In pipeline systems, the Shutdown Valve is a key component for ensuring safe and efficient operation. Especially when handling high-pressure, high-temperature, flammable, or toxic media, the globe valve, as a common type of Shutdown Valve, plays a critical role. Compared to other types of valves, the structure and working principle of the globe valve make it one of the preferred choices for efficient and safe pipeline control. 1.Basic Function of the Shutdown Valve In pipeline systems, the Shutdown Valve is a key component for ensuring safe and efficient operation. Especially when handling high-pressure, high-temperature, flammable, or toxic media, the globe valve, as a common type of Shutdown Valve, plays a critical role. Compared to other types of valves, the structure and working principle of the globe valve make it one of the preferred choices for efficient and safe pipeline control. 2.Role of the Shutdown Valve in Safety Shutdown Valves play a critical safety role in many industrial applications, especially in pipeline systems that handle high-risk, flammable, or toxic media. The superior performance of the Shutdown Valve makes it an ideal choice for preventing dangerous leaks. For example, in the transportation of oil, natural gas, chemicals, and other hazardous substances, the Shutdown Valve can efficiently and quickly close the pipeline flow, preventing harm to the environment and personnel safety. Additionally, Shutdown Valves are widely used in steam systems, cooling water systems, and high-pressure gas pipelines. In these applications, the Shutdown Valve not only ensures safe operation but also effectively regulates flow, controls pipeline pressure, and prevents both overpressure and underpressure in the system, thereby maintaining the stability of the pipeline system. 3.Impact of the Shutdown Valve on Efficient Operation The Shutdown Valve, known for its reliable sealing performance and low flow resistance, is a crucial tool for achieving efficient flow control in pipeline systems. Compared to other valve types, the design of the Shutdown Valve focuses not only on ensuring a tight shutoff but also on its flow regulation capabilities. While it is not specifically designed for flow control, in certain cases, the Shutdown Valve can serve a limited flow regulation function, especially in systems with relatively low flow rates. For optimal operation, the Shutdown Valve requires regular inspection and maintenance to ensure its sealing integrity and functionality. In high-pressure or high-temperature environments, the valve's sealing surfaces are vulnerable to erosion or damage. Therefore, proper maintenance measures are essential to extend the valve's service life and ensure the safe and efficient operation of the system. 4. Selection and Application of the Shutdown Valve When selecting the appropriate Shutdown Valve, several factors should be considered: Me...
The butterfly valve, as a compact, quick-opening, and low-resistance regulating valve, is widely used in industries such as water supply and drainage, HVAC, power, chemical, and paper-making. However, in practical engineering applications, improper consideration of the butterfly valve’s installation direction and spatial arrangement often leads to valve operating abnormalities, decreased sealing performance, and deviations in control accuracy. In severe cases, it can even cause system failures or frequent maintenance, resulting in unnecessary economic losses. Therefore, a correct understanding of the impact of installation orientation and spatial layout on butterfly valve performance is essential to ensure its reliable operation and extend its service life. 1. The Impact of Installation Orientation on Butterfly Valve Performance (1) Fluid Flow Direction and Its Effect on Sealing Performance For centerline butterfly valves, where the valve disc rotates around the valve shaft, the force is relatively symmetric, and the fluid flow direction has little impact on the sealing performance. Therefore, the flow direction requirement is not strict during installation. However, for eccentric butterfly valves, especially double-eccentric and triple-eccentric types, the seal design is based on the "flow-assisted compression" principle. That is, when the medium pressure comes from the specified direction, it pushes the valve disc toward the sealing seat, thereby enhancing the sealing effect. If the valve is installed in the opposite direction of the flow arrow marked by the manufacturer, the reverse fluid flow will wash the valve disc. Not only will the expected sealing effect not form, but it may also create gaps between the sealing surfaces, accelerate valve seat wear, and cause internal leakage, making it impossible to close the valve completely. Therefore, the installation of eccentric butterfly valves must strictly follow the flow direction requirements. (2) Valve Shaft Orientation and Its Effect on Opening/Closing Torque and Actuator The installation orientation of the valve shaft (horizontal or vertical) has a significant impact on the opening/closing performance, valve body stress, and actuator life. Most medium and small-sized butterfly valves are installed with the valve shaft in the horizontal position. This method facilitates the alignment of the valve body with the pipeline and the arrangement of the actuator. However, for large-diameter butterfly valves or those installed in high locations or vertical pipelines, the valve shaft is often vertical. In this position, the weight of the valve disc directly acts on the valve shaft, especially when the valve disc is in the open position, where its center of gravity deviates from the axis, creating a large eccentric torque and increasing the axial load during opening and closing. If the actuator does not account for this additional load, it may result in po...
YPFB (Yacimientos Petrolíferos Fiscales Bolivianos) as Bolivia's state-owned oil and gas company, plays a critical role in the exploration, production, and distribution of oil and natural gas across Bolivia. It has a strong commitment to quality and innovation. DERVOS VALVE is honored to have passed the qualification review and become one of contract valve suppliers of YPFB. • Supplier Qualification Requirements for YPFB Becoming a supplier for YPFB requires meeting several stringent qualifications. YPFB looks for suppliers with a proven track record of reliability, technical expertise, and product quality. This includes compliance with international industry standards and certifications,along with the ability to provide high-performance products that meet the specific needs of Bolivia’s oil and gas industry. The process also involves submitting detailed technical documentation, including certifications, safety records,and previous successful project references. • Application Process to Become a YPFB Supplier The application process to become a certified supplier for YPFB is highly competitive and rigorous. The first step is to submit an official application, followed by a review of the company’s credentials. Dervos Valve underwent this process and provided comprehensive technical documentation, including product specifications and compliance with safety standards. Our team also participated in interviews and site visits, showcasing our manufacturing capabilities and commitment to quality. DERVOS VALVE will supply a range of valves to YPFB for use in their oil and gas operations, including high-performance ball valves, gate valves, globe valves, and check valves. These products are crucial for ensuring the safety and efficiency of operations in challenging conditions. Dedicated to consistent product quality through daily operations, we ensure excellence in performance. Our ongoing commitment is providing partners with professional support and premium services, fostering mutual growth and win-win success.
6" 300LB Axial Flow Check valve is made according to API594 standard. The valve body is made of SS2205. It has the structural characteristics of Silent type. Its connection mode is Wafer Type.
Payment:
30% when order confirmed, 70% before shipmentProduct Origin:
ChinaColor:
CustomizationShipping Port:
Shanghai, ChinaLead Time:
30~60 days Ex Works after order confirmationMaterial:
SS2205
|
Type |
Axial Flow Check Valve |
|
Size |
6" |
|
Pressure |
300LB |
|
Connection |
Wafer |
|
Body Material |
SS2205 |
|
Design Norm |
API 594 |
|
Face to Face Dimensions |
API 594 |
|
End Flange Dimensions |
ANSI B16.5 |
|
Test & Inspection Code |
API 598 |
|
Temperature |
-29 ~ 200°C |
|
Applicable Medium |
Water, Oil and Gas |
1. Valve disc has no impact action, smooth opening and closing action, almost no "knocking" sound, suitable for occasions with strict noise requirements;
2. The valve disc and seat are precisely matched, and can be equipped with metal seals or soft seals, with reliable sealing and no leakage.
If you are interested in our products and want to know more details,please leave a message here,we will reply you as soon as we can.
The 2inch axial nozzle check valve is the preferred solution for preventing return flow or shocks on critical process equipment. Thank for its LCB body, the valve is capable for working temperature down to -46 degree Celsius.
3" 1500LB axial flow check valve is made according to API 6D standard. The valve body is made of A995 4A. It has the structural characteristics of axial flow type, and structural length of 473mm. Its connection mode is RTJ.
2”CL150 Axial Flow Check Valve is made according to API 6D standard. The valve body is made of ASTM A352 LCB+316SS. It has the structural characteristics of axial flow. Its connection mode is RF.
The DN32 JIS 5K globe valve is suitable for marine application. The bronze globe valve is handwheel operated with FF flange. Quick Detail Type Marine Globe Valve Size DN 32 Design Pressure 5K Connection Type FF Flange Design Code JIS F7301 Face to Face JIS B2002 Body Material Bronze Trim Material Bronze Application Water, Oil, Gas Purchasing System Late delivery time become a common issue in 2018. However, Dervos keep more than 90% on-time delivery, so how do we achieve that? It owns our purchasing department. How do we react to a delay crisis? -Visit the factory everyday and supervise on site -Initiate related resources, such as machining workshops and skilled workers to help on expediting production What benefits could we do for you by keeping on-time delivery? -Avoid penalty from end user -Accumulate reputation -Gain client’s trust FAQ 1. Do you have your own foundry or forge shop? No, but we have an approved list of foundries over the past decade of casting inspections, which can make sure that our castings are of good quality and all the raw materials are traceable. 2. Can you do NDE Capability radiography, MT, UT, LP? Of course, we can do all these tests upon our clients, but there will be additional charge to these tests. 3. What kind of test will you do for each order? After valve assembly, we will do hydraulic test for shell & sealing and air test. Plus, we will do dimension checking (face to face dimension, flange dimension) as per assembly drawing and standards.
1/2'' PN63 floating valve is made according to ASME B16.34 standard. The valve body is made of WCB/CF8/CF8M. It has the structural characteristics of 3-piece, full bore. Its connection mode is NPT. And it has lever operation mode.
The 6 inch 150 LB single disc wafer check valve, designed per API 594, has one disc and wafer connection. It will have the best performance under -29 to 350 Celsius degree.
The bellows seal globe valve adopts the bellows seal design, which completely eliminates the shortcomings of the normal valve stem packing seal aging and easy to leak, not only improves the energy efficiency, increases the safety of the production equipment, reduces the maintenance cost and frequent maintenance. It also provides a clean and safe working environment.Its simple structure and the low price makes it almost no "competitors". Quick Detail Type Globe Valve Norminal Size 1.5 Inch NorminalPressure 150LB Construction Bolted Bonnet, Outside Screw & Yoke, Rising Stem, Bellow Seal ConnectionType RF Flange Operation Handwheel Design Code ASME B16.34, API 602 Face to Face ASME B16.10 Flange End ASME B16.5 Test & Inspection API 598 Body Material ASTM A105 ApplicableTemp -29℃~+425℃ Application Water, Oil, Gas Structure Feature 1. Double seal design (corrugated pipe + packing). If the bellows fails, the stem packing will also be avoided; 2. External leakage, and in line with international sealing standards; 3. No fluid loss, reduce energy loss, and improve plant equipment safety; 4. Long service life, reduce the number of maintenance, reduce operating costs; 5. Rugged bellows seal design, ensuring zero leakage of the valve stem, providing maintenance-free conditions. Technical Drawing Dimension Our Service Dervos customer service is one of our biggest competitive advantages. In Dervos, we provide- 1.Quotation within 24 hours or no later than 3 days This will let you meet the quotation submission deadline and enhance your working efficiency 2.Weekly status report of your order In this way, you will have a clear picture of your order. You do not need to waste time on pushing us for status update 3.An 18-month warranty period A warranty certificate will issued after shipment and you will not have any concern after buying valves. 4.Solutions to complaints within 3 days Quick and responsible actions to complaints will protect your reputation and reduce the financial loss as much as possible.
DN50 PN40 Y Type Strainer is made according to BS EN 12516 standard. The valve body is made of EN 10213 1.0619. It has the structural characteristics of Y-shaped, mesh size: 0.25 mm, without drain plug. Its connection mode is RF.
DN25 PN40 ball valve is made according to ISO17292 standard. The valve body is made of ASTM A105. It has the structural characteristics of floating ball and full bore. Its connection mode is EN 1092-1 B1. And it has lever operation mode.
The 1 inch 800LB female threaded globe valve has plug disc, reduced port and manual handwheel operation. The valve is made of A105N body and trim 5 as per API 602. Quick Detail Type Globe Valve Size 1'' Pressure Class 800 Construction Bolted Bonnet, Reduced Port, Outside Scew & Yoke ConnectionType NPT Female Thread OperationType Handwheel Operated Design Code API 602 End to End Dimension ASME B16.10 Connection ASME B1.20.1 Pressure & Temp ASME B16.34 Test & Inspection API 598 Body Material Forged Steel A105 TrimMaterial 13CR+Stellite Temperature Range -29℃~+427℃ Application Water, Oil, Gas Origin China Product Range 1.Size up to 4 inch 2.Design pressure between 150LB to 2500LB 3.Connection: flange, socket weld, thread 4.Operation: handwheel, gearbox, bare stem, with actuators 5.Body material: carbon steel, stainless steel, alloy steel 6.Trim material: trim 1, 5, 8, 10, 12, 16 and ect. 7.Bolted bonnet, pressure sealed bonnet, welded bonnet, screwed bonnet 8.Reduced bore, full bore Inspection Reports Along with each order, Dervos will provide inspection reports and material test reports free of charge after shipment. All these certificates will let you have a clear picture of inspection process and results. Plus, these reports can be used for traceability.
2" 600LB inverted pressure balanced lubricated plug valve is made according to API 6D standard. The valve body is made of A216 WCB. It has the structural characteristics of inverted pressure balance type, oil sealed. Its connection mode is RF. And it has Lever operation mode.
Made of stainless steel, the cryogenic gate valve has extended bonnet, reduced bore, non-rising handwheel, socket weld connection, complying with API 602. Quick Detail Type Gate Valve Size 1'' Design Pressure ANSI 1500 Construction Extended Stem, Bolted Bonnet, Solid Wedge ConnectionType Socket Weld (SW) OperationType Handwheel Operation Body Material A182 F316L TrimMaterial SS316L Design Code ASME B16.34 Face to Face ASME B16.10 End Connection ASME B16.11 Medium Water, Oil and Gas Origin China Available Modifications for Dervos Valves -Design Pressure -Nominal Diameter -Body Material & Trim Material -Material & Type for Packing and Gasket -Valve Operation Type -Modifications of End Connection -Available Extended Stem or Bonnet -Available By-Pass Valve -Customized Coatings & Packaging Related Knowledge Why do we use extended stem for cryogenic valves? The cryogenic valves are mainly used in low temperature liquid media, like liquefied natural gas and petroleum products. The reasons why we use extended stem for cryogenic valves are as below: 1.To maintain the temperature of stem packing in a proper level, since the very low temperature will influnce the sealing function of stem pakcing. 2.To prevent the heat outside from entering the valve and cause energy loss to the application 3.The long stem structure facilitates the quick replacement of the valve's main part through the valve cover. 4.To prevent the parts (like handwheel) over stem from freezing
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