The Ultimate Buyer's Guide for Purchasing gate valve tester

What are Gate Valves?

Gate valves work exceptionally in many environments. There are many advantages of gate valves due to their efficient structure. People often mistake gate valves vs. Globe valves. The gate valve working is unique and differs from other valves. This ultimate gate valve guide covers everything you need to know about gate valves. The working types and applications of gate valves are described below. Let’s check out what is a gate valve.

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What is a Gate Valve?

A gate valve is a plumbing product that controls the fluid flow through pipes. Consider having a pipe that brings water, and you want to control when water flows and stops. In conditions like these, gate valves are the most suitable option.

One of the best gate valve features is their excellent seal-on closure. This property ensures no liquid or gas leaks when the valve gets closed. There are many types of gate valves for water supply and other applications.

Gate valves apply to house water pipes, big pipelines for transport, and power plants. The ideal usage of a gate valve is in regulating gases or liquid flow.

Symbol of Gate Valve:

The symbol of a gate valve contains a vertical line where two triangles meet. The triangles have extended solid lines on the opposite sides at the symbol terminal. In pipelines and instrumentation, the gate valve symbol is modified. As a result, the solid vertical line from the center of the triangles is removed.

Working of Gate Valves:

Gate valve working is like opening and closing a door to control the flow of water or air in a pipe. Consider having you have a giant door inside the pipeline. You can lift it to allow flow or lower to stop it. The gate valve works similarly to this mechanism.  

Open Position: The flow can pass through” when” the gate valve opens. The “door” inside the valve, called the gate, lifts, creating an open pathway for water or gas to move through the pipe.

Closed Position: When we want to stop the flow, we close the gate valve. The gate lowers, blocking the pathway inside the valve. Nothing can pass through when the gate is down, and the entire flow stops.

We use a handle to control the gate and move it up or down. Turning the handle lifts or lowers the gate, like a door opening or closing a door. It’s like a switch that we can use to control the flow in pipes. In our homes, in big pipelines for oil and gas, or in different industries, they manage the movement of fluids.

Gate Valve Specifications:

Here are the gate valve specifications.

Gate Valve Parts:

Gate valve parts vary for every type and condition being operated in. Yet, some of the parts are mandatory for making up the structure. The body, gate, handle, bonnet, seat, etc., are essential gate valve parts. Let’s check out their description.

Gates:

The gate is the most crucial component that decides the gate valve’s performance. It comes in a variety of designs and variations to suit specific applications. Parallel and wedge-shaped gates are the most popular ones. Knife, slab, and similar expanding gates are other significant types. Each one of them differs due to their shape and working mechanism.

Gate Valve Body:

The gate valve body acts like a shelter to hold all parts together. It is that point from where the fluid enters and leaves the valves after regulation. Depending on the material used, the valve bodies can be metallic, non-metallic, alloy, or plastic.

It is available in three variants for respective applications. These are cross-flow, reduced, or full-bore designs. The gate valve body also serves connection purposes. The flanges, butts, wafers, or sockets join the valve with the system through the body.

Gate Valve Stem:

The gate valve stem is a central component that controls the disc movement. The rotation of the stem results in the direction of the disc, either lifting or dropping. This stem is directly connected to a handle or actuator to control the operation of the valve. It has a valve disc connection at one end and a handle connection at the other. This way, it maintains control of the functioning of the gate valve.

Gate Valve Bonnet:

Bonnets serve as a protective cover and support to gate valve parts. These parts include the stem, actuators, and disc. They also play a pivotal role in the operation of the branch. Gate valve bonnet material is often identical to that of the body. They connect with the bonnet with the help of bolts, threads, or welding. Some gate valves are bonnetless as their bonnets are merged in the body.

Gate Valve Seat:

The gate valve seat is crucial for the sealing mechanism and positioning of the disc. Most usually, plumbing valves comprise one seat. But gate valves have two seats on the ends of each pipe flange. The correct position of the seat is highly significant for efficient sealing. If it remains unchecked, it can cause gate valve leakages.

Gate Valve Disc:

The gate valve disc is that part that allows escape or blockage of fluid. It moves away from the seat to create a fluid pathway. Similarly, when it moves toward the center, it blocks the path. The mean position or resting point of the disc is the seat.

Yoke and Gland Packing:

Yokes are the arms of the gate valve. They form a connection between the handle and the stem. In some valve designs, they are merged into the bonnets.

Gland packings are secured in the stuffing box to prevent gate valve leakages. A unique structure called sleeves is used to keep it in the box.

Types of Gate Valves:

Here are the gate valve types.

Rising Stem Gate Valve: 

The stem grows and lowers on turning the handle in rising stem gate valves. When we open the valve, the stem stretches and straightens. At the same time, the branch lies downwards when the valve is closed. This mechanism enables us to understand the valve status by looking at the valve design.

Non-Rising Stem Gate Valve: 

The stem type in this gate valve does not move from its place. Instead, it remains still while the gate inside the valve changes its position from up to down. The best perk of having non-rising stems is their less space consumption. A non-rising stem gate valve is ideal for small places where we cannot install giant valves due to lack of space.

Wedge-Shaped Gate Valve: 

The gate has a wedge shape in this type. It means the gate wedges between the valve seats when it lowers. They provide a very secure shut-off. They are excellent where a tight seal and resistance to high pressures are necessary.

Bypass Gate Valve:

Bypass gate valves have a unique structure containing an extra passage. This additional duct works like a substitute when we close the gate valve. The fluid can flow and continue its way through a closed valve via this bypass.

The primary purpose of a gate valve with a bypass is to maintain continuous flow. It flows even during maintenance or repair activities on the gate valve itself. Opening the bypass allows fluid to move through the system. At the same time, the gate valve works without interrupting the flow.

Gate Valve Standards:

Here are gate valve standards you should consider before making a selection.

• API B16.34 for Pressure Temperature Rating.
• API 598 for Pressure Testing.
• API 600 for design, material, and testing of steel gate valves.
• ANSI B16.10 for Face to Face.
• NFPA (National Fire Protection Association) for fire protection systems.
• AWWA (American Water Works Association) for wastewater and water applications.

Considering gate valve standards while buying is essential to ensure safety and reliable performance. There could be a few other standards that you could come across at the time of selection. You should consult a credible B2B gate valve manufacturer for custom solutions and plumbing assistance.

Gate Valve Applications:

Here are a few of the most helpful gate valve applications.

Water Supply Systems: 

Gate valves regulate water flow through pipes in water supply systems. There are separate types of gate valves for water supply systems. They have immense switch-like structures that can be on or off at different places, like our homes and schools. When you turn the tap on to wash your hands, a gate valve helps control water flow through the pipes. It is one of the best gate valve applications.

Gas Pipelines: 

Gate valves are crucial in gas pipelines that carry natural gas to homes for cooking and heating. They help regulate gas flow, ensuring the correct amount reaches each place.

Power Plants: 

In power plants, gate valves serve the duty of regulating steam and water flow. Steam generates electricity, and gate valves take steam to the desired locations with excellent carrying ability. Similarly, you can turn off the flow from the gate valve when unnecessary.

Irrigation Systems: 

Gate valves play a role in irrigation systems present in farming. It is among the best gate valve applications. They control the flow of water from within fields during agriculture. They equalize the water supply for the growth of healthy crops.

Oil and Gas Industries: 

Gate valves help in controlling the flow of oil and gas. They enhance safety and bring them to their destination with great care.

Chemical Processing: 

Gate valves in chemical plants control the chemical flow during the manufacturing process.

Water Treatment Plants:

Water treatment plants use gate valves to regulate water flow during purification. They ensure clean and safe water reaches our homes for drinking and other activities.

Sewage Systems: 

Gate valves in sewage systems control wastewater flow and prevent any backflow.

Gate Valve Material Selection:

Gate valve material selection requires consideration of certain factors. It includes pressure and temperature, flow rate, and fluid type. Here are some of the most common gate valve materials and their features.

Stainless Steel: It is suitable for applications like chemicals, petrochemicals, oil and gas. This material can handle corrosive fluids and can operate under high-pressure conditions.
Carbon Steel: It efficiently deals with fluids with moderate pressure, temperature, and non-corrosive media. The applications include steam, gas, and water.
Bronze: It is best for moderate flow rates in seawater and brine. Bronze is resistant to saltwater; thus, it is ideal to operate in such conditions.
Cast Iron: Cast Iron gate valves can handle water, gas, and steam.
Nickel: It is appropriate for high-pressure corrosive media applications. Nickel can function in chemical processing and nuclear power plants.
PVC: PVC can handle low temperatures and pressure media and is non-corrosive. Suitable media for this material are water, alkalis, and acids.
CPVC: CPVC has fluid requirements that are the same as PVC. One distinct difference is that it can control fluid at moderate levels.
Graphite: Ideal to handle chemicals and steam at extremely high temperatures and pressure.

Proper gate valve material selection enhances system performance and reduces maintenance costs. Also, it leads to a long-lasting span of the valve working. The material should also be standard and forged by trusted metal manufacturing companies.

Gate Valve Installation:

Follow these step-by-step instructions for the installation of gate valves.

Materials Needed:

• Gate valve.
• Pipe wrench or adjustable wrench (to tighten the valve).
• Pipe joint compound or Teflon tape (for sealing).

Steps to Install:

Gate valve installation needs careful handling of the product and tools. To start the installation, choose a specific location and cut off the water or gas supply at that point. This step is essential for safety.

Check the gate valve to ensure it fits the size of your pipe. To get the best performance, ensure the valve is free of dirt or debris.

If you want to learn more, please visit our website gate valve tester.

Now, put a small amount of pipe joint compound or wrap Teflon tape around the threads on both ends.

The valve should face where you want it to turn to open or close the valve. Screw one end of the valve onto the pipe, turning it clockwise until it’s snug. Check if it’s straightforward with the help of a level.

Gently turn the gate valve handle for testing to check if it opens and closes smoothly. If the valve works well, you have successfully installed it correctly.

Gate Valve Maintenance Guide:

Here is the gate valve maintenance guide:

• Inspections: Gate valve inspection refers to checking for the signs of damage or leaks. Look for rust, corrosion, or any loose parts over a certain period.
• Lubrication: Lubrication is essential for gate valves to smooth operating parts’ movement. Use a suitable lubricant for the stem and other moving components. Consider the manufacturer’s advice while selecting a lubricant for your product.

• Cleaning: Cleaning is one of the most accessible and primary means to maintain your gate valve. Regular cleaning of surroundings and inner structure ensures optimal performance. It helps remove debris or other particles from disturbing the working of the gate valve.

• Corrosion Prevention: Gate valves exposed to harsh environments or corrosive substances may require additional protection. Consider using coatings or materials designed to resist corrosion in such situations.
• Repair Leaks: Leaks can lead to the wastage of fluids and may occur due to a faulty seal or damaged valve. Repairing leaks can make the gate valve function for a longer time.
• Keep Surrounding Area Clear: Ensure the area around the gate valve is free from obstructions, debris, or any potential hazards that could affect its operation.
• Training and Safety: Only trained personnel handle maintenance tasks for gate valves. Safety is crucial when working with valves, pipes, and pressurized systems.

Gate Valve Buying Guide:

A gate valve buying guide will help you decide when purchasing the suitable gate valve for your needs. Although gate valve price can be a significant factor, there are also a few others. Here are a few factors to remember as a gate valve buying guide.

Valve Size: 

Always opt for a gate valve that syncs with your plumbing system’s size or pipe. Gate valves come in various sizes, so select one that fits the diameter of your pipes.

Type of Gate Valve: 

Among various gate valve types, choose the one that suits your application. There are rising stem and non-rising stem gate valves and other classes with many benefits.

Pressure Rating: 

The gate valve’s pressure ratings should be equal to your system or higher. It’s crucial to avoid installing a valve that cannot handle the stress, as it could lead to failure and leaks.

Temperature Rating: 

Consider the temperature at which the gate valve will operate. Material selection is essential for proper media handling as per specific systems.

Flow Control: 

Determine if your application requires precise flow control or only on-off operation. Gate valves are better suited for on-off control rather than regulating flow.

FAQs:

Q. Can I use a gate valve for flow regulation?

Gate valves are better for on-off flow control than regulating the flow. Other valves, like globe or butterfly valves, are relatable for precise flow control.

Q. How do I maintain a gate valve?

Gate valve parts need regular maintenance. Their maintenance can be extended to inspections for damage or leaks, lubrication, and operational checks. You also need to perform cleaning, checking seals, etc.

Q. What should I do if there is leakage in my gate valve?

Turn off the water or gas supply immediately if you notice a leak. Check for loose connections or damaged seals. If you can’t find the cause, seek assistance from a professional plumber or valve technician.

Q. Can I replace a gate valve myself?

It’s essential to have a good understanding of plumbing and gate valve installation. If you have these, you can replace a gate valve yourself.

Q. How long do gate valves last?

The lifespan of a gate valve depends on its quality, materials, usage, and maintenance. Well-maintained gate valves can last many years if you monitor their condition and replace them when necessary.

Conclusion:

This ultimate gate valve guide aims to teach you multiple things about the product. Gate valve working and performance are no doubt very ingenious on their own. They make heavy-duty operations swift and reliable.

As a professional valve buyer, you need to have enough comprehensive knowledge to make reasonable purchasing decisions.
The work of valve procurement can be systematically divided into the following five dimensions: technical performance, quality compliance, cost control, supply chain management, and full life cycle maintenance.

1. Valve Types and Functions

1.1 Valve Types

• Valve type: ball valve/gate valve/stop valve/globe valve, etc.
  First of all, you have to clarify the usage scenarios and requirements. The main functions of the valve are only three: open and close, adjust the flow, and prevent backflow. According to the different pipeline systems, different valves need to be chosen.

For example, ball valves are suitable for liquid and gas pipelines that need to be opened and closed quickly; gate valves are suitable for liquid, gas, and steam pipelines that require flow conditions and do not need to be opened and closed frequently; and check valves are suitable for one-way flow pipes.
Defining the type of valve is the first step in purchasing a valve.

1.2 Basic Parameters of the Valve

• Nominal diameter DN: the nominal diameter of the valve should match the pipe; If the diameter of the front and back pipe segments is inconsistent, it is necessary to select the BUSHING joint (the junction of the main pipe and the branch pipe segment)
  • DN15-DN25: common civilian
  • DN125-DN50: Conventional industrial use
  • DN80-DN150: Large industrial use
  • DN200 and above: Large-scale water treatment facilities

1.3 Valve Connection Method

• flange connection valve
  Flange connection By bolting two flange plates together to form a sealed joint, suitable for high pressure and high temperature environments. Usually can withstand high pressure (up to 25 MPa or more)

• threaded connection valve
  Threaded connection Using the intermesh of threads to connect pipes or equipment, suitable for small diameter pipes and low pressure applications.
  Threads according to different national standards are divided into: Metric Thread, Imperial Thread, NPT Thread (National Pipe Thread), BSP thread (British Standard Pipe), JIS thread (Japanese Industrial Standard), G Thread (Gas Thread), ACME thread
  Usually suitable for low to moderate pressures (up to 16 MPa)

• butt welded connection valve
  Butt welded joint by joining and welding the ends of two sections of pipe to form a strong connection, often used in high pressure and high temperature applications.
  Can withstand high pressure (up to 50 MPa)

• clamp connection valve
  Clamp connection connects the pipe by using the clamp, which is easy to disassemble and maintain, and is widely used in food, pharmaceutical, and other industries.
  Generally suitable for low to moderate pressure (up to 10 MPa)

The suitable connection method can be selected according to the required sealing pressure level.

1.4 Valve Opening Method

Valve installation and opening methods are divided into: manual valve, electric valve, pneumatic valve, hydraulic valve.

• Manual valve is the most used valve at present, the common manual valve has a handle type and a wheel handwheel type. Suitable for most piping systems.
• Electric valves are suitable for automated control systems such as HVAC, chemical production lines, and valve scenarios requiring remote control
• Pneumatic valves are suitable for factory assembly lines, robot arms, gas conveying and spraying equipment
• Hydraulic valve is suitable for heavy machinery and engineering equipment in chemical, Marine, and aerospace industries

2. The Performance Parameters of the Valve

1. Valve pressure grade: PN (nominal pressure, such as PN16), Class (US standard, such as Class 150).

Indicator: Maximum working pressure (e.g. PN16=16 bar).

2. Valve operating temperature range: -50°C~200°C (conventional), -196°C~800°C (special working conditions).

Index: Temperature resistance of sealing material (such as EPDM ≤120°C).

3. Valve flow coefficient: Cv/Kv value.

4. Leakage grade: ANSI Class IV/V/VI, ISO A/B/C/D.
   Indicator: Allowable leakage (such as Class VI ≤0.1 mL/min).
   
5. 5.Opening and closing torque: manual valve ≤50 N·m, electric valve ≤500 N·m.
   Indicator: Drive matching.

3. Valve Material Parameters

1. Valve material

• Body material: brass, bronze, lead-free copper, DZR, Carbon steel (WCB), stainless steel (304/316)
  For example, DZR anti-dezincification brass is a kind of corrosion resistant material, in which the zinc content is an important indicator.
• Stem material:
• The ball material of the ball valve
• Sealing material: PTFE, EPDM, NBR, metal hard seal.
• Nut material

2. Valve surface treatment: nickel plating, epoxy coating, spray.

Test methods include: ASTM B117 salt spray test ≥48 hours, paint film impact resistance test, color paint and varnish grid test.

4. Valve Installation parameters

1. Valve installation direction: horizontal, vertical, incline.

For example, check valves are installed vertically, and conventional valves are installed horizontally.

2. Installation space requirements:

pipe spacing and installation position restrictions also have requirements for the size and shape of the valve

3. Maintenance space requirements:

Reserve the active space of the hand wheel/handle, the active space of the installation and removal tools, and plan the size of the access port.

5. Certification and Standards

1. Product certification:

ISO (International), CE/PED (EU), WRAS(UK), WaterMark (Australia), CSA (Canada), API 6D (Pipeline valve), IAPMO (International Association of Plumbing and Mechanical Officials).

For example, the United States, Canada, and Australia have the most stringent requirements for lead-free valves.

2. Test standards

a. API standards
API 598: Standard for testing tightness of valves.
API 600: Design and test standard for gate valves.
API 607: Standard for fire test of valves.

b. ASME standards
ASME B16.34: Standard for the design, manufacture and testing of valves.
ASME B31.3: Standard for the design of chemical pipelines, relating to the application of valves.

c. ISO standards
ISO : Standard for testing the tightness of valves.
ISO : Standard for fire test of valves.
ISO : Quality management system standard for valve manufacturers.

d. EN standard
EN : Standard for testing the tightness of valves for the European market.
EN 161: Performance standard for valves for gas applications.

e. JIS standard
JIS B : Japanese industry standard relating to the testing and performance of valves.

3. Document requirements

Parameters: Material Certificate (MTC), inspection report (COC), drawing.

For example: How to Verify a WRAS Certificate for Valves?

6. Special Working Condition Parameters

1. Low temperature valve (Antifreeze Valve/Frost Proof Valve)

In cold areas, antifreeze valves are required. By detecting the ambient temperature, when the temperature is lower than 3 degrees, the liquid in the pipeline will automatically be discharged to prevent the pipeline from freezing and cracking

Specifications: BS (low temperature valve standard).

2. High pressure valve

Valve body thickness is the key parameter for valve pressure (e.g. DN50 Class 600≈20 mm).

Specification: Comply with ASME B16.34 (high pressure valve design).

3. Sanitary valves

Sanitary valves are used in pharmaceutical and food production processes, using 304 and 316 stainless steel.

Indicators: Comply with 3-A Sanitary Standards.

7. Valve Procurement Cost Analysis

1. Procurement cost:

unit price, MOQ (minimum order quantity), payment method (LC/TT), transportation costs determine the direct procurement cost of the valve.

2. Operating costs:

service life, quality assurance years, installation difficulty, maintenance frequency, maintenance, replacement costs, and inventory costs comprise the operating costs of valves.

3. Supply chain risk:

It is necessary to clarify the supplier’s delivery cycle (conventional 6-12 weeks, expedited 4-6 weeks) and mode of transportation, and stipulate the supplier’s default terms and amount.

8. Sustainability Requirements

1. Environmental compliance

• Parameters: RoHS/REACH (Restriction of Hazardous substances), energy efficiency level.
• Standard: ISO (Environmental Management System).

2. Low-carbon design

• Parameters: Material recovery rate (≥90%), lightweight (15% weight reduction compared with traditional design).

9. Supplier Evaluation

1. Technical capabilities: investigate the supplier’s OEM/ODM customized design capabilities, non-standard valve processing experience, patent certificates, certification certificates.
2. Production capacity: Evaluate the production capacity (daily output, monthly output) and existing orders through the size of the plant, the number of equipment, and the number of workers, and evaluate whether your orders can be delivered in time if you cooperate.
3. Quality control capability: What quality inspection equipment does the supplier have (pressure testing instrument, flow testing instrument, leak detector, ultrasonic flaw detector).
4. Case study: Investigate whether suppliers have executed orders for similar products of similar size. If you have no experience, you need to pay more attention in cooperation to ensure that every detail of the order product requirements is understood by both parties.
5. After-sales service ability: Product warranty period (usually 2-5 years) Quality suppliers can guarantee products for 10 years.
6. Packaging requirements: Whether the product packaging meets the requirements of long-distance transportation, such as shipping boxes and pallets
7. Sample testing: needs to confirm whether the samples provided by the supplier meet the requirements of material, size, pressure, appearance, etc. Continue to communicate with the supplier if any adjustments need to be made after testing

Supplier evaluation form

In the early supplier evaluation, you can score suppliers, sort more suppliers of the same type, and select the best suppliers.

Tender project or multiple supplier quotation evaluation

When placing an order in the later period, when facing several high-quality suppliers, it is difficult to choose, you can also quantitatively evaluate the ability of suppliers according to different indicators, and calculate the most suitable valve suppliers for you.

This is a rating sheet for BMAG from our clients.

The above is all the information that a professional valve procurement should know.
In strict accordance with the above content, the execution of the evaluation item by item can completely help a newly entered procurement specialist to upgrade into a procurement expert.

Contact us to discuss your requirements of pipe beveling machinery. Our experienced sales team can help you identify the options that best suit your needs.