고등기술연구원

CCUS(Carbon Capture, Utilization & Storage) Technology

Carbon capture and chemical conversion technology as an element of CCUS to utilize greenhouse gases generated by carbon neutral response technology.

· Carbon capture technology using PSA/TSA

· Dry reforming process technology

· Autothermal reforming process technology

· CO2 hydrogenation process technology

· Plasma-assisted CO2-free hydrogen production technology

Biofuel and raw material production and utilization technology

We are conducting research on the production of carbon-neutral raw materials and the development of various technologies to produce energy and products using these materials, in order to achieve a sustainable carbon-neutral society.

· Biomass based Jet-fuel production technology

· Biomass torrefaction technology to Bio-fuel production

· Biomass gasification technology

· Bio-ethanol based chemical production technology

LOHC-based chemical hydrogen storage

Development of LOHC-based chemical hydrogen storage integrated technology

• LOHC-based chemical hydrogen storage conceptual design according to hydrogen storage environment
• Optimizing LOHC materials for maximizing chemical hydrogen storage and acquiring applicability
• Optimization of catalyst and reaction technology for LOHC-based chemical hydrogen storage
• LOHC-based chemical hydrogen storage process/system design/ construction/operation

Environmental pollution reduction technology

Research on environmental treatment technology that converts and removes pollutants that are harmful to the environment and human health through catalysts and chemical processes.

· Catalytic VOC conversion technology

· VOC catalytic combustion technology

· DeNOx technology using SCR process

Resource recycling/reuse technology

We are developing chemical recycling technology using thermal decomposition, depolymerization, gasification, and other technologies to establish a resource circulation ecosystem.

· Waste plastic based pyrolysis oil production technology

· Pyrolysis oil besed hydrogen production technology

· Tar removal technology using Red mud

Carbon-neutral clean hydrogen production technology

We are conducting research on clean hydrogen production technology centered on net-zero through renewable energy-based turquoise hydrogen production technology, not the conventional gray hydrogen.

• Development of turquoise hydrogen production technology through plasma/catalyst linkage process
• Development of turquoise hydrogen and high value-added carbon black production technology using liquid metal catalyst
• Development of turquoise hydrogen and high value-added hydrocarbon production technology from waste plastic pyrolysis oil

Carbon-Free Fuel Application NCC Process Technology

We are conducting research to reduce greenhouse gases in the petrochemical industry by burning carbon-free fuel (H2, NH3) instead of using by-product gas as fuel in the petrochemical NCC process.

• Development of carbon-free fuel-based NCC demonstration process technology
• Carbon-free fuel-based NCC concept/basic/detailed design technology

Green hydrogen production technology based on carbon-free fuel.

We are developing hybrid process technology to secure the original technology in the field of ammonia-based green hydrogen production.

Syngas production technology using carbon dioxide

Development of catalyst and reaction system for dry reforming reaction that produces syngas by reacting methane contained in by-product gas with carbon dioxide

• Development of high-performance dry reforming catalyst.
• Construction of 1,000 Nm3/day syngas production system and optimization.
• Analysis of economic and environmental impact of syngas production system.
• Derivation of design package for 100,000 ton/yr syngas production process.