1. Кіріспе
Custom Butterfly valves are essential components in modern fluid control systems, олардың ықшам дизайнымен танымал, Жылдам жұмыс, және әмбебаптық.
Originally conceptualized in the early 20th century, these клапандар have evolved significantly to meet the growing demands of industries requiring efficient and cost-effective flow control solutions.
Бүгін, butterfly valves are widely used in diverse sectors such as Суды тазарту, Мұнай және газ, Hvac, Химиялық өңдеу, теңіз, жіне тамақ пен сусын салалар.
Their popularity stems from their ability to handle a broad range of fluids—including gases, сұйықтықтар, and slurries—with minimal pressure drop and rapid shutoff capabilities.
2. What Is a Butterfly Valve?
А Көбелек клапан is a type of quarter-turn rotary valve used to regulate, isolate, or control the flow of fluids, газдар, or slurries in piping systems.
Its name is derived from the disc’s operation, which resembles a butterfly’s wings as it rotates within the valve body.
Butterfly valves are widely recognized for their ықшам дизайн, Жылдам жұмыс, төмен баға, жіне broad size range, making them suitable for both low- and high-pressure applications across a variety of industries.
Core Components and Their Functions
Клапанның денесі
The valve body is the outer casing that houses all internal components and interfaces with the pipeline through wafer, қамту, фланурды, or butt-welded ends.
Valve sizes typically range from DN50 (2 дюйм) to over DN3000 (120 дюйм) for large-scale industrial applications.
Butterfly Disc
The disc is the rotating element that regulates flow. Shaped like a circular or elliptical plate, it is mounted either centrally or slightly offset on the shaft.
When rotated 0د ° د ° / د (ағынға параллель), the disc allows full flow through the valve. When turned 90د ° د ° / د (перпендикуляр), it fully blocks the flow, achieving shutoff.
Valve Stem (Білік)
The stem connects the actuator to the disc, transmitting the torque necessary for rotation.
In large or high-pressure valves, the stem may include upper and lower bearings or bushings to reduce operating torque and extend service life.
Орын (Мөр)
The seat is a ring-shaped sealing surface located inside the valve body. It interacts with the disc edge to provide a tight seal when closed. The seat plays a critical role in leak-tightness and longevity.
Дротатор
A mechanism (нұсқау, пневуль, электр, немесе гидравликалық) that drives the disc’s rotation. Manual actuators use handwheels or levers; automated versions integrate with control systems for remote operation.
3. Working Principle of Butterfly Valves
Butterfly valves function based on a quarter-turn rotational motion that controls the position of a disc relative to the flow path.
The simplicity of this design allows for Жылдам жұмыс, reliable shutoff, and efficient flow modulation, making them widely used in both on-off and throttling applications.
Basic Operating Principle
At the heart of a butterfly valve’s operation is the disc, which rotates around a central or offset shaft:
- Ашық позиция (0د ° د ° / د): When the disc is aligned parallel to the flow direction, the valve offers minimal flow resistance.
This allows the medium to pass through almost unimpeded, resulting in a low-pressure drop across the valve. - Жабық позиция (90د ° د ° / د): When the disc is rotated perpendicular to the flow, it presses tightly against the seat, forming a seal that stops the flow.
Depending on the valve type (сақтан алушы, Жоғары сапалы, or triple offset), this seal may be either soft or metal-to-metal. - Дроссляция (10°–80°): Intermediate positions allow partial opening of the valve, where the disc restricts the flow similar to an orifice plate.
The valve can be used to control flow rate, although accuracy varies based on disc design and valve type.
Flow Modulation Characteristics
The relationship between disc angle and flow rate is сызықты емес, particularly for standard resilient-seated butterfly valves.
At lower disc angles, small movements cause significant changes in flow, which can make precise modulation challenging.
Дегенмен, high-performance and triple offset butterfly valves offer improved control characteristics and are better suited for regulated flow applications.
Герметизация механизмдері
Butterfly valves achieve shutoff through direct contact between the disc edge and the valve seat. Та type of seal determines both the performance and application suitability:
- Ырымдық: Utilizes a soft elastomeric seat (E.Г., EPDM, Нгр) for bubble-tight sealing.
Ideal for low- to medium-pressure systems but may degrade in corrosive or high-temperature environments. - High-Performance (Екі есе офсеттік): The disc is offset from the seat centerline, reducing friction during operation and improving sealing under pressure. Suitable for moderate pressure and temperature applications.
- Үш есе есепке жатқызу: Adds a third geometric offset to eliminate friction entirely during operation, рұқсат metal-to-metal sealing suitable for high-pressure, Жоғары температуралы, and critical service conditions.
Speed of Operation
Thanks to the 90° rotational motion, butterfly valves can be operated rapidly:
- Manual valves typically require one quick turn of the lever or several turns of a gearbox.
- Automated valves (электр, пневуль, немесе гидравликалық жетек) can open or close in 1 қарай 5 секунд, depending on valve size and actuator type.
This speed makes butterfly valves ideal for emergency shutdown systems (Эсду), frequent cycling operations, or processes requiring rapid flow isolation.
4. Көбелек клапандарының түрлері
Butterfly valves come in a wide variety of configurations tailored to specific installation requirements, Өнімділік критерийлері, and actuation preferences.
They are commonly classified based on Дене дизайны, Тығыздау өнімділігі, жіне Асертау әдісі.
Based on Body Design
This classification refers to how the valve connects to the piping system and how it is supported structurally.
Wafer Type Butterfly Valve
Та wafer-style butterfly valve is the most common and cost-effective design.
It is designed to be sandwiched between two pipeline flanges using long bolts that pass through the valve body and both flanges.
The wafer valve provides a tight seal against bi-directional pressure, preventing backflow.
Дегенмен, it does not support downstream piping, so it is not suitable for applications requiring dead-end service.
Lug Type Butterfly Valve
The lug design features protruding lugs with threaded inserts around the valve body, allowing the valve to be bolted to each flange separately.
This configuration enables one side of the piping system to be disconnected without affecting the other, making it useful for systems that require periodic maintenance or isolation of a single side.
Lug-type valves are suitable for dead-end service when installed with the appropriate pressure rating.
Double Flanged Butterfly Valve
The double-flanged design includes flanges on both ends of the valve body, which are bolted directly to the pipeline flanges.
This construction provides enhanced mechanical strength and support for heavy piping systems.
It is particularly suited to large-diameter pipelines, buried installations, and applications involving frequent opening and closing.
Butt-Welded End Butterfly Valve
Бұл түрдегі, the valve is permanently welded to the pipeline, eliminating flanged joints and reducing potential leak points.
This design is ideal for high-pressure, Жоғары температуралы, or hazardous environments where joint integrity and long-term sealing are critical.
Typical applications include oil and gas, Бу бөлімі, and process plants handling toxic or flammable fluids.
Based on Sealing and Performance
Butterfly valves also vary based on the sealing mechanism and their suitability for different pressure and temperature conditions.
Resilient-Seated Butterfly Valve
These valves use a soft elastomeric seat (such as EPDM, Нгр, алтын витон) to provide bubble-tight shutoff.
The disc compresses against the seat to form a seal, which is effective for clean water, ауа, and non-aggressive fluids.
Resilient-seated valves are widely used in water treatment, Hvac, and low-pressure industrial applications.
They typically operate within a pressure rating of PN10–PN16 and temperatures up to 200°C.
Жоғары өнімді көбелек клапаны (Екі есе офсеттік)
High-performance butterfly valves incorporate a disc that is offset from the centerline of both the pipe and the shaft.
This double-offset design reduces friction between the disc and seat during operation, extending the valve’s lifespan and allowing it to handle higher pressures and temperatures—up to Class 300 and around 400°C.
These valves are suited for applications in power generation, petrochemical systems, and steam service.
Үш есе офсеттік көбелек клапан
The triple offset design includes a third geometric offset that results in a conical seating surface, eliminating rubbing between the disc and seat.
These valves typically use metal-to-metal seating, allowing them to achieve zero-leakage shutoff (Vi класы) under high-pressure and high-temperature conditions—up to Class 600 and 600°C.
Triple offset valves are ideal for critical applications such as steam, Криогендік қызмет, hydrocarbon processing, and corrosive chemical handling.
Based on the Actuation Method
The actuation method determines how the valve is operated—manually or through automation.
Manual Actuation Butterfly Valve
Manual butterfly valves are operated using a lever (for small diameters) or a gear operator (Үлкен мөлшерде). Олар үнемді, simple to install, and easy to maintain.
These valves are appropriate for systems where flow changes are infrequent and remote operation is unnecessary.
Electric Actuation Butterfly Valve
Electric actuators use a motor to open and close the valve disc, providing precise control over valve positioning.
These actuators can be integrated into automated systems such as SCADA or PLCs, enabling remote operation and diagnostics.
Electric actuation is commonly used in building automation, water distribution networks, and industrial process control.
Pneumatic Actuation Butterfly Valve
Pneumatic actuators operate the valve using compressed air. They are known for rapid response times and reliable cycling.
Pneumatic butterfly valves are commonly found in chemical plants, food processing facilities, and clean-in-place (Клип) жүйелер, where frequent actuation and quick shutoff are required.
Hydraulic Actuation Butterfly Valve
Hydraulic actuators use pressurized hydraulic fluid to generate torque, making them suitable for large-diameter valves or systems with high operating pressure.
They offer excellent force transmission and are used in demanding industries such as offshore drilling, Электр станциялары, and heavy manufacturing.
5. Materials and Coatings of Butterfly Valves
The choice of materials and coatings in butterfly valve construction is critical to ensuring durability, Химиялық үйлесімділік, Қысымның тұтастығы, және коррозияға төзімділік.
Depending on the application—whether it’s potable water, Коррозиялық химикаттар, бу, or slurry—various combinations of body, диск, орын, and coating materials are selected to meet operational and environmental demands.
Valve Body and Disc Materials
The valve body and disc are structural components that must withstand internal pressure, Механикалық стресс, және химиялық әсер. Жалпы материалдар кіреді:
- Шойын (CI)
Cost-effective and widely used in low-pressure water and HVAC systems. Not suitable for corrosive or high-temperature applications. - Ішкі үтік (-Ден)
Stronger and more impact-resistant than cast iron. Often used in water distribution, Ағынды суларды тазарту, and fire protection systems. - Көміртекті болат
Suitable for high-pressure systems and industrial environments. Requires protective coatings to prevent corrosion. - Тот баспайтын болат (SS304/SS316)
Тамаша коррозияға төзімділік; commonly used in chemical processing, Теңіз орталары, және тамақ сұранысы. SS316 offers superior resistance to chlorides and acids compared to SS304. - Bronze or Nickel-Aluminum Bronze (Наб)
Commonly used in seawater applications due to their exceptional resistance to saltwater corrosion and biofouling. - Duplex and Super Duplex Stainless Steel
Provide high mechanical strength and excellent resistance to pitting, Сынықтар коррозиясы, және стресстің коррозиясы. Ideal for aggressive chemical or offshore environments. - ПВХ, Цфк, and Other Plastics
Жеңіл және коррозияға төзімді; ideal for chemical dosing, low-pressure water, and non-metallic piping systems.
Орын (Мөр) Материалдар
- EPDM (Этилен пропилен Диин Мономер)
Suitable for water, ауа, and mild chemicals. Not compatible with oils or hydrocarbons. Температура диапазоны: –40°C to +120°C. - Нгр (Nitrile Rubber)
Resistant to oils, жанармай, and some chemicals. Used in industrial, мұнай өнімдері, and hydraulic applications. Температура диапазоны: –10°C to +100°C. - Витон (ФКМ)
Excellent chemical and heat resistance. Suitable for aggressive fluids, еріткіштер, және жоғары температуралы орта. Температура диапазоны: –20°C to +200°C. - Ptfe (Политетрафлуороэтилен)
Inert to nearly all chemicals. Ideal for corrosive and high-purity applications. Offers non-stick surface with minimal friction. Температура диапазоны: –50°C to +250°C. - Металлдан металл (Жұлдыз, SS, Жұқпалы)
Used in triple-offset butterfly valves for high-temperature, Жоғары қысымды, and zero-leakage applications. Resistant to erosion, кию, and thermal cycling.
Shaft and Bearing Materials
- Тот баспайтын болат
Commonly used for corrosion resistance and strength. - 17-4 Тот баспайтын болат
Offers high strength and hardness with good corrosion resistance. - Bronze or Teflon-Coated Bearings
Reduce friction, enhance wear resistance, and improve actuation smoothness.
Coating and Lining Options
Protective coatings and internal linings enhance corrosion resistance, improve flow, and prolong service life:
- Fusion-Bonded Epoxy (Fbe)
Provides excellent corrosion protection for potable water and wastewater applications. Applied electrostatically and cured to form a durable coating. - Nylon Coating
Used for enhanced chemical resistance and smoother surface finish, reducing friction and buildup. - Rubber Lining
Natural or synthetic rubber lining offers abrasion resistance and chemical protection, especially in slurry handling and acidic services. - PTFE Lining
Offers superior chemical inertness, used in highly corrosive environments and hygienic applications such as food and pharmaceuticals. - Glass Flake or Ceramic Epoxy Coatings
Used in harsh environments to resist erosion, Жоғары қысым, және химиялық шабуыл.
6. Key Technical Specifications of Butterfly Valves
Қысым рейтингі
Butterfly valves are manufactured to handle specific pressure ranges, defined by international standards:
- PN Ratings (metric)
-
- PN10: Maximum pressure 10 төр (~145 psi)
- PN16: Maximum pressure 16 төр (~232 psi)
- PN25, PN40 also available for high-performance valves
- ANSI/ASME Class Ratings (imperial)
-
- Сыныптау 150 (дейін 285 psi at 38°C)
- Сыныптау 300 and above for high-pressure applications
Температура диапазоны
The operating temperature of a butterfly valve depends largely on the body, диск, and seat materials:
| Материал түрі | Typical Temperature Range |
| EPDM Seat | –40°C to +120°C |
| NBR Seat | –10°C to +100°C |
| PTFE Seat | –50°C to +250°C |
| Viton Seat | –20°C to +200°C |
| Металл отырғыш | Up to 600°C |
| PVC/Plastic Bodies | –10°C to +60°C |
Көлемі ауқымы (Номиналды диаметр)
Butterfly valves are available in a wide range of nominal diameters:
- Common Range:
DN50 (2 дюйм) to DN1200 (48 дюйм) - Extended Range:
Up to DN3000 (120 дюйм) for large industrial and infrastructure projects (E.Г., Су тазарту қондырғылары, dam outlets)
Ағынның коэффициенті (CV / кВ)
Flow coefficient represents the valve’s ability to allow fluid passage:
- Резюме (Imperial): Ағымдық мөлшерлеме (gallons/min) of water at 60°F with 1 PSI қысымының төмендеуі
- Кв (К рсету): Ағымдық мөлшерлеме (m³/hr) -та 1 bar pressure drop
Custom butterfly valves typically offer high Cv values due to their full-bore design when fully open. Cv depends on disc shape, Клапан мөлшері, and degree of opening. Мысалы:
- DN100 (4«) Көбелек клапан: Cv ≈ 120–150
- DN300 (12«) Көбелек клапан: Cv ≈ 1500–2000
Ағып кету сабақтары
Defined by international standards such as ANSI / FCI 70-2 жіне -Да 12266, leakage classes indicate the valve’s sealing performance:
| Сыныптау | Түсіндірме | Типтік қолдану |
| Сынып I класы | Dust tight (not tested) | Basic industrial systems |
| IV класс | Metal-to-metal seat, Минималды ағып кету | Процесті басқару |
| Vi класы | Көпіршікті тығыз өшіру (жұмсақ орындық) | Суару, ауа, gas services |
Resilient-seated butterfly valves typically meet Class VI, while metal-seated or triple-offset valves may achieve Class IV or tighter with specialized machining.
Кернее қойылатын талаптар
Operating torque depends on valve size, қысым, media type, and seat friction:
- Шағын клапандар (DN50–DN150): ~20–80 Nm
- Large valves (DN600–DN1200): >1000 Л
7. Көбелек клапандарының артықшылықтары
- Ықшам және жеңіл: Ideal for space-constrained installations.
- Fast Operation: Quarter-turn design enables rapid open/close cycles.
- Үнемді: Especially in large-diameter applications compared to gate or ball valves.
- Төмен қысым төмен: Streamlined flow when fully open minimizes energy losses.
- Multi-function: Suitable for both on-off and throttling services.
- Қарапайым дизайн: Fewer moving parts result in lower maintenance needs and enhanced reliability.
8. Шектеулер мен қиындықтар
- Not Suitable for High-Pressure Throttling: Disc position may cause cavitation and vibration.
- Seal Degradation: Especially in resilient-seated designs exposed to abrasive or high-cycle operations.
- Flow Obstruction: The disc remains in the flow path even when fully open.
- Limited Temperature Range: Elastomeric seats restrict use in high-temperature applications.
- Potential for Leakage: Especially in low-cost or improperly selected valves under high stress.
9. Көбелек клапандарының қосымшалары
- Суару & Ағынды суларды тазарту: Efficient for isolation and control of clean and dirty water.
- Майлау & Газ: Used for fuel handling, мұнай тазартатын зауыт, and offshore systems.
- HVAC жүйелері: Regulating hot or chilled water and air distribution.
- Chemical and Petrochemical: Resistant materials handle aggressive fluids and vapors.
- Теңіз & Оффор: Compact size is beneficial for tight engine rooms.
- Ас & Сұсын: Hygienic valves with PTFE or stainless internals are standard.
- Электр қуатын өндіру: Cooling water and auxiliary service lines.
- Цельсі & Қағаз: Handles slurry and fiber-laden flows with robust disc and seat designs.
10. Butterfly Valve vs. Other Valve Types
| Белгі | Көбелек клапан | Қақпа клапан | Глобус клапаны | Доп клапан |
| Операция | Тоқсандық бұрылыс (90° rotation) | Көп бұрылыс (multiple turns to open/close) | Көп бұрылыс (Сызықтық қозғалыс) | Тоқсандық бұрылыс |
| Ағынды бақылау | On/off and moderate throttling | Ең алдымен қосу / өшіру, poor throttling | Excellent throttling and flow regulation | Excellent shutoff, шектеулі дроссбл |
| Қысым төмен | Low when fully open | Very low when fully open | Higher due to tortuous flow path | Азайт, full bore flow |
| Мөлшер & Салмақ | Тығыз, Жайғақ, suitable for large sizes | Bulkier and heavier | Bulkier, typically smaller sizes | Шағын өлшемдер үшін ықшам; bulky for large sizes |
| Герметизация мүмкіндігі | Soft/metal seats, moderate tightness | Good shutoff | Excellent shutoff | Көпіршікті тығыз, very tight shutoff |
Актикалық жылдамдық |
Жылдам (тоқсандық бұрылыс) | Шабан (multiple turns) | Шабан (multiple turns) | Жылдам (тоқсандық бұрылыс) |
| Қолдау | Жеңіл, fewer parts | More prone to jamming, Қосымша кешен | Байсалды, frequent maintenance needed | Requires disassembly for internal servicing |
| Құны | Экономикалық, especially in large diameters | Жоғарырақ, especially for large sizes | Орташа және жоғары | Жоғарырақ, especially at large sizes |
| Типтік қосымшалар | Hvac, Суды тазарту, low/medium pressure systems | Суды бөлу, майлау & газ құбырлары | Буды реттеу, precise flow applications | Жоғары қысымды оқшаулау, Химиялық өңдеу |
| Шектеулер | Not ideal for high-pressure throttling | Баяу жұмыс, not suited for throttling | Higher pressure loss, бегі | Bulky and expensive for large diameters |
11. Іріктеу критерийлері
Choosing the right butterfly valve involves a thorough evaluation of multiple factors to ensure optimal performance, Ұзақ өмір сүру, and cost-effectiveness within a specific application.
Key criteria include:
Сұйықтық сипаттамалары
- Type of Fluid: Clean liquids, шиккірлер, Коррозиялық химикаттар, or gases—each requires specific seat materials and body construction to withstand erosion, коррозия, және абразия.
- Шынтақ қ: Higher viscosity fluids may require valves with enhanced sealing and actuator torque.
- Presence of Solids: Fluids containing suspended solids or particulates demand robust seats and body designs to prevent wear and leakage.
Operating Pressure and Temperature
- Қысым рейтингі: Match valve pressure class (E.Г., PN10, PN16, Сыныптау 150) to pipeline operating pressure to avoid premature failure.
- Температура диапазоны: Consider seat and body material limits—rubber seats for low temperatures and PTFE or metal seats for high-temperature service up to 600°C.
Required Shutoff Tightness
- Ағып кету класы: For critical isolation, triple-offset butterfly valves offer near zero leakage (Vi класы).
For less demanding applications, resilient seated valves provide economical sealing with acceptable leakage.
Valve Actuation
- Manual vs Automated: Determine whether manual lever, керек заттар, пневуль, электр, or hydraulic actuators best suit the operation frequency, Қауіпсіздік талаптары, and integration into control systems.
- Speed of Operation: Applications requiring rapid open/close cycles may favor quarter-turn actuators.
Installation Constraints
- Space Availability: Custom Butterfly valves have a compact design, making them suitable for limited space installations compared to bulkier valve types.
- Connection Type: Consider compatibility with piping—wafer, қамту, or flanged designs based on installation and maintenance needs.
Құны vs. Өнімділік балансы
- Weigh upfront costs, Техникалық қызмет көрсету талаптары, and expected lifespan. Sometimes investing in high-performance valves reduces total cost of ownership through reliability and fewer replacements.
12. Future Trends in Butterfly Valve Technology
- Smart Integration: IoT-enabled actuators with sensors for real-time monitoring (қысым, температура, жай), Болжалды техникалық қызмет көрсетуді қосу.
- Жетілдірілген материалдар: Carbon fiber bodies (30% болатқа қарағанда жеңіл) for offshore use; ceramic seats for extreme abrasion.
- Extreme Environments: Cryogenic models (-196° °) for LNG; high-temperature designs (800° °) for hydrogen plants.
- Тұрақтылық: Low-leakage designs (Class VI+) to reduce emissions; recyclable materials for valve bodies.
13. Қорытынды
Custom butterfly valves are essential components in modern fluid control systems, олардың ықшам дизайнымен танымал, Жылдам жұмыс, және әмбебаптық.
Originally conceptualized in the early 20th century, these клапандар have evolved significantly to meet the growing demands of industries requiring efficient and cost-effective flow control solutions.
Бүгін, butterfly valves are widely used in diverse sectors such as Суды тазарту, Мұнай және газ, Hvac, Химиялық өңдеу, теңіз, жіне тамақ пен сусын салалар.
Their popularity stems from their ability to handle a broad range of fluids—including gases, сұйықтықтар, and slurries—with minimal pressure drop and rapid shutoff capabilities.
Custom butterfly valves are a cornerstone of modern fluid handling systems due to their efficiency, төмен баға, және бейімделу.
Whether used in municipal pipelines, industrial processing, or precision-controlled environments, selecting the right butterfly valve—matched to pressure, fluid, and operational needs—is essential for long-term performance and reliability.
Осы: Талап етілетін қосымшалар үшін жоғары дәлдікті клапанды шешу
Осы дәлдік клапаны құю қызметтерінің мамандандырылған провайдері болып табылады, Сенімділікке қажет салаларға арналған жоғары өнімді компоненттерді жеткізу, Қысымның тұтастығы, және өлшемді дәлдік.
Шикі құю өнімдерінен толық өңделген клапан және жиналыстар, Осы Жаһандық стандарттарға сәйкес келетін түпкі шешімдерді ұсынады.
Біздің клапанның құю сараптамасы кіреді:
Инвестициялық құю Клапандар үшін & Жиіту
Жоғалған балауызды кастинг технологиясын пайдалану кешенді ішкі геометриялар мен күрделі төзімді клапан компоненттерін ерекше беттік әрлеуі бар.
Құмның құюы & Қабықшаны құю
Орташа және үлкен клапан денелеріне өте ыңғайлы, фланецтер, және Bonnets-in тұрмыстық өндірістік қосымшалар үшін үнемді шешім ұсынады, Соның ішінде май & Газ және электр қуатын өндіру.
Клапанға арналған дәл өңдеу & Мөрді мінсіздігі
CNC өңдеу орындықтар, Жіптер, және герметикалық беттер барлық құятын бөліктің өлшемді және тығыздау талаптарына сәйкес келеді.
Сыни қолдануға арналған материалдық ауқым
Тот баспайтын болаттардан (CF8 / CF8M / CF3 / CF3M), жез, Ішкі үтік, дуплексті және жоғары қорытпалар үшін, Осы Жабдықтар коррозияға негізделген клапан құймалары, Жоғары қысымды, немесе жоғары температуралы орта.
Whether you require custom-engineered steam traps, Көбелек клапан, Штепсельдік клапандар, Глобус клапандары, қақпа клапандары, немесе өнеркәсіптік клапан құймаларының жоғары көлемді өндірісі, Бұл сіздің сенімді серіктесіңіз дәлдік үшін, төзімділік, және сапа кепілдігі.
ЖҚС
What is the difference between a wafer and lug-style butterfly valve?
Wafer valves clamp between flanges (no bolt holes), while lug valves have threaded lugs for bolted installation, allowing one-sided removal. Lug valves suit higher pressure (≤25 bar) than wafer (≤16 bar).
How long do butterfly valves last?
Service life ranges from 10–15 years for resilient-seated valves in clean service to 5–8 years for metal-seated valves in abrasive environments. Proper maintenance extends life by 30–50%.
Are butterfly valves suitable for slurry or abrasive fluids?
Metal-seated triple-offset valves are suitable; resilient seats erode quickly. Use hardened disc materials (E.Г., duplex stainless steel) for extended wear.
