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PT500PSIG-2014-I2-DA91: A Comprehensive Guide to Understanding and Utilizing the Product
The title PT500PSIG-2014-I2-DA91 is a specific product code that indicates a piece of equipment or component with certain technical specifications. This code is often used in industrial and manufacturing contexts, where precise identification and documentation are crucial for maintenance, installation, and operational efficiency. The purpose of this article is to provide a detailed yet concise overview of the PT500PSIG-2014-I2-DA91 product, focusing on its technical specifications, application scenarios, and practical usage.
The PT500PSIG-2014-I2-DA91 is a high-pressure valve designed for use in industrial environments where extreme conditions are common. The “PT” in the title stands for Pressure-temperature, indicating that the valve is suitable for both pressure and temperature control. The “500PSIG” denotes the maximum pressure rating of the valve, which is typically measured in pounds per square inch (PSIG). This means the valve can withstand pressures up to 500 PSIG, making it ideal for applications that require robust and reliable performance under high-stress conditions.
The “2014” in the code refers to the year of production or the specific version of the product, while “I2” likely denotes a series or model number, and “DA91” could represent a specific configuration or function. The exact meaning of these components may vary depending on the manufacturer and the product line, so it is essential to consult the official technical documentation for precise details.
This valve is commonly used in industries such as chemical processing, oil and gas, power generation, and HVAC systems. Its primary function is to regulate the flow of fluids under high-pressure conditions, ensuring that the system operates efficiently and safely. The valve is designed with a dual-action mechanism, which allows for precise control and adjustment of the flow rate, making it suitable for applications where accuracy is critical.
The DA91 designation likely refers to the Dual-Actuation feature of the valve. This mechanism allows the valve to respond to both pressure and flow signals, providing a more responsive and flexible control system. The dual-action design ensures that the valve can maintain stable operation even under varying conditions, which is particularly important in industrial settings where fluctuating pressures and flow rates are common.
One of the key advantages of the PT500PSIG-2014-I2-DA91 is its reliability and durability. Constructed with high-quality materials, the valve is built to withstand harsh environments and frequent use. The pressure rating of 500 PSIG is a testament to its robustness, ensuring it can handle the demanding conditions of industrial applications without compromising performance or safety.
In addition to its technical specifications, the valve is designed with user-friendliness in mind. The I2 designation may indicate a specific configuration or interface that is compatible with certain control systems, making it easier for operators to integrate the valve into their existing infrastructure. The DA91 model may also include additional features such as remote monitoring or smart controls, which enhance its functionality and adaptability.
For those looking to implement the PT500PSIG-2014-I2-DA91 in their operations, it is crucial to consider the application requirements and environmental conditions. The valve’s design and specifications must be aligned with the specific needs of the system it is being used in. Factors such as fluid type, temperature range, and flow rate will influence the optimal use of the valve, and it is recommended to consult with a qualified engineer or manufacturer for tailored recommendations.
In conclusion, the PT500PSIG-2014-I2-DA91 is a high-performance valve designed for use in demanding industrial environments. With its robust construction, precise control mechanisms, and versatile applications, it offers a reliable and efficient solution for pressure regulation and flow control. By understanding its technical specifications and operational requirements, users can ensure that the valve performs optimally and safely in their specific applications.
