Availability: | |
---|---|
Quantity: | |
J-VALVES-BV-1055
J-VALVES
8481804090
Product Name | Forged Carbon Steel A105 3PC Flange Trunnion Mounted Ball Valve |
Material | A105N/F304/F316 |
Pressure | 800LB/1500LB/2500LB |
Size | 1/2 inch~ 2 inch(DN15~DN50) |
End Connection | RF/RTJ/BW/SW |
Working Temp | -196ºC~400ºC option. |
Mode of operation | Lever |
Suitable Medium | Water,Natural Gas,Oil and some corrosive liquid |
Features | Rising stem,OS&Y,Bolted Bonnet or Pressure Sealed,non-rising stem option |
Corrosion - Resistant Coating:This valve comes with a specialized corrosion - resistant coating. It can effectively protect the valve body from various corrosive media, extending its service life even in harsh chemical environments. This is crucial for industries where the fluid being transported may have corrosive properties.
Precision - Machined Sealing Surfaces:The sealing surfaces of the valve are precision - machined to extremely tight tolerances. This ensures a perfect seal, preventing any leakage. Whether it's in high - pressure or low - pressure applications, the valve can maintain its integrity and keep the fluid flow under control.
Quiet Operation:Designed with noise - reduction in mind, the valve operates quietly. In industrial settings, excessive noise can be a nuisance and may also indicate potential mechanical problems. This feature allows for a more peaceful working environment and gives an indication of the valve's stable performance.
Customizable Actuation Options:We offer a variety of customizable actuation options for this valve. Whether it's manual, electric, or pneumatic actuation, purchasers can choose the option that best suits their operational requirements. This flexibility makes the valve adaptable to different industrial setups.
Shock - Resistant Design:The valve is engineered with a shock - resistant design. It can withstand sudden pressure surges and mechanical impacts without getting damaged. This is especially important in industries where there may be sudden changes in fluid flow or where the equipment is subject to vibrations.
Efficient Flow Path Design:The internal flow path of the valve is designed for maximum efficiency. It allows for smooth fluid flow with minimal pressure drop, which is beneficial for energy - conscious industries. By reducing the energy required to pump the fluid through the valve, it helps in saving operational costs.
Installation: The valve is designed for easy installation. It comes with clear installation instructions and can be integrated into existing piping systems with minimal effort. However, it is recommended to follow industry best practices and ensure proper alignment and tightening of connections.
Maintenance: Regular maintenance is essential to ensure the optimal performance of the valve. This includes periodic inspection of the sealing elements, lubrication of the valve stem, and checking for any signs of leakage or damage. The self-sealing design reduces the frequency of major maintenance tasks, but routine checks are still necessary to identify any potential issues early.
Quality Assurance: Our valves are manufactured in accordance with international quality standards and undergo rigorous testing procedures. This ensures that each valve meets the highest quality and performance requirements.
Technical Support: We provide comprehensive technical support to our customers. Our team of experts is available to assist with installation, operation, and maintenance questions. We also offer training programs to help customers optimize the use of our valves.
Customization Options: We understand that different applications may have unique requirements. Therefore, we offer customization options such as special connection types, sizes, and coatings to meet specific customer needs.
Product Name | Forged Carbon Steel A105 3PC Flange Trunnion Mounted Ball Valve |
Material | A105N/F304/F316 |
Pressure | 800LB/1500LB/2500LB |
Size | 1/2 inch~ 2 inch(DN15~DN50) |
End Connection | RF/RTJ/BW/SW |
Working Temp | -196ºC~400ºC option. |
Mode of operation | Lever |
Suitable Medium | Water,Natural Gas,Oil and some corrosive liquid |
Features | Rising stem,OS&Y,Bolted Bonnet or Pressure Sealed,non-rising stem option |
Corrosion - Resistant Coating:This valve comes with a specialized corrosion - resistant coating. It can effectively protect the valve body from various corrosive media, extending its service life even in harsh chemical environments. This is crucial for industries where the fluid being transported may have corrosive properties.
Precision - Machined Sealing Surfaces:The sealing surfaces of the valve are precision - machined to extremely tight tolerances. This ensures a perfect seal, preventing any leakage. Whether it's in high - pressure or low - pressure applications, the valve can maintain its integrity and keep the fluid flow under control.
Quiet Operation:Designed with noise - reduction in mind, the valve operates quietly. In industrial settings, excessive noise can be a nuisance and may also indicate potential mechanical problems. This feature allows for a more peaceful working environment and gives an indication of the valve's stable performance.
Customizable Actuation Options:We offer a variety of customizable actuation options for this valve. Whether it's manual, electric, or pneumatic actuation, purchasers can choose the option that best suits their operational requirements. This flexibility makes the valve adaptable to different industrial setups.
Shock - Resistant Design:The valve is engineered with a shock - resistant design. It can withstand sudden pressure surges and mechanical impacts without getting damaged. This is especially important in industries where there may be sudden changes in fluid flow or where the equipment is subject to vibrations.
Efficient Flow Path Design:The internal flow path of the valve is designed for maximum efficiency. It allows for smooth fluid flow with minimal pressure drop, which is beneficial for energy - conscious industries. By reducing the energy required to pump the fluid through the valve, it helps in saving operational costs.
Installation: The valve is designed for easy installation. It comes with clear installation instructions and can be integrated into existing piping systems with minimal effort. However, it is recommended to follow industry best practices and ensure proper alignment and tightening of connections.
Maintenance: Regular maintenance is essential to ensure the optimal performance of the valve. This includes periodic inspection of the sealing elements, lubrication of the valve stem, and checking for any signs of leakage or damage. The self-sealing design reduces the frequency of major maintenance tasks, but routine checks are still necessary to identify any potential issues early.
Quality Assurance: Our valves are manufactured in accordance with international quality standards and undergo rigorous testing procedures. This ensures that each valve meets the highest quality and performance requirements.
Technical Support: We provide comprehensive technical support to our customers. Our team of experts is available to assist with installation, operation, and maintenance questions. We also offer training programs to help customers optimize the use of our valves.
Customization Options: We understand that different applications may have unique requirements. Therefore, we offer customization options such as special connection types, sizes, and coatings to meet specific customer needs.
Overview of API 6D and ISO 15848 StandardsAPI 6D StandardAPI 6D, titled "Specification for Pipeline and Pipeline-Related Valves," is a widely recognized standard developed by the American Petroleum Institute. It provides comprehensive guidelines for the design, manufacturing, testing, and certificat
In industries such as petroleum, natural gas, and chemical engineering, the API 6D standard is an important basis for the design, manufacturing, and testing of pipeline valves. This standard covers multiple types of valves, including trunnion ball valves, gate valves, and butterfly valves, etc., and is widely used in long-distance transmission pipelines, oil and gas field development, and industrial pipeline systems. This article will conduct an in-depth analysis of the design specifications for trunnion ball valves and gate valves under the API 6D standard, compare their structural characteristics, performance requirements, and application scenarios, and also explore the applicable scenarios of butterfly valves.
In the field of industrial valves, zero leakage technology has always been the goal pursued, especially when dealing with hazardous media or working conditions with high requirements. Metal sealing of trunnion ball valves and soft sealing of gate valves are two common sealing methods, and there are
Understanding Butterfly Valve LifespanCommon Challenges• Corrosion: Exposure to corrosive media can degrade valve materials, leading to leaks and reduced performance.• Wear and Tear: Frequent operation and harsh operating conditions can cause mechanical wear, affecting the valve's sealing capabiliti
In the field of industrial fluid control, valves, as key equipment, have their technological development always closely linked to industry demands. With the continuous progress of industries such as petrochemical, natural gas, and electric power, the performance requirements for valves are gradually increasing. From traditional gate valves to modern fully welded trunnion ball valves, valve technology has undergone significant iterations. This article will explore this technological iteration path and analyze the future development trends of valves.
In industrial environments involving flammable and explosive media, the fire resistance performance of valves is of crucial importance. The ATEX standard is an authoritative standard used in Europe to evaluate the safety of equipment in potentially explosive environments and is widely applied in industries such as petroleum, natural gas, and chemical engineering. Ball valves and gate valves, as common types of industrial valves, have significant differences in their fire testing requirements under the ATEX standard.
Understanding DIN Standards for Ball ValvesWhat are DIN Standards?DIN standards are developed by the German Institute for Standardization and are widely recognized globally. These standards cover various aspects of valve design, manufacturing, testing, and marking, ensuring that ball valves are suit
The Importance of International CertificationsEnsuring Quality and SafetyInternational certifications, such as those from ANSI, API, DIN, EN, and ISO, provide a standardized framework for ensuring the quality, safety, and reliability of gate valves. These certifications cover various aspects of valv
Understanding API 594What is API 594?API 594 is a comprehensive standard developed by the American Petroleum Institute (API) that specifies the requirements for the design, construction, testing, and marking of check valves, including single-leaf check valves. Compliance with API 594 ensures that th
Overview of Common Materials for Full-Welded Ball ValvesThe material selection for full-welded ball valves is diverse, mainly including carbon steel, stainless steel, alloy steel, cast iron, and copper alloys. Each material has its unique physical and chemical properties, making it suitable for diff
In the petrochemical industry, the safety and reliability of valves are one of the key factors in ensuring production safety. Fireproof certification (such as API 607) is crucial for ensuring the performance of valves under fire conditions. Meanwhile, with the development of technology, alternative solutions to butterfly valves are constantly emerging. This article will compare the fireproof certification (API 607) of trunnion ball valves and gate valves and explore alternative solutions to butterfly valves to help practitioners in the petrochemical industry make wiser choices.
<br /> In industrial production, energy transmission, chemical engineering and other fields, emergency shut-off working conditions are a crucial link to ensure the safe operation of systems. Valves, as the core components of fluid control systems, play a vital role in emergency shut-off working conditions. Ball valves and gate valves are two common types of valves, and they have different characteristics in emergency shut-off working conditions.
In industrial pipeline systems, the selection of valves not only affects the operating efficiency of the system but also directly relates to the overall cost of the project. The full-bore design of trunnion ball valves and the reduced-bore structure of gate valves are two common valve design methods, each with its own unique advantages and cost-benefit characteristics. This article will help you make a wiser choice when purchasing valves through detailed comparative analysis.
In industrial pipeline systems, the selection of valves not only affects the operating efficiency of the system but also directly relates to the overall cost of the project. The full-bore design of trunnion ball valves and the reduced-bore structure of gate valves are two common valve design methods, each with its own unique advantages and cost-benefit characteristics. This article will help you make a wiser choice when purchasing valves through detailed comparative analysis.
In industrial fields such as petroleum, natural gas, and chemical engineering, the pressure-bearing performance of valves is one of the key factors to ensure the safe operation of systems. API 6D and ASME B16.34 are two important standards widely applied in the design and manufacturing of valves. This article will conduct a comparative analysis on the pressure-bearing performance differences between trunnion ball valves and gate valves under these two standards, helping engineers and purchasers better select valves suitable for their application scenarios.
Understanding Three-Way Ball ValvesKey Features• Versatile Flow Control: Three-way ball valves can direct fluid flow between three ports, allowing for complex flow management.• Compact Design: These valves are designed to be compact and lightweight, making them suitable for space-constrained applica
In the power industry, especially in the steam systems of thermal power plants, the selection of valves is of crucial importance. Valves not only need to withstand the high-temperature and high-pressure steam environment but also ensure the safe and stable operation of the systems. Gate valves and ball valves are two types of valves widely used in power plant steam systems, and each of them has unique performance characteristics. This article will explore the high temperature resistance characteristics of gate valves and the quick shut-off capability of ball valves through comparative analysis, helping you make more appropriate choices in practical applications.
Understanding Flanged Butterfly ValvesDesign and OperationFlanged butterfly valves feature flanged ends that allow for easy connection to pipelines using bolts and gaskets. The flanged design provides a secure and reliable connection, making these valves suitable for a wide range of applications.Key
In the liquefied natural gas (LNG) industrial chain, low-temperature valves are crucial equipment to ensure the safe and stable operation during the processes of production, storage, transportation, and utilization. Among them, trunnion ball valves have been widely used in LNG low-temperature working conditions due to their advantages such as simple structure, good sealing performance, and low flow resistance. However, due to the particularity of LNG working conditions, valves are required to maintain reliable performance at extremely low temperatures, which imposes extremely high requirements on valve selection and manufacturing processes. This article will focus on discussing the key points for selecting trunnion ball valves under LNG low-temperature working conditions and the technological breakthroughs in cryogenic treatment.<br /> <br /> <br /> I. Requirements for Valves in LNG Low-te
Understanding Triple-Eccentric Butterfly ValvesDesign and OperationTriple-eccentric butterfly valves are designed with three distinct eccentricities that enhance their performance:1. First Eccentricity: The valve stem is offset from the center of the valve body, allowing the disc to lift away from t