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Flanged steam solenoid valves Wholesale

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Flanged steam solenoid valve Factory

Yuyao Shenzhou Solenoid Valve Co., Ltd. is China Flanged steam solenoid valve Factory and OEM/ODM Flanged steam solenoid valve company that specializes in the design and manufacture of solenoid valve. The company boasts sophisticated mechanical equipments, advanced manufacturing technique, perfect testing methods. Besides, strong technical background and stable product quality makes it possible for the company to obtain the ISO9001 : 2008 international quality certificate. We can design and manufacture products of special specifications, offer technical consultation as well as pre-sale and after-sale service for our customers.
By adhering to the philosophy of quality first and relying on technological advantage and a more and more rational production procedure, the company has developed more than 20 series of products of around 3,000 specifications and has been carrying out large scale productions on the 2W and DF type liquid solenoid valve, ZQDF and ZCZ type steam solenoid valve as well as the ZCT and various types of all stainless steel anticorrosive solenoid valves. Our products have been widely used in such industries as chemical engineering, petroleum, metallurgy, textile, food, medical treatment, environmental protection and shipbuilding and have won general approval from users in terms of technology, performance, appearance and quality.

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Industry knowledge about this item

Flanged steam solenoid valves are critical components in steam systems used to control the flow of steam in various applications. These valves are designed to operate in harsh environments and are capable of withstanding high temperatures and pressures.

Features and Benefits

Flanged steam solenoid valves are designed to meet the demands of high-temperature steam applications. They are made of durable materials such as stainless steel and brass, which provide resistance to corrosion and high-pressure environments. These valves are also designed to handle high flow rates of steam, ensuring that the system operates efficiently.
One of the key features of flanged steam solenoid valves is their ability to operate under high-pressure conditions. They are designed to handle pressures up to 300 psi, making them suitable for a wide range of industrial applications. They are also available in various sizes, allowing for easy integration into different steam systems.
Another important feature of flanged steam solenoid valves is their ability to operate in extreme temperatures. They are capable of handling temperatures up to 400°F, making them suitable for use in steam systems that operate at high temperatures. Additionally, these valves are designed to operate with minimal leakage, ensuring that steam systems operate efficiently and without wastage.

Applications

Flanged steam solenoid valves are used in a variety of industrial applications that require the control of steam flow. One of the most common applications is in steam boilers, where these valves are used to control the flow of steam into the system. They are also used in industrial processes that require the use of steam, such as in food processing plants, chemical plants, and power generation facilities.
In food processing plants, flanged steam solenoid valves are used to control the flow of steam in cooking processes. They are also used in cleaning processes, where steam is used to clean and sanitize equipment. In chemical plants, these valves are used to control the flow of steam in various processes, such as distillation and drying. In power generation facilities, flanged steam solenoid valves are used to control the flow of steam in turbines, ensuring that the system operates efficiently.

How Flanged Steam Solenoid Valves Work

Flanged steam solenoid valves work by using an electromagnetic coil to control the flow of steam through the valve. The coil is energized when an electrical current is applied, creating a magnetic field that pulls a plunger or piston toward the coil. This movement opens the valve, allowing steam to flow through the valve.
When the electrical current is turned off, the magnetic field dissipates, and the plunger or piston returns to its original position, closing the valve. This process is repeated as required, allowing for precise control of the flow of steam through the valve.