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Solenoid valve

A solenoid valve is an electromechanical device designed to control the flow of liquids or gases in a piping system by using an electromagnetic solenoid to actuate a mechanical valve mechanism, typically opening or closing an orifice to regulate fluid passage.^[1] It consists of two primary components: a solenoid, which generates a magnetic field when energized, and a valve body that houses the moving parts to direct flow.^[1] This integration allows for precise, automated control without manual intervention, making it essential in systems requiring rapid response to electrical signals.^[2] The operation of a solenoid valve relies on the principle of electromagnetism: when electrical current passes through the solenoid coil, it creates a magnetic field that moves a ferromagnetic plunger or armature, overcoming a spring force to either open or close the valve port.^[2] Key internal components include the coil for generating the magnetic force, the plunger for linear motion, seals to prevent leakage, and the valve body with ports for inlet, outlet, and exhaust.^[3] Solenoid valves are classified by function, such as normally closed (NC) or normally open (NO), and by configuration, including two-way (on/off control), three-way (directional switching), or four-way (for actuators like cylinders).^[4] They can also be direct-acting, where the solenoid directly moves the valve element, or pilot-operated, which uses fluid pressure for larger flows.^[2] Solenoid valves find widespread applications across industries due to their reliability, compact design, and compatibility with various media like water, air, oil, and corrosive fluids.^[5] In pneumatic and hydraulic systems, they enable automated sequencing in machinery; in automotive engineering, they manage fuel injection and transmission control; and in irrigation or HVAC, they regulate water or air distribution.^[4] Their ability to handle pressures from vacuum to high levels (up to thousands of PSI) and operate at speeds under a second underscores their versatility, though selection depends on factors like voltage, port size, and material compatibility to ensure durability and safety.^[1]

Fundamentals

Definition and Purpose

A solenoid valve is an electromechanical device comprising a solenoid actuator and a valve mechanism that regulates the opening, closing, or direction of flow for liquids or gases in various systems.^[1]^[4]^[6] The primary purposes of solenoid valves are to enable remote control of fluid flow without manual intervention, facilitate integration into automated industrial processes, and allow precise timing of flow adjustments in response to electrical signals.^[7]^[8]^[9] Compared to manual valves, solenoid valves provide advantages such as response times on the order of milliseconds, greater reliability in hazardous environments through explosion-proof designs, and straightforward compatibility with programmable logic controllers (PLCs) and electronic systems for automated operation.^[10]^[11]^[12]^[13] Solenoid valves support essential flow control functions, including on/off switching for binary operation, proportional control for variable flow rates, and directional control to manage fluid paths in multi-port configurations.^[14]^[15]^[16]

Electromagnetic Principle

The solenoid in a solenoid valve consists of a helical coil of insulated wire that generates a magnetic field when an electric current flows through it, in accordance with Ampère's circuital law, which relates the magnetic field to the current enclosed by a loop. This magnetic field is concentrated along the axis of the coil, creating a uniform field inside the solenoid that is proportional to the current and the number of turns per unit length.^[17] The generated magnetic field exerts a force on a ferromagnetic plunger, also known as the armature, positioned within or adjacent to the coil, causing it to move linearly and actuate the valve's sealing or opening mechanism. The force on the plunger arises from the interaction between the magnetic field and the induced magnetization in the ferromagnetic material, pulling the plunger toward the coil to overcome the valve's resting state.^[18] The magnitude of this force is proportional to the square of the current through the coil, the square of the number of turns, and the strength of the magnetic field, with dependencies on the coil's geometry. A simplified approximation for the axial force F acting across an air gap in the solenoid is given by

F \approx \frac{\mu_0 N^2 I^2 A}{2 l^2},

where \mu_0 is the permeability of free space ($4\pi \times 10^{-7} H/m), N is the number of turns, I is the current, A is the cross-sectional area of the plunger, and l is the length of the air gap.^[19] This relation highlights how increasing current or turns enhances actuation force, though practical designs balance this against heat generation. When the electric current is removed, the magnetic field rapidly dissipates, eliminating the attractive force on the plunger. A mechanical return spring then pushes the plunger back to its default position, restoring the valve to its normally closed or open state based on the specific configuration.^[20] Solenoid valves are designed for operation with either direct current (DC) or alternating current (AC) supplies, commonly at voltages ranging from 12 V to 240 V. Typical power consumption during energization falls between 5 W and 50 W, depending on size and application. Solenoid valves are typically rated for intermittent duty cycles, such as 25% to 50%, to prevent coil overheating during prolonged energization and ensure longevity. Continuous (100%) duty operation may require specially designed coils.^[21]

Operating Mechanisms

Direct-Acting Operation

In direct-acting solenoid valves, the solenoid coil generates an electromagnetic force that directly actuates the plunger or armature to open or close the valve orifice without assistance from line pressure.^[22] When energized, the coil creates a magnetic field that pulls the plunger toward the coil center, lifting a seal or disc off the orifice to allow flow in normally closed designs, or pushing it against the orifice to block flow in normally open designs.^[23] This mechanism relies solely on the solenoid's generated force, as detailed in the electromagnetic principles of operation.^[22] These valves are particularly suitable for low-pressure applications, typically operating effectively from 0 to 15 bar, and small orifice sizes up to 10 mm, where the solenoid's force is sufficient to overcome the seal without needing fluid assistance.^[24] In normally closed (NC) variants, a return spring holds the plunger against the orifice seal when de-energized, keeping the valve closed; energization pulls the plunger away to open the flow path, enabling operation even at zero differential pressure.^[23] Conversely, normally open (NO) variants use the spring to keep the orifice unsealed when de-energized, allowing free flow, while energization drives the plunger to seal the orifice and stop flow, functioning reliably down to 0 psi.^[23] The design offers advantages such as simplicity with fewer moving parts, high reliability in zero-pressure or intermittent systems, and no requirement for minimum line pressure, making it ideal for fail-safe applications like safety shutoffs.^[25] However, limitations arise from the solenoid's force constraints, restricting it to low-flow rates and smaller diameters, as larger orifices demand stronger coils that increase power consumption and cost.^[22] Response times are typically fast, ranging from 10 to 50 milliseconds for opening or closing, due to the direct mechanical action and low inertia of the plunger.^[26]^[23]

Pilot-Operated Operation

Pilot-operated solenoid valves utilize the system's fluid pressure to amplify the actuation force, enabling the control of larger flows and higher pressures than direct-acting valves, which rely solely on electromagnetic force. The core mechanism involves the solenoid energizing to open a small pilot valve or bleed hole, which directs fluid flow or relieves pressure on one side of a diaphragm or piston. This creates a pressure differential across the main valve element, lifting it against a spring or opposing pressure to open the flow path. When de-energized, the pilot closes, allowing pressure to balance and the main valve to reseat via spring force or line pressure.^[27]^[28] Internally piloted designs draw the pilot actuation pressure from the main line fluid, necessitating a minimum differential pressure—typically 0.5 to 2 bar—for reliable operation, as this ensures sufficient force to move the main valve element. In contrast, externally piloted variants use a dedicated control pressure line, independent of the main flow, permitting zero minimum differential in the primary circuit and broader operational flexibility.^[29]^[28] These valves excel in high-pressure environments, handling up to 100 bar or greater, and support substantial flow capacities with orifices larger than 15 mm, making them ideal for demanding industrial processes.^[30]^[31] Key advantages encompass the capacity to manage elevated flows and pressures with compact, low-power solenoids, promoting energy efficiency and reduced component size. Drawbacks include inoperability below the minimum pressure threshold and comparatively slower actuation, with response times of 50 to 200 ms, influenced by valve size, media, and design.^[28]^[27] Design variants distinguish between diaphragm and piston actuators to suit diverse media and conditions. Diaphragm types employ a flexible seal for rapid response and compatibility with clean or corrosive fluids, while piston configurations offer robust sliding action for high-pressure or particulate-laden media, enhancing durability in abrasive environments.^[28]^[27]

Construction

Core Components

The core components of a solenoid valve work together to enable electromagnetic actuation for controlling fluid or gas flow. These parts include the solenoid coil, plunger or armature, spring, valve body, seals and diaphragm, and enclosure, each contributing to the assembly's reliability and operational efficiency. The solenoid coil serves as the electromagnetic actuator, consisting of multiple turns of copper wire wound around a tubular core. When electrical current passes through the coil, it generates a magnetic field that drives the valve's movement. The coil is typically encased by a yoke, a ferromagnetic structure that completes the magnetic circuit and directs the flux path for efficient force generation.^[32] The plunger, also known as the armature, is a ferromagnetic element, often cylindrical, that moves linearly inside the coil's bore or guide tube. It responds to the magnetic field by shifting position to open or close the valve's flow path, directly or indirectly interacting with the sealing mechanism at the orifice.^[32]^[33] The spring provides the restoring force to return the plunger to its default position upon de-energization of the coil, ensuring fail-safe operation such as normally closed or normally open configurations. It is positioned to oppose the magnetic pull, compressing or extending based on the valve design, and helps maintain sealing against fluid pressure.^[33] The valve body forms the structural housing that contains the inlet and outlet ports, the internal flow passages, and the orifice or seat where the plunger's seal interfaces to regulate media flow. It integrates the actuator assembly with the fluid-handling pathway, supporting the overall mechanical integrity during operation.^[33] Seals and diaphragm ensure leak-proof performance by creating a barrier at the plunger-orifice interface and along moving parts. Seals, often O-rings or gaskets, prevent unintended fluid escape, while in pilot-operated valves, a flexible diaphragm isolates the electromagnetic actuator from the process media, enhancing durability in contaminated environments.^[33] The enclosure encapsulates the coil and internal components to shield them from environmental factors like dust, moisture, and corrosion, often meeting standards such as NEMA for protection ratings. It may incorporate features like a manual override for emergency actuation independent of electrical input.^[32]

Materials and Manufacturing

Solenoid valve bodies are typically constructed from materials selected for their durability, corrosion resistance, and compatibility with the intended media. Brass is commonly used for general-purpose applications involving water or inert gases due to its machinability and resistance to mild corrosion.^[34] For environments requiring enhanced corrosion resistance or hygiene, such as in food processing or chemical handling, stainless steel grade 316 is preferred for its superior resistance to acids and chlorides.^[35] Plastic bodies, often made from polyvinyl chloride (PVC) or polypropylene (PP), provide cost-effective chemical resistance in aggressive media like strong alkalies or mineral acids, while minimizing weight and contamination risks.^[36] Seal materials in solenoid valves are chosen based on media compatibility and operating conditions to ensure reliable sealing and longevity. Ethylene propylene diene monomer (EPDM) seals are ideal for water and steam applications, offering good resistance to polar substances and temperatures from -10°C to 140°C.^[37] Fluorocarbon (FKM, or Viton) seals excel in oils, fuels, and hydrocarbons, with a broader temperature range of -26°C to 205°C and strong resistance to non-polar chemicals.^[38] For extreme chemical environments, perfluoroelastomer (FFKM) seals provide unmatched resistance to aggressive solvents and acids, operating effectively from -40°C to over 200°C.^[39] Coils in solenoid valves consist of enamelled copper wire wound around a bobbin, providing efficient electromagnetic performance. The wire typically features Class H insulation, rated for continuous operation up to 180°C, to withstand thermal stresses during actuation.^[40] Epoxy encapsulation protects the coil from moisture, vibration, and environmental contaminants, enhancing reliability in harsh conditions.^[41] Manufacturing processes for solenoid valves emphasize precision to meet performance and safety requirements. Metal bodies are produced via CNC machining to achieve tight tolerances for ports and sealing surfaces.^[42] Plastic components are fabricated using injection molding, allowing for complex shapes and high-volume production with inherent chemical resistance.^[43] Coil production involves automated winding of the enamelled wire onto bobbins, followed by testing for electrical integrity.^[44] Final assembly, particularly of seals, occurs in controlled environments to maintain cleanliness and prevent contamination.^[45] Solenoid valves must comply with industry standards to ensure safety and interoperability. The ISO 4406 standard governs fluid cleanliness levels, specifying particle counts to protect valve internals from wear in hydraulic systems.^[46] For use in potentially explosive atmospheres, ATEX certification (Directive 2014/34/EU) requires explosion-proof designs, such as flameproof enclosures, to prevent ignition sources.^[47] Key considerations in solenoid valve design include media compatibility to avoid degradation, pressure ratings defining safe operating ranges (e.g., up to 200 psi for many models), and lifecycle durability, often exceeding 10 million actuation cycles under ideal conditions.^[48]^[49]^[50]

Classifications

Port Configurations

Solenoid valves are classified by their port configurations, which refer to the number and arrangement of connection points for fluid entry, exit, and exhaust, enabling specific flow paths for control applications. These configurations are denoted using a numbering system such as 2/2, indicating two ports and two positions, which directly influences the valve's ability to manage fluid direction and pressure. Understanding port layouts is essential for selecting valves that match system requirements for simple shutoff or complex directional control.^[1] The simplest configuration is the 2-way valve, also known as a 2/2 solenoid valve, featuring two ports: one inlet and one outlet. This design allows for basic on/off control of fluid flow, blocking or permitting passage between the ports depending on the solenoid's energized state, making it ideal for shutoff applications where unidirectional flow regulation is needed.^[51]^[52] A 3-way valve, or 3/2 configuration, incorporates three ports: an inlet, an outlet, and an exhaust port. This setup enables the valve to divert flow from the inlet to either the outlet or the exhaust, or to vent pressure from the outlet to atmosphere via the exhaust, which is particularly useful for single-acting actuators that require pressure release to return to a default position.^[14]^[53] For more advanced control, 4-way valves are employed, often in 4/2 or 5/2 configurations, with four or five ports respectively to facilitate bidirectional flow. In a 4/2 setup, two ports serve as inlets/outlets for pressure and exhaust, while the other two connect to a device like a cylinder; the 5/2 variant adds a dedicated exhaust port per side, allowing precise direction of flow to either end of double-acting pneumatic cylinders for extension and retraction. These are commonly used in pneumatic systems for reversible motion control.^[54]^[51] Multi-way variants extend to configurations like 5/3, featuring five ports and three positions, which support complex sequencing by holding a neutral center position where flow is blocked or recirculated. This allows for intermediate states in multi-step operations, such as in automated machinery requiring paused or safe positioning of actuators.^[55]^[56] To quantify a valve's flow capacity across these configurations, manufacturers specify flow coefficients such as Cv (in US gallons per minute) or Kv (in cubic meters per hour), which measure the volume of water at standard conditions that passes through the valve with a 1 psi (or 1 bar) pressure drop. Typical Cv values for solenoid valves range from 0.1 to 10, depending on size and design, providing a standardized metric for comparing performance. For instance, a small 2-way valve might have a Cv of 0.1 for precise low-flow control, while a larger 5/2 valve could reach Cv 10 for high-volume pneumatic applications.^[57]^[58] Valve sizing for a given port configuration involves matching the flow coefficient to system parameters, including pipe diameter to ensure compatibility with upstream and downstream lines, anticipated pressure drop to minimize energy loss, and media viscosity to account for flow resistance in non-water fluids. Proper sizing prevents issues like cavitation or insufficient throughput; for example, a valve with Cv 1 might suit a 1/2-inch pipe handling water at 5 psi drop, but higher viscosity media like oil would require a larger Cv to maintain flow rates. Calculations often use the formula Cv = Q √(SG / ΔP), where Q is flow rate in gpm, SG is specific gravity, and ΔP is pressure drop in psi, adjusted for viscosity via correction factors.^[59]^[26]^[60]

Functional Variants

Solenoid valves exhibit a range of functional variants that determine their default state, response to power, and suitability for specific control requirements. These variants primarily differ in their operational logic, energy efficiency, and adaptability to environmental conditions, enabling precise fluid control in diverse systems. The normally closed (NC) variant remains in a closed position without electrical power, opening only when the solenoid coil is energized to create an electromagnetic force that lifts the plunger or armature. This design ensures a fail-safe mechanism, where the valve defaults to preventing flow in the event of power loss, making it ideal for safety-critical applications such as emergency shutoff systems. In contrast, the normally open (NO) variant is open in its de-energized state, allowing fluid flow until the solenoid is powered, at which point the electromagnetic field closes the valve. This configuration is employed in scenarios where continuous flow is the default requirement, such as in drainage or ventilation systems that must operate without power interruptions. Bistable or latching solenoid valves maintain their position—either open or closed—without continuous electrical power after initial actuation, typically achieved through dual coils that alternately energize to switch states or by incorporating permanent magnets to hold the armature. This energy-efficient design is particularly advantageous for battery-powered or remote applications, as it minimizes power consumption by requiring pulses only for state changes rather than sustained holding current. Proportional solenoid valves provide variable control over the valve opening by modulating the current supplied to the coil, often using pulse-width modulation (PWM) to achieve precise flow rates proportional to the input signal. These valves frequently integrate feedback sensors, such as position transducers, to ensure accurate positioning and closed-loop control, enabling fine-tuned regulation in processes like hydraulic actuation or HVAC systems. Servo-assisted solenoid valves combine elements of direct-acting and pilot-operated mechanisms, where a small pilot solenoid controls a larger main valve, enhancing reliability at low pressures by leveraging fluid pressure for assisted operation. This hybrid approach allows the valve to function effectively with minimal differential pressure, suitable for applications requiring consistent performance across varying flow conditions. For hazardous environments, explosion-proof solenoid valves are engineered with enclosures that contain internal sparks and prevent ignition of external atmospheres, complying with standards like ATEX or UL for use in explosive gas or dust areas. Similarly, submersible variants feature sealed housings to withstand immersion in liquids, ensuring operational integrity in underwater or flood-prone settings without compromising electrical safety.

Applications

Industrial Systems

Solenoid valves play a critical role in hydraulics and pneumatics within industrial manufacturing, where they control the extension and retraction of cylinders in heavy machinery and robotic systems, enabling precise motion in automated production lines. Four-way solenoid valves, in particular, are widely used to direct airflow or hydraulic fluid to multiple ports, facilitating directional control in assembly automation and material handling equipment. For instance, in robotic arms for welding or picking, these valves ensure rapid switching to maintain high throughput rates.^[61]^[62] In water treatment and heating, ventilation, and air conditioning (HVAC) systems, solenoid valves regulate fluid flow in pumps and chillers to maintain optimal operating conditions and energy efficiency. Two-way normally closed (NC) configurations are commonly employed for safety shutoff functions, automatically closing in response to signals from sensors detecting pressure anomalies or contamination, thereby preventing system damage or water loss. These valves are integral to processes like cooling tower bleed-off control and chilled water distribution in large-scale facilities.^[63]^[64] The oil and gas sector relies on high-pressure pilot-operated solenoid valves for pipeline flow regulation and emergency isolation, often in demanding environments requiring explosion-proof enclosures to comply with hazardous location standards. These designs encapsulate the solenoid to prevent ignition of flammable gases in refineries and upstream operations, with pilot valves modulating larger main valves for efficient pressure control over long distances. Stainless steel construction enhances corrosion resistance against aggressive media like crude oil.^[65]^[66] Hygienic solenoid valves, typically made from stainless steel, are essential in food and beverage processing for clean-in-place (CIP) systems, where they control the flow of cleaning agents and product lines in brewing and pharmaceutical production without contamination risks. These valves meet standards like NSF/ANSI for food contact, featuring smooth surfaces and quick-disconnect designs to facilitate sterilization cycles. In automotive manufacturing, solenoid valves sequence operations in assembly robots and paint booths, managing pneumatic actuators for precise part positioning and spray control to ensure uniform coating application.^[67]^[68]^[69] Industrial solenoid valves are engineered for high reliability, with cycle lives ranging from 10 million to over 100 million operations under continuous duty, depending on the model and environment; for example, certain pneumatic variants achieve 150 million cycles without maintenance. Mean time between failures (MTBF) in these settings often exceeds 1 million hours for robust designs, supporting predictive maintenance in 24/7 operations and minimizing downtime in critical processes. High-flow classifications, such as multi-port variants, are particularly suited to these demands.^[70]^[34]^[71]

Specialized and Consumer Uses

In agriculture, solenoid valves play a crucial role in irrigation systems, particularly through battery-powered latching variants that enable efficient water management in remote or off-grid locations. These DC latching solenoids, such as those from Hunter Industries, operate with a quick electrical pulse to open or close the valve, conserving battery life and making them ideal for drip irrigation setups where precise, intermittent water delivery is essential.^[72] Solar-compatible designs, like the Twig-V Plus from Nelson Irrigation, integrate 12VDC latching solenoids with wireless controls, allowing automated scheduling for crop watering while minimizing energy use in solar-powered systems.^[73] This approach supports sustainable farming by reducing water waste and enabling operation without constant power sources.^[74] In medical devices, miniature solenoid valves provide precise fluid control, often as proportional variants that adjust flow rates dynamically to meet patient needs. Ventilators incorporate subminiature solenoid valves from manufacturers like Gems Sensors to regulate airflow and oxygen delivery with high accuracy, ensuring reliable performance in compact, life-supporting equipment.^[75] Infusion pumps utilize these valves to administer medications at controlled doses, preventing over- or under-dosing through responsive actuation.^[76] Biocompatibility standards are paramount, with valves designed using materials that withstand sterilization and avoid adverse reactions, as emphasized in medical-grade specifications for reliability and safety.^[77] Automotive applications leverage solenoid valves for critical fluid management in various systems. In fuel injection, solenoid valve injectors from Bosch enable rapid, precise fuel metering into cylinders, optimizing combustion efficiency and emissions control across driving conditions.^[78] Transmission control systems employ these valves to modulate hydraulic pressure for smooth gear shifts, enhancing vehicle responsiveness and fuel economy.^[79] For anti-lock braking systems (ABS), solenoid valves rapidly adjust brake fluid pressure to individual wheels, preventing lock-up and maintaining steering control during emergency stops, as integrated in components from WABCO.^[80] Consumer appliances rely on solenoid valves for automated fluid dosing in everyday tasks. Washing machines use water inlet solenoid valves to control fill levels precisely, activating only during cycles to supply the correct volume and temperature.^[81] Coffee makers and dishwashers incorporate similar valves, such as the Robertshaw S-101 series, for timed hot water or steam release, ensuring consistent brewing or cleaning performance while preventing overflows.^[82] These compact, electrically operated valves enhance appliance efficiency by integrating seamlessly with timers and sensors for user-friendly operation. Aerospace demands lightweight, high-reliability solenoid valves to handle extreme conditions in fuel and hydraulic systems. Miniature piloting solenoid valves from The Lee Company offer space-saving designs with superior actuation speed, critical for fuel shutoff and flow regulation in aircraft engines.^[83] In hydraulics, these valves control actuators for flight surfaces, featuring low leak rates and redundant sealing for fail-safe operation under high pressures.^[84] Eaton's aerospace valves prioritize performance-to-weight ratios, enabling precise management of thermal fluids and propulsion systems while meeting stringent reliability standards.^[85] Emerging uses in smart homes integrate solenoid valves with IoT for enhanced safety, particularly in leak detection. LoRaWAN-enabled smart valves automatically shut off water lines upon detecting anomalies via connected sensors, offering long battery life and remote monitoring to prevent flooding.^[86] These systems pair with IoT platforms to provide real-time alerts and automated responses, reducing property damage from undetected leaks in residential plumbing.^[87] For gas applications, solenoid valves enable app-based control and integration with home automation, closing supplies during detected leaks to bolster overall household security.^[88] As of 2025, solenoid valves are increasingly applied in renewable energy systems, such as solar thermal collectors and wind turbine hydraulics, where they regulate coolant flow and actuator pressures for efficient energy capture and conversion. Low-power and smart solenoid valves with integrated sensors, like Emerson's ASCO Series 327C relaunched in October 2025, enhance operational efficiency in industrial automation by enabling real-time monitoring and reduced energy consumption.^[89]^[90]^[91]

Historical Development

Invention and Early Use

The concept of the solenoid, a helical coil generating a uniform magnetic field akin to a bar magnet, originated with French physicist André-Marie Ampère, who conceived it around 1820 and coined the term "solénoïde" in 1823 during his foundational work on electrodynamics.^[92]^[93] Ampère's discovery built on observations of current-induced magnetic effects, laying the groundwork for electromagnetic devices, though practical applications remained limited until the early 20th century.^[94] The first practical solenoid valve, enabling remote electromagnetic control of fluid flow, was developed and manufactured in 1910 by the Automatic Switch Company (ASCO), now under Emerson, as an innovative electrically operated device for industrial use.^[95]^[96] This design represented a breakthrough in valve technology, shifting from manual to automated operation in response to growing industrial demands.^[97] In the 1910s and 1920s, early solenoid valves were primarily adopted in U.S. manufacturing sectors, such as textile factories, where they controlled steam flow for machinery dosing and shutoff operations.^[98] By the 1930s, their use expanded to broader industrial automation, including steam engine regulation and nascent pneumatic control systems, facilitating precise fluid and gas management in factories.^[99] Pre-1950 adoption remained concentrated in American production environments, driven by the need for reliable shutoff and dosing in assembly lines and process controls.^[100] Initial implementations faced significant challenges, including reliance on basic materials like brass for corrosion resistance and steel for structural integrity, which limited durability in harsh conditions.^[101] High power consumption demanded robust electrical supplies, while compatibility issues between alternating current (AC) and direct current (DC) supplies often required custom adaptations, hindering widespread integration until later refinements.^[102]^[103]

Key Advancements

In the 1950s, a significant advancement in solenoid valve design occurred when Bürkert developed the first plastic-molded body solenoid valves, enhancing chemical resistance to corrosive fluids and reducing manufacturing costs compared to traditional metal housings.^[104] This innovation allowed for broader application in chemical processing industries, where durability against aggressive media was essential, while the lighter, cheaper plastic construction facilitated mass production and easier integration into piping systems.^[101] The first pilot-operated solenoid valve was introduced by ASCO in 1928, enabling high-flow rates by using fluid pressure differentials to assist in valve actuation, which reduced the solenoid coil's power requirements for larger orifices.^[98] Further refinements to pilot-operated designs occurred during the 1960s and 1970s.^[105] Concurrently, standardization efforts gained momentum, with the International Organization for Standardization (ISO) introducing ISO 5209 in 1977 for marking general purpose industrial valves, while standards like ISO 5752 (1988) addressed structural lengths to promote interchangeability across manufacturers.^[106] These developments improved reliability in pneumatic and hydraulic systems, particularly in automation where consistent port sizing minimized installation errors. In the late 1970s to 1980s, Bürkert expanded into explosion-proof solenoid valves, certified for hazardous environments, supporting safer operations in oil and gas sectors.^[107] By the 1990s, bistable and latching solenoid valves were refined using permanent magnets to hold positions without continuous power, cutting energy use and extending coil life, alongside ATEX certifications in 1994 for explosive atmospheres in petrochemical applications.^[108] The 2000s marked progress in miniaturization, with solenoid valves integrated into microelectromechanical systems (MEMS) for microfluidics, enabling precise control in lab-on-a-chip devices and biomedical applications at scales below 1 mm.^[109] Proportional control variants, incorporating electronic feedback and pulse-width modulation, allowed variable flow rates rather than binary on/off operation, enhancing efficiency in automotive and medical systems.^[110] From the 2010s to 2025, solenoid valves advanced through IoT integration, enabling remote monitoring and predictive maintenance via embedded sensors for position and health diagnostics, reducing downtime in industrial networks.^[111] Sustainable materials, such as recycled brass and stainless steel for bodies, emerged to minimize environmental impact, aligning with green manufacturing standards.^[112] Low-power DC designs, often using kick-and-drop coil technology, achieved energy reductions of up to 80% by applying high initial voltage for actuation followed by low hold voltage.^[113] Commercial leaders like ASCO, Bürkert, and Parker Hannifin drove these innovations, contributing to the global solenoid valve market's growth from approximately USD 4.9 billion in 2025 toward USD 7.6 billion by 2035.^[114]

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How to Select a Solenoid Valve | Tameson.com
Nov 5, 2024 · Common values for direct operated valves are between 5 and 50 ms. For indirect operated valves the response times range from 50 ms for small ...
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[PDF] ASCO-solenoid-valves-engineering-information.pdf
Normally, these valves have a pilot and bleed orifice which enable them to use line pressure for operation. When the solenoid is de-energized, the pilot orifice.
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Direct acting vs pilot solenoid valves - Burkert USA
Direct-acting solenoid valves have a direct connection with the opening and closing armature, whereas pilot-operated valves employ the use of the process fluid.Missing: disadvantages | Show results with:disadvantages
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Indirect Acting Solenoid Valves: Key Advantages Explained
Apr 30, 2023 · An indirect acting or pilot-operated solenoid valve uses a small ... Minimum pressure differential of 0.5 bar (7.3 psi), Slow, Low, Medium ...
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How do pilot operated solenoid valves work?
A pilot operated solenoid valve is a type of valve that uses a small, auxiliary flow of fluid (the “pilot flow”) to operate the main valve.
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Stainless Steel High Pressure Solenoid Valve 100 Bar
Rating 4.8 (46) Working Pressure Range: 6 to 100 Bar 4. Function: 2 Way, Normally Closed 5. Operation: Piston Pilot Operated 6. Body Material: Stainless Steel 304 7. Seal ...
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[PDF] ElectroMagnetic Actuator Basics Chapter 4
An electromagnetic actuator converts electricity into magnetic force. Key components include the coil winding, yoke, guide tube, pole piece, armature, and push ...
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[PDF] hydraulic solenoid valve reliability and modeling study
Dec 19, 2008 · The chief components of solenoid valves (especially, the ones used in automobiles) are the plunger, coil, spring, needle, and the seals. The ...
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[PDF] General Purpose Solenoid Valves | Parker Hannifin
*External pilot pressure valves require a minimum external pilot pressure equal to the main line pressure plus 10 psi. ... * External pilot pressure to operate ...
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ASCO 210 2-Way Solenoid Valves - Emerson Global
Valve Actuation: Solenoid. Body Material: Brass, Stainless Steel, Lead-free Brass, 316 stainless steel on request. Media: Aggressive ...
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One of the most widely used steels contain- ing 18% chromium and 8% nickel. Used for valve bodies, springs and internal parts. Known as stainless steel type 303 ...
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How to Chose What Diaphragm Type You Need - Beta Valve News
Feb 10, 2017 · EPDM solenoid valve seals are well suited for use with hot waterand steam due to EPDM's excellent resistance to heat. The working ...Missing: FFKM | Show results with:FFKM
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Understanding seal materials & brand names, body materials and material compatibility various applications. Wide selection available from Solenoid Valve ...Missing: FFKM | Show results with:FFKM
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Fluoroelastomer | Total Valve Systems
Introducing the ValvChem Range of Fluorinated Valve Seal Materials, in Stock and Ready to Ship. FFKM and FEPM Compounds Offer Unparalleled Advantages in Harsh ...
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[PDF] Solenoid coils - Festo
Insulation class. H. Enamelled wire insulation class. H. Operating and environmental conditions. Characteristic coil data. 24 V DC: 3.4 W. 24VDC: LV1.2: HV3.3.
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Manufacturers craft solenoid valves using a variety of precision engineering techniques, including CNC machining, laser welding, injection molding, coil winding ...
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Precision Solenoid Coils for Aerospace and Industrial Applications
ADDMAN excels in solenoid coil manufacturing with precision CNC, injection molding, and advanced testing for aerospace and industrial applications.
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Solenoid valve coil precision winding machine
In order to improve the winding efficiency of coil production, the winding machine can be added to the production process of one molding. According to the ...
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A Definitive Guide to Choosing the Right PTFE Solenoid Valve
Jul 18, 2022 · iPolymer solenoid valves feature a wetted PTFE surface that offers chemical resistance and easy cleaning between process runs.
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ISO 4406:99 is the reporting standard for fluid cleanliness. According to this standard, a code number is assigned to particle count values derived at three ...Missing: solenoid | Show results with:solenoid
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[PDF] Explosion-proof solenoid valves with suppressor diode SIL
On/off directional and leak-free valves equipped with explosion-proof solenoids provided with internal suppressor diode.
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Aug 1, 2011 · Media are a very important consideration in solenoid valve specification because the materials of the valve must be compatible with the media.
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The response time of a solenoid valve is defined as the time elapsed between electrical input and when the valve translates. Pull-in response time is the time ...
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The Different Types of Solenoid Valves and How They Work
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Solenoid Valve Flow Paths - Resource Center
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Solenoid Valve Types – Magnet-Schultz of America
Jun 3, 2019 · A 4 way valve has 4 or 5 ports. There is 1 inlet, and 2 outlet ports much like a 3 way valve but whichever outlet port is off becomes a ...<|control11|><|separator|>
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Understanding 5/2 and 4/2-Way Pneumatic Valves | Tameson.com
A four way two position valve has four ports and two positions. Two ports supply air to either side of a double acting solenoid valve and the remaining port ...
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G1/8'' 24V DC 5/3-Way Center closed Solenoid Valve 3-8bar MVSC
In stock 30-day returnsA 5/3-way valve has five ports and three positions. The central (rest-)position can have various functions; with a 'center closed' valve, all five ports are ...<|control11|><|separator|>
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2 Way vs 3 Way vs 5 Way Solenoid Valves: A Complete Guide
Compare 2 way, 3 way, and 5 way solenoid valves and learn how to pick the right type for your industrial or automation needs.
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Valve Flow Coefficients Explained - Solenoid Valve World
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To size a control valve, you need physical details, process conditions (pressure, temperature), and fluid properties (flow rate, density).
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How To Properly Size a Solenoid Valve for Your Application
Sep 12, 2025 · Solenoid valve sizing decisions determine how efficiently your system performs under variable pressures, media properties, and duty cycles.
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Solenoid Valves | Parker NA
Parker's comprehensive selection of solenoid valves includes a broad range of types and configurations for all manner of applications across many industrial ...
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Solenoid Valves | Emerson US
Emerson's ASCO solenoid valves set industry standards for reliability, adaptability and energy efficiency across many applications and industries.
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Our valves and actuators use consistent designs to provide and convenient built-in operating features provide outstanding control without add-ons.Globe Valves · Ball Valves · Butterfly Valves · Zone ValvesMissing: treatment | Show results with:treatment
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[PDF] SECTION 232500 - HVAC WATER TREATMENT - Ohio.gov
Solenoid valves: Provide and wire as required. H. Electronic timers: Provide a biocide control timer and lockout control timer. I. Condenser water treatment ...
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Explosion Proof Solenoid Valves | Emerson US
ASCO's explosion-proof valves are designed to contain explosions in an encapsulated solution without causing external hazard.
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Products - Pilot Solenoid Valves - Emerson Global
Oil & Gas ... Pilot valves are essential to the control of pressure in high-capacity flow applications, including hazardous environments.
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Parker offers a wide range of solenoid valves in compliance with food compatibility standards such as UL sanitation, NSF, WRAS, ENEC,. 1935/2004/CE. Parker's ...Missing: hygienic CIP
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The compact VPCF proportional flow control valves from Festo are designed to deliver accurate spray jet control in critical environments such as painting ...Missing: solenoid booths
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• Long service life of over 150 million cycles. • Long valve system service life without requiring maintenance. The result: one solution for all your ...
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Reliability and performance of solenoid valve contribute for its safe operation. Remaining useful life prediction of solenoid valve helps to prevent its ...
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Solenoids | Hunter Industries
The 9 V Hunter DC-Latching Solenoid is compatible with all plastic Hunter valves used with battery-operated controllers. The solenoid receives a quick pulse ...
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The Twig-V Plus wireless valve actuator integrates a 12 VDC latching solenoid with Twig-V Wireless 900 MHz radio network compatibility.
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Aug 29, 2023 · DC solenoids are commonly used in irrigation systems that are powered by batteries or solar panels, or in remote locations where access to AC ...
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Solenoid Valves for Ventilators - Gems Sensors
Feb 24, 2021 · Gems Sensors subminiature solenoid valves are a great fit to work within medical ventilators. They are extremely small in size and weight.
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Here's how they work in infusion pumps. Solenoid valves control the flow of liquid medications or fluids for hydration in the pump system.
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Jul 23, 2025 · Biocompatibility and sterilization compatibility are also major concerns in medical applications of solenoid valves. Materials used in valve ...
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The rapidly switched solenoid valve injector injects into the cylinder the amount of fuel required for economical combustion, independent of the driving ...
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[PDF] Anti-Lock Braking System (ABS) and Anti-Slip Regulation (ASR)
The ABS solenoid valve is actuated and rapidly reduces the pressure in the brake cylinder of that wheel, and the wheel begins to accelerate again. The ...
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What are solenoid valves used for in appliances? They control water or gas flow—often found in washers, dishwashers, or gas ovens. Sears Home Services tests ...
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Water Valves - Robertshaw
The Robertshaw® S-101 Water Valve Series is a single solenoid valve for dishwashing machines, coffee brewers, cappuccino machine and tea brewers. S-30 Water ...<|separator|>
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Lee miniature piloting solenoid valves combine space and weight savings with superior performance and reliability in demanding applications.
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Each aerospace solenoid valve is built with low leak rates and can be specified as normally open or normally closed, with customized pressure-to-open and close ...
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Eaton designs high-performance valves for a variety of aerospace applications including fuel, thermal management fluids, pneumatic and space propulsion systems.
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Remotely control water lines with the LoRaWAN Smart Valve. 7+ year battery life, industrial grade, and automated shut-off when paired with leak sensors.
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Gas Solenoid Valves in Smart Homes
Discover how gas solenoid valves prevent leaks, enable remote shutdown via apps, and integrate with smart home systems. Real-world examples + IoT safety tips.
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Jan 27, 2023 · Ampère also invented solenoids, discovered the temporary magnetization of iron and invents electromagnets.
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Jul 2, 2020 · On September 18, 1820, the French scientist André-Marie Ampère presented his first reflections on the equivalence between magnets and currents.
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May 15, 2018 · A French mathematician and physicist named André-Marie Ampère was inspired by this demonstration to work out the connection between electricity ...
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1910. World's 1st industrial solenoid valve. 1952. World's 1st billion cycle spool valve. 1984. ASCO™ acquired. 2018. AVENTICS™ acquired. 1945. AB ...
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ASCO Valve. In 1910 ASCO became the first company to develop and manufacture a new electrically operated control device known as the solenoid valve.
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Asco - FCX Performance
In 1910, the company invented a new electrically operated control device known as the solenoid valve. ASCO's heritage of innovation resulted in an extensive ...
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Solenoid Valve Design. The first major step forward in solenoid design came in the 1950s when Bürkert developed the first plastic-moulded body solenoid valves.
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Simple solenoid coil excitation with AC rather than DC power usually allows for higher forces, watt-for-watt, in opening a poppet valve.Missing: early limitations
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Solenoid valves - an enduring design refined over time
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This fifth edition presents vital information on control valve performance and the latest technologies.
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Dec 12, 2021 · NO. Standard code, Standard name. ISO. 1, ISO – 5209 – 77, Industrial valve marking. 2, ISO – 5752 – 88, The structural length of the metal ...
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1973–1980. From explosion-proof solenoid valves to water and air treatment units for dental chairs. The ambition to build the world's best valves and ...
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A bistable actuator comprising a permanent magnet assembly secured to an armature shaft and a pair of core elements axially disposed on either side of the ...Missing: history | Show results with:history<|separator|>
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In the late 1970s, miniaturization was extended to mechanical devices with electronics, which is now known as microelectromechanical systems (MEMS) [2, 3].
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A typical mass flow controller can be modeled as shown in Figure 1. It consists of a mass flow sensor, a proportional control valve and control electronics ...
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Mar 25, 2025 · These advanced devices reduce energy consumption by up to 80%, significantly lowering operational costs while supporting sustainability goals.
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Oct 17, 2025 · Solenoid Valve Market was worth USD 4.9 billion in 2025, and is predicted to grow to USD 7.6 billion by 2035, with a CAGR of 4.5%.Missing: IoT 2010s- DC