R&D Status

1

R&D title

Development of high efficiency, mid/big sized reformer technology with carbon emission reduction of 2,000kg/day to improve the hydrogen price competitiveness

Participants

Superintendent : WONIL T&I

Participants : Korea Institute of Energy Research, Korea Gas Corporation, Chungnam National University

R&D periods : 2021. 5. 1. ~ 2025. 04. 30.

R&D goals

Capacity : 2,000 kg/day, System efficiency : 80% HHV ↑

PSA recovery rate : 85%, CO2 recovery rate : 90%.

ISO 14687-2019 (hydrogen quality criteria) : Purity 99.999%, CO 0.2 ppm↓

CO2 reduction costs : 40,000 won/ton, cumulative operation hours : 1,500 hrs ↑(ISO 16110-1 hydrogen safety criteria >720hrs is satisfied.)

Expected outcomes

Acquire the early phase distribution infrastructure in Korea and overseas through 100% localization of high purity hydrogen production units of the local based market

Create new industry and reduce greenhouse gas through promotion of blue hydrogen infra.

Main customers

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    Smart hydrogen cities

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    Hydrogen charging stations

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    H-ESS and emergency power generation system

2

R&D title

Hydrogen test city infrastructure development

Participants

Superintendent : Korea Institute of Energy Research

Participants : WONIL T&I Co., Doosan Fuelcell Co., EM Solution, Korea University and so on

R&D periods : 2020. 04. 04 ~ 2023. 12. 31

R&D goals

By merging hydrogen energy and renewable energy in the townhouse areas and the eco-friendly construction technologies, achieve the 130% energy independence rate and also promote the role as a pro-consumer in the residential areas, and produce hydrogen while focusing on safety.

Use of hydrogen storage alloy based safe hydrogen storage, multi fuels for fuel battery technologies to resolve the unbalance of energy demands in each season and

verification of townhouse models in various house and energy environments and supplementation of the system and development of a business model to promote spreading of hydrogen energy in the residential area.

Expected outcomes

Urban/residential safe hydrogen storage system
: Acquire hydrogen storage alloy composite manufacturing technologies.
: >Design, manufacture and verify a 120 kg large-capacity hydrogen storage system.

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Special purpose and military purpose
(Technology applied to Jangbogo III)

3

R&D title

Development of safety criteria for hydrogen storage containers and fuel supply systems for ships

Participants

Superintendent : Korean Register of Shipping

Participants : WONIL T&I, Korea Institute of Machinery and Materials. Shin Young Co., Hanjin Heavy Industry, Sunbo Industry, Iljin Hysolus, Emec Co, Pusan University

R&D periods : 2020. 04. 01 ~ 2024. 12. 3

R&D goals

Development of safety criteria for hydrogen storage containers (liquid, gas, solid) and fuel supply systems for ships

Expected outcomes

Can verify the level of domestic hydrogen shipbuilding technology which is just at the basic research level and enhance it to a commercialization level by preparing the hydrogen conveyance/propulsion tech criteria.

Can set the specific tech development goals for hydrogen conveyance/propulsion ships for commercialization purposes.

Can contribute to implementation of clean harbors by preparing the legal basis for hydrogen ship operation on the sea.

4

R&D title

Regulation-free special zone’s(Ulsan) hydrogen fuel battery driving system application and operation verification

Participants

Superintendent : Gaoncell Co.

Participants : WONIL T&I Co., Iljin Hysolus Co., Hana TPS, KOCETI (Korea Construction Equipment Technology Institute) and so on.

R&D periods : 2020. 1. 1 ~ 2021. 12. 31

R&D goals

Verification of special purpose hydrogen green mobility with eco-friendly hydrogen fuel batteries
: Hydrogen fuel battery power pack manufacturing and mounting(forklift) and environmental application evaluation and optimization
: Development of the world's first solid hydrogen power pack forklift technology with 100bar or less
: Hydrogen fuel battery MEA development with localized parts of forklifts

Expected outcomes

Urban/residential safe hydrogen storage system
: Acquire hydrogen storage alloy composite manufacturing technologies.
: >Design, manufacture and verify a 120 kg large-capacity hydrogen storage system.

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    Hydrogen fuel battery applied green mobility

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    System to evaluate the vacuum induction/hydrogen storage alloy and solid hydrogen storage system

5

R&D title

Solid hydrogen storage system development for fuel battery forklifts

Participants

Superintendent : Hyundai Kia Motor

Participant : WONIL T&I Co.

R&D periods : 2020. 3. 2 ~ 2022. 7. 31

R&D goals

Development of fuel battery storage systems for forklifts with solid hydrogen storage technologies
: Can support low pressure charging/storage and simplify the vapor storage type of high pressure charging facility.
: Maximize the hydrogen storage capacity with high density and weights and maintain a balanced weight design of forklift for application to the existing forklifts.

Expected outcomes

Urban/residential safe hydrogen storage system
: Acquire hydrogen storage alloy composite manufacturing technologies.
: >Design, manufacture and verify a 120 kg large-capacity hydrogen storage system.

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    Details of R&D for solid hydrogen storage systems

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    Solid hydrogen storage system for forklift with a fuel battery

6

R&D title

Hydrogen reaction heat based hydrogen/oxygen generator (unmanned submarines)

Participants

Superintendent : KAIST

Participant : WONIL T&I Co.

R&D periods : 2019. 12. ~ 2022. 08. 22

R&D goals

Development of high energy density and efficiency fuel battery system prototypes with new conceptual hydrogen and oxygen supply technologies for long hours of underseas operation of unmanned submarines

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hydrogen fuel cell-applied green mobility

Expected outcomes

Implementation of high efficiency fuel battery systems to contribute to the improved weapon systems

Development of high efficiency and energy density fuel battery systems to acquire adequate technologies for operating the futuristic weapon system for the army

Applicable to an unmanned system with restrictions due to low energy density of the existing second battery and responds to advancement requests for weapon systems.

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Solid hydrogen storage system
for unmanned submarines

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    Macromolecular compound for manufacturing of MBR separators and separator manufacturing method using it

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    Manufacturing method for hollow fiber for vapor separator having a sponge structure

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    Vapor separator and coating methods to improve the separation performance of vapor separator

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    Titanium-zirconium based hydrogen storage alloy and manufacturing method thereof

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    Pressure circulation adsorption method and device

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    Adsorption system for the adsorption process and the adsorption process based mixed gas separation method

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    Vapor reformer device including the distributor for the multi tube reactors and material reforming methods using it

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    Fuel pre-heating integrated type of vapor reformer and a hydrogen manufacturing system thereof

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    Zeolite based carbon monoxide selective adsorbent and manufacturing method thereof

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    Pressure circulation adsorption method and device (USA)

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    Pressure circulation adsorption method and device (China)

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