Name: Single Hose Hydrogen Dispenser
Brand: Endurance
SKU: 237625322

ENDURANCE: Your Professional Hydrogen Refueling Machine Supplier!

Chongqing Endurance General Equipment Co.,Ltd is a comprehensive service company integrating manufacturing, installation and maintenance services. We mainly provide customers with energy equipment cleaning service. In addition, we also offer modern industrial greenhouse design and construction, equipment manufacturing and sales, engineering installation and testing services, such as CNG and LNG whole station design and manufacturing. The company's products are safe, stable and reliable in the use of gas station projects in Uzbekistan, Kazakhstan and other cities in China, and are well received by users!

Why Choose Us?

01/

High Quality
Quality assurance is reliable, we have a complete machine test, it will test the reliability, functions, safety of the equipment. Our products are manufactured or executed to a very high standard, using the finest materials and manufacturing processes.

02/

Professional Team
We have an excellent team that provides technology research and development, assembly manufacturing, and after-sales service. We collaborate and communicate effectively with each other, and are dedicated to delivering high quality results. We are capable of handling complex challenges and projects that require our specialized expertise and experience.

03/

Advanced Equipment
Our machines, tools or instruments designed with advanced technology and functionality to perform highly specific tasks with greater precision, efficiency and reliability.

04/

Perfect Service
ENDURANCE is available and dependable to provide support and solutions to customers at all times. We try and respond to all concerns within 24 hours and our teams are always at your disposal in case of any emergencies.

Hydrogen Storage Tank Assembly

A hydrogen storage tank assembly is an integrated system designed for the safe containment and storage of hydrogen gas under various conditions, typically for use in applications such as industrial processes, power generation, or as a fuel for vehicles equipped with fuel cells. The assembly consists of several key components that work together to ensure the efficient, reliable, and secure storage of hydrogen.

Isothermal Hydrogen Compression Unit

An isothermal hydrogen compression unit is a device designed to compress hydrogen gas while keeping the process at a constant temperature. This is achieved through the careful control of heat transfer between the hydrogen being compressed and the environment. In isothermal compression, the gas's temperature remains nearly unchanged as it is compressed, which is different from adiabatic compression where no heat is exchanged with the surroundings and the temperature increases.

Hydrogen Compression Unit Sled

A hydrogen compression unit sled is a mobile platform that houses a hydrogen compression system. The term "sled" refers to its mobility and the fact that it is often mounted on a skid or frame with wheels or runners, allowing it to be easily transported and positioned as needed within a facility or between locations.

Integrated Sled-Mounted Hydrogen Fueling Station

An Integrated Sled-Mounted Hydrogen Fueling Station is a compact and mobile hydrogen refueling solution designed for dispensing hydrogen fuel to fuel cell electric vehicles (FCEVs) or other hydrogen-powered equipment. The "sled" in the title refers to the wheeled base or skid that the station sits on, enabling easy transportation and relocation as required.

Integrated Hydrogen Station

An Integrated Hydrogen Station is a comprehensive infrastructure setup designed for the dispensing of hydrogen fuel to fuel cell electric vehicles (FCEVs) or for use in other applications requiring hydrogen as an energy source.

Hydrogen Refueling Station

A hydrogen refueling station is a place that provides hydrogen for hydrogen fuel cell vehicles, similar to how traditional gas stations provide fuel for fuel vehicles. A hydrogenation station usually consists of a hydrogen unloading column, a compressor skid, a sequence control panel, a hydrogen storage bottle group, a hydrogenation machine, a station control system, a heat exchanger , a chiller, and other equipment. Its core equipment is a hydrogen compressor and hydrogen storage can.

What is Hydrogen Refueling Machine

A hydrogen refueling machine, also known as a hydrogen dispenser or hydrogen fuel pump, is a specialized piece of equipment designed to safely and efficiently transfer hydrogen gas into the fuel tanks of hydrogen-powered vehicles. These machines are a critical component of hydrogen refueling stations, which are infrastructure points that support the growing market for hydrogen fuel cell electric vehicles (FCEVs).

Features of Hydrogen Refueling Machine

High-Pressure Compression
Hydrogen refueling machines are equipped with compressors that can increase the pressure of hydrogen gas to levels suitable for storage and dispensing, typically ranging from 350 to 700 bar.

Dispensing System
The dispensing system allows for the controlled flow of hydrogen into the vehicle's fuel tank. It includes nozzles, hoses, and flow meters to ensure accurate and safe refueling.

Safety Features
Safety is paramount in the design of hydrogen refueling machines. They include pressure relief devices, emergency shut-off valves, leak detectors, and flame arrestors to prevent accidents.

Heating and Cooling Systems
To facilitate the rapid refueling process, hydrogen refueling machines may be equipped with heating and cooling systems to manage the temperature of the hydrogen gas.

Control Systems
Modern hydrogen refueling machines come with sophisticated control systems that monitor and regulate the refueling process, ensuring optimal performance and safety.

Interoperability
These machines are designed to comply with international standards, allowing them to refuel vehicles from different manufacturers.

User Interface
They typically include user-friendly interfaces for operators, with touchscreens and clear instructions to guide through the refueling process.

Scalability
Hydrogen refueling machines are available in various sizes and capacities, from small units suitable for individual fleets to large installations capable of serving hundreds of vehicles daily.

Types of Hydrogen Refueling Machine

Liquid Compressed Hydrogen Hydrogenation Machine
Liquid compressed hydrogen hydrogenation machine is a common hydrogenation equipment. Its working principle is to pump liquid compressed hydrogen into the hydrogenation machine, compress the hydrogen into high-pressure gas, and then transport the high-pressure hydrogen to the hydrogen storage tank. The advantages of this kind of hydrogenation machine are fast hydrogenation speed and relatively low hydrogenation cost. However, it requires the use of large liquid hydrogen containers to store hydrogen, which has high investment costs and risks of explosion safety.

High-Pressure Electrolytic Hydrogenation Machine
The high-voltage electrolytic hydrogenation machine is a hydrogenation equipment that uses electric energy to drive the decomposition of water to produce hydrogen. Its working principle is to send water into the electrolytic cell, then add charges to decompose water molecules, and separate hydrogen and oxygen. The advantage of this kind of hydrogenation machine is that it can prepare high-purity hydrogen without storing hydrogen and can quickly prepare hydrogen as needed. However, the investment cost is high, the electrolysis efficiency is low, and the quality of hydrogen is affected by the electrolyte.

Low Pressure Electrolytic Hydrogenation Machine
Low-pressure electrolytic hydrogenation machine is a kind of hydrogenation equipment suitable for small hydrogenation stations or mobile hydrogenation vehicles. Its working principle is similar to that of high-pressure electrolytic hydrogenation machine, but the operating pressure is lower than 10MPa. The advantages of this type of hydrogenation machine are small size, light weight, and easy movement. It is suitable for distributed hydrogenation scenarios, but the hydrogenation speed is slow and the gas flow and pressure are low.

How to Choose Hydrogen Refueling Machine

Select Hydrogen Refueling Machine With Appropriate Capacity
When selecting Hydrogen Refueling Machine, the first thing to consider is whether the capacity of the equipment meets your own process requirements. Generally speaking, the larger the volume of the hydrogenation reactor, the more raw materials will be processed, but factors such as energy consumption, floor space, and equipment maintenance during the actual production process also need to be taken into consideration. Therefore, when selecting equipment capacity, it is necessary to comprehensively consider the above factors and select the appropriate capacity.

Consider the Different Requirements of the Hydrogenation Process
Under different hydrogenation processes, there will also be different requirements for the reaction conditions of the equipment, such as reaction temperature, pressure and other factors. Therefore, when selecting hydrogenation reactor equipment, you need to choose a suitable hydrogenation reactor according to your own hydrogenation process requirements.

Consider Operating Requirements And Maintenance Costs
During production practice, the operation and maintenance costs of equipment are also factors that need to be considered. Choosing a hydrogenation reactor that is simple to operate and easy to maintain can not only reduce personnel costs, but also reduce equipment maintenance costs, bringing more economic benefits to the production process.

How to Maintain Hydrogen Refueling Machine

Regular Inspections
Conduct routine visual inspections of the machine, including the dispenser head, hoses, valves, and seals, to check for any signs of wear, damage, or leaks.

Leak Detection
Regularly perform leak tests using appropriate methods, such as soap bubble tests or electronic leak detectors, to identify and address any leaks promptly.

Safety System Checks
Test and maintain safety systems, including emergency shut-off valves, overpressure protection devices, and fire suppression systems, to ensure they are functioning correctly.

Control System Maintenance
Keep the control system software up to date and perform regular checks to ensure it is operating correctly. This includes verifying the accuracy of the flow meters and pressure sensors.

Dispenser Head Maintenance
Clean and inspect the dispenser head regularly. Ensure that the nozzle and any seals are in good condition and replace them if necessary.

Hose and Cable Inspections
Check the hoses and cables for any signs of wear or damage. Replace any components that show signs of deterioration.

Payment System Maintenance
Ensure that the payment system is functioning correctly, and keep it clean to prevent any issues with card readers or touchscreens.

Regulatory Compliance
Stay up to date with any local regulations or industry standards that apply to the operation of hydrogen refueling machines.

Preventive Maintenance
Schedule preventive maintenance activities according to the manufacturer's recommendations, which may include lubrication of moving parts, calibration of sensors, and replacement of consumable parts.

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Frequently Asked Questions

Q: What is a hydrogen refueling machine, and what is its primary purpose?

A: A hydrogen refueling machine, also known as a hydrogen fueling station, is a device specifically designed to store, compress, and dispense hydrogen gas at high pressures for use in fuel cell electric vehicles (FCEVs) and other applications. Its primary purpose is to facilitate the transition from traditional internal combustion engines to cleaner, more sustainable hydrogen fuel cell technology. By providing a convenient and efficient means of refueling, hydrogen refueling machines help to accelerate the adoption of hydrogen as a viable energy carrier.

Q: How does a hydrogen refueling machine work?

A: Hydrogenators operate by taking in ambient hydrogen gas and then using a powerful compressor to compress it to high pressure. This compressed hydrogen is stored in high-pressure tanks on site until needed. When a vehicle arrives to refuel, the machine uses a distribution system consisting of nozzles, hoses and flow meters to safely and efficiently deliver hydrogen into the vehicle's fuel tank. The entire process takes just a few minutes and is similar to traditional gasoline refueling.

Q: What safety precautions are included in hydrogen refueling machines?

A: Safety is a top priority in the design and operation of hydrogen refueling machines. These machines are equipped with a variety of safety features to prevent accidents, including pressure relief devices, emergency shut-off valves, leak detectors, and flame arrestors. Additionally, they are subjected to rigorous testing and certification processes to ensure compliance with local, national, and international safety standards. Operators also receive specialized training to safely operate the machines and handle any potential emergencies.

Q: How environmentally friendly are hydrogen refueling machines?

A: Hydrogen refueling machines are considered environmentally friendly because they enable the use of hydrogen as a clean energy carrier. When used in fuel cell vehicles, hydrogen combines with oxygen from the air to produce electricity, water vapor, and heat, with no harmful emissions. However, the environmental impact of hydrogen production varies depending on the method used. Green hydrogen, produced through electrolysis using renewable energy sources, has the lowest carbon footprint. Grey hydrogen, produced from natural gas, and blue hydrogen, which captures and stores carbon emissions from natural gas production, have higher environmental impacts but are still cleaner than traditional fossil fuels.

Q: What factors influence the location of hydrogen refueling stations?

A: The location of hydrogen refueling stations is influenced by several factors, including demand for hydrogen fuel cell vehicles, access to renewable energy sources for green hydrogen production, proximity to major roads and highways, and competition from other alternative fueling options like electric charging stations. Additionally, local, state, and federal policies and incentives can play a significant role in determining where hydrogen refueling stations are located.

Q: How do hydrogen refueling machines compare to electric charging stations?

A: Hydrogen refueling machines and electric charging stations are both infrastructure solutions that support the transition to cleaner transportation options. Hydrogen refueling machines offer the advantage of faster refueling times, similar to conventional gasoline stations, while electric charging stations require longer charging times. However, electric vehicles have a wider range of charging options, including fast chargers that can significantly reduce charging times. The choice between hydrogen and electric infrastructure depends on several factors, including vehicle type, driving habits, and availability of renewable energy sources.

Q: What challenges currently limit the widespread adoption of hydrogen refueling machines?

A: The widespread adoption of hydrogen refueling machines faces several challenges, including the high cost of producing and distributing hydrogen fuel, the lack of infrastructure, limited availability of fuel cell vehicles, and public awareness and perception issues. Additionally, technological advancements and policy changes are needed to address these challenges and make hydrogen a more competitive and viable option for transportation.

Q: How is hydrogen produced for use in refueling machines?

A: Hydrogen for use in refueling machines can be produced through various methods, including steam methane reforming (SMR), electrolysis, and biomass conversion. SMR is the most common method currently used, but it produces carbon emissions. Electrolysis using renewable energy sources (green hydrogen) is considered the most sustainable method, but it is more expensive and less developed. Biomass conversion is another promising option that can producehydrogen from organic materials. The choice of production method depends on economic, environmental, and technical considerations.

Q: What role do hydrogen refueling machines play in the future of transportation?

A: Hydrogen refueling machines are expected to play a significant role in the future of transportation as part of a broader shift towards cleaner and more sustainable energy sources. By providing a convenient and efficient means of refueling, they can help to accelerate the adoption of fuel cell vehicles and reduce reliance on traditional fossil fuels. Additionally, hydrogen refueling machines can support the decarbonization of other sectors, such as heavy-duty transportation and industrial processes, by providing a low-carbon energy carrier.

Q: How much does it cost to build and operate a hydrogen refueling station?

A: The cost of building and operating a hydrogen refueling station depends on a variety of factors, including the size and capacity of the hydrogen refueling station, land and construction costs, hydrogen fuel prices, and maintenance and operating costs. The initial capital costs of building a station can be high due to the specialized equipment and infrastructure required. Due to the high cost of hydrogen production and distribution, operating costs are also high. However, the costs associated with hydrogen refueling stations are expected to decline over time as technology advances and economies of scale are achieved.

Q: Can hydrogen refueling machines be integrated with renewable energy sources?

A: Yes, hydrogen refueling machines can be integrated with renewable energy sources to produce green hydrogen. By pairing electrolyzers with wind turbines or solar panels, excess renewable energy can be converted into hydrogen gas for storage and later use in fuel cell vehicles. This integration not only helps to reduce carbon emissions but also provides a flexible and scalable solution for managing intermittent renewable energy generation.

Q: What technologies are being developed to improve hydrogen refueling machines?

A: Several technologies are being developed to improve the performance and efficiency of hydrogen refueling machines. These include advanced compression technologies to reduce energy consumption during compression, novel storage solutions to increase the density and safety of compressed hydrogen, and improved dispensing systems to minimize losses and ensure accurate refueling. Additionally, researchers are exploring new materials and manufacturing techniques to lower the cost of hydrogen refueling machines and make them more accessible to consumers.

Q: Are there any standards or regulations governing the operation of hydrogen refueling machines?

A: Yes, there are several international and national standards governing the design, construction, and operation of hydrogen refueling machines. These standards cover various aspects of safety, performance, interoperability, and environmental impact. Compliance with these standards is essential for ensuring the safe and efficient operation of hydrogen refueling stations and promoting consumer confidence in fuel cell technology.

Q: How might the development of hydrogen refueling machines impact the automotive industry?

A: The development of hydrogen refueling machines has the potential to significantly impact the automotive industry by driving innovation in vehicle design and manufacturing. As the availability of hydrogen fuel cell vehicles increases, automakers may invest in developing new models that are optimized for hydrogen powertrains, resulting in improved performance, range, and fuel efficiency. Additionally, the growth of hydrogen infrastructure could create new business opportunities for companies involved in the production, distribution, and sale of hydrogen fuel, further transforming the automotive landscape.

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