Emerson has the right solutions to improve operations and impact the bottom line. Edge Control technologies continuously monitor hydrogen flow to accurately predict dispensing levels to reduce maintenance costs.
Monitoring, process control and predictive analytics and solutions can be applied across the entire hydrogen value chain including fueling stations. Automation technologies offer manufacturers and operators with proven technology in compression, storage, and dispensing.
Кориолисовый расходомер Micro Motion высокого давления
Электромагнитный клапан высокого давления ASCO 291 для СПГ, рассчитанный на давление более 5000 фунт/кв. дюйм
Rosemount 3051 Series Pressure Transmitter
Pressure measurement products provide the broadest offering available to meet virtually every application need.
Aventics Valve Island
The AVENTICS Series provides a reliable basis for both compact handling systems and complex automation solutions.
AVENTICS™ Series AF2 Sensors
Flow sensors that monitor air consumption in pneumatic systems, enabling rapid intervention in the event of leakage.
Электропневматический привод TESCOM серии ER5000
Rosemount X-Well Inhouse Technology
Emerson’s temperature measurement products provide innovative solutions for your most challenging applications
Improve product quality by reducing variability and operating closer to process constraint limits. Test control application and simulation effectively can train operators with offline MPC simulation.
Edge Controls RX3i and Movicon
Scalable, open, and interoperable high-speed deterministic controls for your most demanding applications.
RSTI-EP I/O
Emerson’s Distributed Slice I/O family combines modular ‘Build As You Go’ flexibility with high performance durability.
Turnkey Solutions
Ensure safe operations in an explosion-proof cabinet and get real-time monitoring and alerts through an onsite dashboard or via system cloud
Программное обеспечение для моделирования технологических процессов Mimic
TESCOM™ VAVG Series Valve
Suitable for liquid and gas applications. Ideal for use in high pressure cycling testing, pneumatic and hydraulic control panels and R & D labs.
Dependable solutions to help ensure safe, precise, and efficient dispensing operations even in hazardous and explosive environments.
DeltaV Safety Instrumented Systems
The DeltaV SIS™ modern process safety system helps you reliably protect your assets and improve your process availability.
Пружинные клапаны сброса давления прямого действия Anderson Greenwood серии 60/80
Ensure safe, reliable and efficient fuel storage and transport for your hydrogen fuel dispensing operations.
Emerson has the right solutions to improve operations and impact the bottom line. Edge Control technologies continuously monitor hydrogen flow to accurately predict dispensing levels to reduce maintenance costs.
Converting existing vehicles to a hydrogen fuel source is expense. Emerson’s edge control technologies also execute predictive analytics to avoid unplanned disruptions in the process.
Regulatory requirements mean more demands on producers to reduce emissions. Emerson’s solutions help customers better manage high pressure and flow rate requirements, and ensure safe, precise and efficient dispensing operations, even in high-risk environments.
Frequently Asked Questions about Hydrogen Refueling
Yes, hydrogen can be used to fuel cars, buses, trains, heavy trucks, military vehicles, ships, aircraft and any other form of combustion-based transportation. So-called hydrogen vehicles, including hydrogen cars, use fuel cells to convert the chemical energy in the hydrogen molecule into mechanical energy. Combustion engines can also burn liquified hydrogen as a fuel, which today is most commonly used in rocketry, but liquid H2 can also power commercial and passenger vehicles that have engines designed for gas or diesel just as efficiently, with some modification required. The range and cost of hydrogen is comparable to gasoline, the major difference is that the exhaust from burning gas contains CO2 and hydrogen produces only water vapor.
A fuel cell is a compact (suitcase-size or smaller) electrochemical power plant that converts a continuous source of fuel and oxygen into electricity using chemical reactions rather than combustion. Hydrogen fuel cells generate electricity by changing the charge of hydrogen ions moving from the H2 fuel through an electrolyte (usually platinum) along with oxygen, where they react giving off electrons and water vapor. Fuel cells can produce electricity continuously if fuel and oxygen are supplied at the proper rate.
Hydrogen fuel cells are roughly twice as energy efficient (40%-60%) as the typical internal combustion engine of a car (25%), but without the greenhouse gas exhaust. They are also extremely lightweight and take up much less space, making it possible to increase the amount of fuel storage in a given vehicle, and their service life is comparable to that of combustion engines.
Like all fuel cell technologies currently being developed, hydrogen fuel cells require precise measurement and control capabilities to ensure that the electrochemical energy conversion process is sustained with the proper flow rates and pressures, which are relatively high. The cost of making platinum electrolytes can also be high, although new methods to reduce the amount required are being developed.
Mobile automation solutions, such as logic controllers, solenoid valves and pressure regulators, are available that are reliable and durable enough to ensure that the optimum levels of hydrogen and oxygen under the right pressure are fed to the fuel cell. Because each application is different and the safety concerns given the pressures involved, these technologies are scalable and rated for everything from passenger cars to cargo vessels and everything in between.
For drivers, hydrogen filling stations are similar to traditional gasoline filling stations with hand-operated pumps. But the station itself is a high-tech facility that turns hydrogen gas stored in holding tanks into engine-ready ionic liquid H2 by condensing it under extremely high pressure using compressors. The liquid must be kept at -40 degrees Celsius (-40 Fahrenheit) after it is compressed so that it does not convert back to gas before it is dispensed.
Advanced automation technologies, such as Coriolis mass flow meters with 0.5% accuracy, microprocessor-based controllers that allow precise algorithmic pressure control, long-distance hydrogen flame detectors, non-intrusive temperature sensors rated for extreme cold, and valves able to handle high operating pressures of up to 15,000 pounds per square inch, have all been developed specifically to suit hydrogen fueling applications, helping to make them safer, easier to maintain and more commercially viable as an alternative to gas stations.
A hydrogen refueling station operator reduced refueling times to approximately three minutes after installing Emerson valves. The air-operated valve’s 360-degree dome port simplified installation for the customer, and the implementation of a manual override with a safety pin enhanced the system’s safety.
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