EMERSON A6140 9199-00058 high-pressure gas applications

Description

EMERSON A6140 9199-00058 high-pressure gas applications

EMERSON A6140 9199-00058 high-pressure gas applications

We are committed to fundamentally improving and measuring customer performance in the process and industrial industries through automation solutions. Helping to make good use of precious resources around the world to promote countries to responsibly improve their economic levels, promote the development of key industries and promote safety in daily life. Many industry leaders hope to establish a trust and partnership with Emerson, and through continuous innovation, help them cope with major challenges in the future. The automation solution platform enables us to collaborate across automation business departments based on deep industry experience, develop more comprehensive solutions for customers, and deeply utilize global business to achieve sales and operational synergies across the entire platform.

Emerson Launches TESCOM ™ The Anderson Greenwood Instrumentation H2 valve series is designed for hydrogen applications up to 15000 pounds per square inch (psi) (103.4 megapascals (MPa)). The new solution can reliably isolate the process pressure in high-pressure gas applications such as hydrogen refueling stations and tube trailers, reduce fugitive emissions, and improve safety.
When hydrogen is transferred from the storage tank to the pump, its transmission pressure reaches up to 15000 psi (103.4 MPa). In order to protect personnel and prevent leakage, it is necessary to effectively control and isolate them. The forward double shut-off configuration of the Double Block Relief (DBB) valve provides two layers of forward shut-off, which can protect maintenance personnel from high pressure during instrument maintenance. The valve adopts a modular design, reducing the number of potential leakage points, and enhanced sealing technology reduces the risk of fuel entering the environment through the valve stem.
Compressed hydrogen gas is used to power fuel cell electric vehicles (FCEVs) in clean fuels produced using renewable resources. In 2021, 142 new hydrogen refueling stations were put into operation, achieving the largest annual growth rate, resulting in a total of 685 operating hydrogen refueling stations worldwide. In January 2022, Global Market Insights Inc. predicted that the FCEV market size would exceed $15 billion by 2027. To meet this growing demand, original equipment manufacturers (OEMs) of hydrogen refueling stations must purchase reliable and high-performance components to ensure overall equipment efficiency and safety of the refueling station.