TerraLIX has been awarded New Excellent Technology (NET) certification by the Ministry of Trade, Industry and Energy (MOTIE) of the Republic of Korea, recognizing the company's proprietary hydrogen fuel cell power technology.
Of the 12 technologies selected nationwide in the first half of this year, TerraLIX received certification under the official designation:
"1.5 kW Portable Hydrogen Fuel Cell Power Technology Featuring a Closed-Cathode Air-Cooled Architecture with Titanium Bipolar Plates"
The certification carries a two-year validity period.
TerraLIX has been awarded New Excellent Technology (NET) certification by the Ministry of Trade, Industry and Energy (MOTIE) of the Republic of Korea, recognizing the company's proprietary hydrogen fuel cell power technology.
Of the 12 technologies selected nationwide in the first half of this year, TerraLIX received certification under the official designation:
"1.5 kW Portable Hydrogen Fuel Cell Power Technology Featuring a Closed-Cathode Air-Cooled Architecture with Titanium Bipolar Plates"
The certification carries a two-year validity period.
TerraLIX has been awarded New Excellent Technology (NET) certification by the Ministry of Trade, Industry and Energy (MOTIE) of the Republic of Korea, recognizing the company's proprietary hydrogen fuel cell power technology.
Of the 12 technologies selected nationwide in the first half of this year, TerraLIX received certification under the official designation:
"1.5 kW Portable Hydrogen Fuel Cell Power Technology Featuring a Closed-Cathode Air-Cooled Architecture with Titanium Bipolar Plates"
The certification carries a two-year validity period.
The recognized technology delivers a 1.5 kW portable hydrogen fuel cell power system built on a closed-cathode air-cooled stack architecture, achieving humidifier-free operation, low-temperature start-up at −20 °C, and high power density in a single integrated platform.
The system has been fully validated against CE Safety (IEC 62282-5-100, Portable Fuel Cell Power Systems) and CE EMC requirements, with 720 hours of continuous operation testing confirming its readiness as a portable power generation solution for field deployment.
The recognized technology delivers a 1.5 kW portable hydrogen fuel cell power system built on a closed-cathode air-cooled stack architecture, achieving humidifier-free operation, low-temperature start-up at −20 °C, and high power density in a single integrated platform.
The system has been fully validated against CE Safety (IEC 62282-5-100, Portable Fuel Cell Power Systems) and CE EMC requirements, with 720 hours of continuous operation testing confirming its readiness as a portable power generation solution for field deployment.
The recognized technology delivers a 1.5 kW portable hydrogen fuel cell power system built on a closed-cathode air-cooled stack architecture, achieving humidifier-free operation, low-temperature start-up at −20 °C, and high power density in a single integrated platform.
The system has been fully validated against CE Safety (IEC 62282-5-100, Portable Fuel Cell Power Systems) and CE EMC requirements, with 720 hours of continuous operation testing confirming its readiness as a portable power generation solution for field deployment.
The closed-cathode architecture structurally resolves the failure modes that have historically limited open-cathode designs — membrane drying, water condensation, oxygen starvation, and corrosion of carbon-based supports — securing durability and reliability across demanding operating conditions.
The closed-cathode architecture structurally resolves the failure modes that have historically limited open-cathode designs — membrane drying, water condensation, oxygen starvation, and corrosion of carbon-based supports — securing durability and reliability across demanding operating conditions.
The closed-cathode architecture structurally resolves the failure modes that have historically limited open-cathode designs — membrane drying, water condensation, oxygen starvation, and corrosion of carbon-based supports — securing durability and reliability across demanding operating conditions.
This NET certification reinforces TerraLIX's position as a developer of closed-cathode air-cooled hydrogen fuel cell platforms engineered for extreme operating environments — delivering reliable, high-density power across defense, aerospace, and advanced mobility markets where conventional systems cannot.
This NET certification reinforces TerraLIX's position as a developer of closed-cathode air-cooled hydrogen fuel cell platforms engineered for extreme operating environments — delivering reliable, high-density power across defense, aerospace, and advanced mobility markets where conventional systems cannot.
This NET certification reinforces TerraLIX's position as a developer of closed-cathode air-cooled hydrogen fuel cell platforms engineered for extreme operating environments — delivering reliable, high-density power across defense, aerospace, and advanced mobility markets where conventional systems cannot.
CEO
Tae-Young Kim
support@terralix.com
Tel.
+82-63-581-1633
Fax.
+82-63-581-1639
Address
56332) 28, Sinjaesaengeneoji-ro, Haseo-myeon,
Buan-gun, Jeollabuk-do, Republic of Korea
TerraLIX Co., LTD
CEO
Tae-Young Kim
support@terralix.com
Tel.
+82-63-581-1633
Fax.
+82-63-581-1639
Address
56332) 28, Sinjaesaengeneoji-ro, Haseo-myeon, Buan-gun, Jeollabuk-do, Republic of Korea
TerraLIX Co., LTD
CEO
Tae-Young Kim
support@terralix.com
Tel.
+82-63-581-1633
Fax.
+82-63-581-1639
Address
56332) 28, Sinjaesaengeneoji-ro, Haseo-myeon, Buan-gun, Jeollabuk-do, Republic of Korea
TerraLIX Co., LTD