Safe and environmentally friendly skid mounted/fixed/hydrogen production integrated hydrogenation station:
Wholesale on-Site Hydrogen Refuel Station for Port Equipment
H2 Hydrogen Station :
WOBO is dedicated to the research and application promotion of new energy technologies, with a focus on the hydrogen energy industry chain. We specialize in hydrogen production, purification, storage, filling, as well as downstream station construction and refueling in related fields.
WOBO primarily serves industries such as refining, steel, chemicals, electronics, optical fibers, and papermaking. We invest in and operate various types of gas production facilities, providing technical and engineering services, as well as various catalysts, adsorbents, and specialty valves. Currently, the company has completed or is constructing over 500 sets of Pressure Swing Adsorption (PSA) hydrogen production units, more than 200 sets of methane gas conversion hydrogen production units, over 70 sets of methanol hydrogen production units, and several sets of coal gasification hydrogen production units. We possess 130 sets of newly developed gas separation and energy storage technologies, including various petroleum hydroprocessing, chemical products, and fine chemical equipment. We have also established hydrogen production, transportation, compression, and refueling equipment technology platforms in collaboration with several well-known enterprises. These platforms have successfully achieved technology transfer and industrialized production.
The skid-mounted hydrogen refueling station integrates hydrogen storage systems, compressors, cooling units, gas dispensers, hydrogenation units, station control systems, and other components onto a single skid-mounted chassis. It features a compact structure, small footprint, low investment cost, short construction period, and convenient equipment installation and expansion. It can quickly meet customers' hydrogen refueling needs, catering to the diversified requirements of different enterprises. Additionally, skid-mounted hydrogen refueling stations can be factory-manufactured and installed, ensuring quality, safety, ease of operation, and maintenance.
Fixed hydrogen refueling stations are used in commercial refueling stations and research demonstration stations, with a more rational layout. They can choose between bundled trailer and hydrogen bundled pipe supply methods, are not restricted by site space, have better maintainability, and can meet the needs of small-scale refueling, enabling fast refueling.
Integrated hydrogen production and hydrogen refueling stations are applied in chemical industrial parks, main stations for refueling stations, and commercial refueling stations. They feature an integrated design of hydrogen production and hydrogenation, complementing two modes: hydrogen production through water electrolysis and external hydrogen supply through bundled vehicles.This ensures continuous and reliable hydrogen supply, achieving rapid hydrogen production and refueling while ensuring safety.
Product name |
Skid-mounted hydrogen refueling station |
Fixed hydrogen refueling station |
Daily filling capacity |
50kg/d-1000kg/d |
200kg/d-1000kg/d |
Filling pressure |
35MPa/70MPa |
35MPa/70MPa |
Application scenario |
Hydrogen demand for vehicle manufacturing plants, commercial refueling, and temporary refueling |
Commercial hydrogen refueling stations, research demonstration hydrogen refueling stations, etc |
For more information, please contact us. |
Product name |
Integrated hydrogen production and hydrogen refueling station. |
Hydrogen production capacity |
50~1000kg/d |
Filling capacity |
200~1500kg/d |
Filling pressure |
35MPa/70MPa |
Application scenario |
Hydrogen refueling stations in chemical industrial parks, main stations for refueling stations, commercial hydrogen refueling stations. |
For more information, please contact us. |
1. Hydrogen Production: The station utilizes various methods to produce hydrogen, such as water electrolysis, steam methane reforming, or other advanced technologies. This step involves the conversion of a feedstock into hydrogen gas.
2. Purification: The produced hydrogen goes through purification processes to remove impurities, ensuring the quality and safety of the hydrogen fuel.
3. Compression: The purified hydrogen is then compressed to increase its density, making it suitable for storage and transportation. Compression can be achieved through different techniques, including piston compressors, diaphragm compressors, or other advanced compression technologies.
4. Storage: The compressed hydrogen is stored in high-pressure tanks or cryogenic storage systems, depending on the station's design and requirements. These storage systems maintain the hydrogen at the desired pressure and temperature until it is ready for dispensing.
5. Dispensing: When a vehicle or equipment requires hydrogen refueling, the station's dispensing system delivers the compressed hydrogen to the user. This can be done through specialized dispensers equipped with safety measures to ensure proper and controlled refueling.
6. Safety Systems: Hydrogen stations incorporate various safety systems to prevent accidents and ensure the safe handling of hydrogen. This includes measures such as leak detection systems, ventilation systems, and emergency shutdown protocols.
7. Station Control and Monitoring: The hydrogen station is equipped with advanced control and monitoring systems to regulate the entire process, including hydrogen production, storage, compression, and dispensing. These systems ensure the station operates efficiently and maintain safety standards.
1. Clean and Sustainable Energy: Hydrogen is a clean and sustainable energy source as it produces only water vapor when used in fuel cells for power generation. It helps reduce greenhouse gas emissions and contributes to combating climate change.
2. Fast Refueling Time: Hydrogen refueling stations offer a comparable refueling time to traditional gasoline stations, typically taking just a few minutes to refill a hydrogen-powered vehicle. This enables quick turnaround times and convenience for vehicle owners.
3. Long Driving Range: Hydrogen fuel cell vehicles can provide long driving ranges comparable to traditional internal combustion engine vehicles. This eliminates range anxiety and allows for extended travel without the need for frequent refueling.
4. Versatile Applications: Hydrogen can be used in various applications beyond transportation, including power generation, industrial processes, and energy storage. This versatility enhances the potential for hydrogen utilization and creates opportunities for diverse industries.
5. Scalability and Flexibility: Hydrogen stations can be scaled up or down based on demand, making them adaptable to different regions and market needs. This flexibility enables the expansion of hydrogen infrastructure and supports the growth of hydrogen-powered vehicles.
6. Energy Independence: Hydrogen can be produced from diverse sources, such as renewable energy (e.g., solar, wind) or through sustainable processes (e.g., electrolysis). This offers the potential for energy independence and reduces reliance on fossil fuels.
7. Technology Advancements: Continuous research and development in hydrogen technologies are driving advancements in efficiency, safety, and cost-effectiveness. This leads to improved infrastructure and better performance of hydrogen stations over time.
8. Environmental Benefits: Hydrogen fuel cell vehicles produce zero harmful emissions, improving local air quality and reducing noise pollution. This is particularly beneficial in densely populated areas and urban environments.
9. Coexistence with Existing Infrastructure: Hydrogen stations can be integrated into existing fueling infrastructure, utilizing available land and distribution networks. This coexistence allows for a smooth transition to hydrogen-based transportation without significant infrastructure overhauls.
10. Demonstrating Innovation and Leadership: Embracing hydrogen technology showcases a commitment to innovation, sustainability, and leadership in the energy transition. It positions companies and regions at the forefront of the emerging hydrogen economy.
1. Transportation: Hydrogen refueling stations play a vital role in supporting the adoption of hydrogen fuel cell vehicles (FCVs) for both personal and commercial transportation. They enable the refueling of hydrogen-powered cars, buses, trucks, and other vehicles, providing a clean and sustainable alternative to traditional fossil fuel vehicles.
2. Public Transit: Hydrogen refueling stations are used to support hydrogen-powered public transit systems, such as hydrogen fuel cell buses. These buses offer zero-emission transportation options for urban and suburban areas, improving air quality and reducing noise pollution.
3. Fleets and Commercial Vehicles: Hydrogen refueling stations are utilized by fleets and commercial vehicle operators to support hydrogen-powered vehicles in their operations. This includes delivery trucks, taxis, service vehicles, and other fleet applications where long-range and quick refueling are essential.
4. Hydrogen Infrastructure Development: Hydrogen refueling stations serve as key infrastructure for the development and expansion of hydrogen ecosystems. They provide the necessary infrastructure backbone for the growth of hydrogen production, distribution, and utilization, supporting a wide range of applications beyond transportation.
5. Research and Development: Hydrogen refueling stations are used as research and development platforms for testing and advancing hydrogen technologies. They serve as demonstration sites to evaluate the performance, efficiency, and safety of hydrogen production, storage, and dispensing systems.
6. Industrial Applications: Hydrogen refueling stations can be employed in industrial settings where hydrogen is used as a feedstock or fuel. This includes applications such as hydrogen-powered forklifts, material handling equipment, and hydrogen fuel cells for backup power in industrial facilities.
7. Renewable Energy Integration: Hydrogen refueling stations can facilitate the integration of renewable energy sources into the energy system. They enable the conversion of excess renewable energy, such as solar or wind power, into hydrogen through electrolysis, which can be stored and utilized as a clean energy carrier.
8. Off-Grid and Remote Areas: Hydrogen refueling stations can be deployed in off-grid or remote areas where access to traditional fuel sources is limited. They offer a sustainable and independent energy solution for powering vehicles and equipment in remote locations.
9. Emergency Response and Disaster Relief: Hydrogen refueling stations can be strategically positioned to support emergency response and disaster relief efforts. They provide a reliable source of fuel for hydrogen-powered vehicles used by emergency services and aid organizations during crises.
10. Collaborative Initiatives: Hydrogen refueling stations are often part of collaborative initiatives involving government agencies, private companies, and research institutions. These initiatives aim to develop and demonstrate the viability of hydrogen technologies, promote hydrogen adoption, and foster partnerships for a sustainable hydrogen ecosystem.
Hydrogen dispenser |
Hydrogen dispenser pre-cooling heat exchanger |
Hydrogen membrane compressor |
Sequential control panel |
Gas dispenser |
Station control system |