%, with uniformly controllable doping; Technical Highlights: High purity with low impurities, excellent sintering activity, and outstanding ionic conductivity; Market Advantages: Suitable for operating conditions between 600-1000℃, covering the preparation of all battery components, and offering leading cost-effectiveness in China.
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Anode-Supported Single Cell (ASSC)
Anode-Supported Single Cell (ASSC)
A core SOFC stack component with the anode as structural support. Stacking sequence: Anode Support → Functional Layer → Electrolyte → Barrier Layer → Cathode. It directly converts chemical energy from fuels (hydrogen, natural gas, alkanes) into electricity via micro-electrochemical reactions,with sustained thermal output.
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Electrolyte-Supported Single Cell (ESSC)
Electrolyte-Supported Single Cell (ESSC)
A core SOFC stack component with dense electrolyte as structural support. Stacking sequence: Anode → Electrolyte → Cathode (sandwich structure). It stably realizes electrochemical reactions between fuel and oxidant at high temperatures, with high energy utilization,suitable for high-efficiency power generation and industrial energy recovery.
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Anode-Supported Planar Cell Stack (ASPCS)
Anode-Supported Planar Cell Stack (ASPCS)
A core SOFC stack device with anode-supported single cells as key units. It directly converts chemical energy from fuels (hydrogen, natural gas, etc.) into electricity via electrochemical reactions, featuring high efficiency, low pollution, and wide fuel adaptability. Suitable for distributed power generation, industrial waste heat utilization, and new energy vehicle power systems.
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SOFC Anode-Supported Microtubular Cell (ASMC)
SOFC Anode-Supported Microtubular Cell (ASMC)
A core unit for tubular SOFC stacks, with tubular anode as support and integrated electrolyte/cathode. Featuring small size, high stability, and strong thermal shock resistance, it can form micro-stacks to convert fuel chemical energy (hydrogen, methane) into electricity. Suitable for portable power, distributed micro-generation, and special equiment power supply.
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Product
R&DStrength
◀ A professional R&D team of over 20 members, more than 50 pieces of experimental equipment, a 2,000㎡ laboratory, and 2 R&D and pilot production lines.
◀ The company boasts an R&D team composed of numerous PhDs and Masters, whose expertise spans materials science, electrochemistry, chemical engineering, mechanical engineering, and other disciplines. The team is dedicated to technological innovation and product development in the fields of SOFC and SOEC.
◀ Through internal incubation and collaboration with enterprises, we have successfully transformed multiple laboratory technologies into market-ready products, covering high-performance powders, slurries, flat-plate single cells, tubular single cells, and fuel cell stacks—achieving breakthroughs on both the technological and commercial fronts.
IndustryApplication
YACI Hydrogen is committed to providing global customers with efficient, clean, and sustainable energy solutions.
Distributed Power Generation
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Residential Combined Heat And Power (M-CHP)
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Industrial Sector
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Transportation
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Specialized Fields
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YACI Hydrogen is committed to providing global customers with efficient, clean, and sustainable energy solutions.
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YACI Hydrogen is committed to providing global customers with efficient, clean, and sustainable energy solutions.
FAQ
What are the advantages of SOFC products?
In power-generation mode, the energy conversion efficiency exceeds 60%; in combined heat and power mode, the energy conversion efficiency can reach over 90%. Featuring a fully solid-state design, this system carries no risk of thermal runaway and exhibits high chemical stability, mechanical strength, reliability, and operational stability. It can utilize a wide range of feedstocks, including hydrogen, coke oven gas, natural gas, methane, shale gas, and biogas. During operation, it produces no noise or vibration, and its emissions contain no pollutants such as sulfides or nitrogen compounds.
What are the characteristics of an anode-supported fuel cell?
High efficiency and energy savings, environmentally friendly and low-carbon; high fuel flexibility; high stacking density with lower unit weight; modular design.
What are the characteristics of SOFC anode-supported microtubular cells?
Compatible with a variety of fuel systems, it can use hydrogen, natural gas, methanol, and other hydrocarbon fuels; highly resistant to thermal shock; short start-up time, rapid heating rate, and excellent performance in cold-to-hot and hot-to-cold cycling; compared to conventional tubular SOFCs, it boasts a higher volumetric energy density and superior sealing performance; non-standard product dimensions are available upon customization.
What are the characteristics of nickel oxide powder?
High purity, strong activity, excellent conductivity, superior high-temperature stability, narrow particle size distribution, free of large particles, and boasts excellent dispersibility and ease of compounding.
Ya'an Yaci Hydrogenation New Energy Science &Technology Development Co., Ltd.
Contact Us
Tel:+8613088268290
Email:zhaohui@yaci-tech.com
ADD:No. 10 Binhe East Road, Economic Development Zone, Ya'an, Sichuan, China
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