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Flushometer

A flushometer is a self-contained flush valve designed for use with tankless water closets and urinals, which harnesses line pressure from the water supply to deliver a metered volume of water for flushing, automatically closing after the predetermined amount is discharged.^[1] Unlike gravity-fed tank systems, flushometers enable rapid, powerful flushes without the need for a storage tank, making them ideal for high-traffic environments.^[2] The modern flushometer was invented in 1906 by William Elvis Sloan, who founded the Sloan Valve Company in Chicago to commercialize his design, initially known as the Royal flushometer.^[3] This innovation marked a significant advancement in plumbing technology for commercial settings.^[4] Over the decades, Sloan and subsequent manufacturers refined the device, incorporating features like adjustable flush volumes to comply with evolving water conservation standards. Flushometers are available in two primary types: diaphragm-style and piston-style valves, each suited to different water conditions and performance needs.^[5] Diaphragm flushometers, featuring a flexible rubber diaphragm to control flow, are preferred for high-pressure or debris-laden water supplies due to their filtered bypass mechanisms that prevent clogging.^[6] Piston flushometers, using a solid piston for metering, offer durability in low-pressure scenarios but may require more frequent maintenance in gritty environments.^[5] Both types can be manual (handle-operated) or sensor-activated for touchless operation, enhancing hygiene in public spaces.^[7] Primarily applied in commercial, industrial, institutional, and high-rise residential buildings, flushometers support tankless fixtures that save space and reduce installation costs compared to tank-based alternatives.^[2] They are commonly found in office buildings, schools, hospitals, airports, and stadiums, where frequent use demands consistent performance.^[8] The importance of flushometers lies in their contribution to water efficiency and sustainability; low-consumption models certified under programs like EPA WaterSense use as little as 1.28 gallons per flush (gpf) for toilets and 0.5 gpf for urinals, significantly reducing water usage in large facilities.^[9]^[10] Ongoing advancements continue to focus on integrating smart sensors and further minimizing environmental impact.^[7]

Introduction

Definition

A flushometer is a self-contained, pressure-assisted valve designed to flush tankless toilets or urinals by utilizing the pressure from a municipal water supply line to discharge a predetermined volume of water, rather than relying on gravity from a storage tank.^[1]^[11] This device operates as a metered valve that automatically closes after releasing the specified amount, ensuring efficient water use without the need for manual refilling mechanisms.^[2] The primary purpose of a flushometer is to provide a powerful, high-volume flush—typically ranging from 1.0 to 1.28 gallons per flush (gpf) in WaterSense-certified modern models—directly from the inline water supply, eliminating the reservoir found in traditional tank-based systems.^[9] Unlike gravity-fed tank toilets, which store water in a tank for each flush and depend on the tank's height for pressure, flushometers draw water on demand without any storage component, enabling faster flush cycles and reduced vulnerability to leaks from tank components.^[12] The flushometer was invented by William Elvis Sloan, who developed the first model in 1906 and received U.S. Patent 977,562 for it in 1910.^[13]^[14] Sloan's design revolutionized commercial plumbing by introducing a reliable, pressure-driven alternative to earlier flushing methods.

Basic Function

A flushometer operates as a tankless flushing system that relies on building water pressure to initiate and complete the flush cycle. When a user activates the manual handle or an infrared sensor detects motion and subsequent absence, the mechanism releases trapped pressure within the valve, allowing it to open rapidly.^[15]^[16] During the flush cycle, water from the supply line rushes into the fixture at high velocity, driven by the incoming pressure typically ranging from 15 to 100 psi, which scours the bowl or urinal to remove waste effectively. This powerful surge ensures thorough cleaning without the need for a storage tank, followed by a metered amount of water that refills the valve's pressure chamber to prepare for the next use.^[17]^[18]^[15] To promote water conservation, the post-flush refill occurs slowly through a narrow bypass in the valve, which gradually restores pressure in the upper chamber and prevents continuous or excessive flow. Standard flushometer models are designed for efficiency, delivering a typical flush volume of 1.28 gallons per flush (gpf), aligning with EPA WaterSense certification requirements for reduced water usage in commercial and public restrooms.^[16]^[9]

History

Invention

The flushometer was invented by William Elvis Sloan, a pipefitter and inventor based in Chicago, Illinois, who established the Sloan Valve Company in 1906 to address longstanding challenges in commercial plumbing systems.^[19]^[14] Born in 1867, Sloan drew on his expertise in hydraulics to develop a device that leveraged direct water line pressure for flushing, eliminating the reliance on inefficient gravity-fed tanks that were common in public restrooms at the time. These tanks, often requiring 7 gallons per flush and positioned overhead, suffered from slow refill times, frequent leaks, and high maintenance demands, particularly in urban environments where space constraints were intensifying due to the rise of multi-story buildings.^[20] Sloan's initial motivation stemmed from the practical needs of early 20th-century American cities like Chicago, where rapid urbanization and taller structures made bulky rooftop or overhead tanks impractical and costly to install and maintain. As a problem-solver in the plumbing trade, he sought to create a more reliable, space-efficient alternative that could provide a powerful flush using the building's incoming water pressure, thereby reducing water waste and enabling faster successive uses in high-traffic commercial settings.^[14] This innovation was particularly suited to public facilities, such as schools and offices, where gravity systems often failed to deliver consistent performance amid growing floor heights and limited roof access.^[21] The first prototype, known as the Royal Flushometer, was developed in 1906 and marked a pivotal shift toward pressure-based flushing for tankless toilets and urinals.^[20] Sloan's design incorporated a valve mechanism that released a measured volume of water—initially around 4 gallons per flush—directly from the supply line, offering improved efficiency over tank systems without the need for gravity assistance. To protect his invention, Sloan filed a patent application on June 13, 1906, which was granted on December 6, 1910, as U.S. Patent No. 977,562 for a "Valve" describing a pressure chamber and controlled valve system essential to the flushometer's operation.^[13] This patent formalized the core principles of the device, emphasizing its role in overcoming the spatial and functional limitations of traditional plumbing in expanding urban infrastructures.^[22]

Evolution and Adoption

The Sloan Valve Company was founded in 1906 by William E. Sloan in Chicago specifically to manufacture the newly invented flushometer, with the first Royal Flushometer model introduced that year to replace traditional tank and chain fixtures in commercial settings, using less water and energy while enabling faster reset times.^[14] By the 1920s, flushometers saw significant adoption in public buildings such as schools, offices, and theaters due to their space-saving design, which eliminated the need for bulky water tanks and allowed for more efficient layouts in high-traffic restrooms.^[20] In the mid-20th century, the technology advanced with the introduction of the piston flushometer by Sloan in 1928, which proved more durable in hard water conditions and low-pressure environments compared to early diaphragm models. The 1980s marked a key milestone with the launch of automatic sensor-operated flushometers, such as Sloan's Optima model in 1980, enhancing hygiene by enabling touchless operation in public facilities. This period also saw a push toward water efficiency following the Energy Policy Act of 1992, which mandated a maximum of 1.6 gallons per flush (gpf) for flushometer-valve toilets by 1997, prompting manufacturers to redesign valves for reduced consumption.^[23] Entering the late 20th and 21st centuries, dual-flush options emerged in the 2000s, with Sloan's UPPERCUT manual dual-flush flushometer debuting in 2005 to offer user-selectable volumes for further conservation.^[14] The EPA's WaterSense program, launched in 2006, began certifying high-efficiency flushometer models at 1.28 gpf or less, aligning with federal standards and incentivizing upgrades in commercial sectors.^[24] By the 2020s, flushometers had become the predominant choice for over 27 million installations in U.S. commercial buildings alone, driven by their reliability and efficiency, with global adoption expanding through leading brands like Sloan, TOTO, and Zurn in markets across North America, Europe, and Asia.^[9]^[25]

Design and Components

Key Components

The main body of a flushometer serves as the primary housing that encases all internal components and withstands the high water pressure typical in commercial plumbing systems, often constructed from chrome-plated brass for durability and corrosion resistance or stainless steel in environments requiring enhanced hygiene and longevity.^[26]^[27]^[2] The handle or actuator provides the activation mechanism, available as a manual push-button lever typically made of chrome-plated metal for ergonomic use and accessibility compliance, or an infrared sensor for touchless operation, connected via a linkage to initiate the valve release.^[28]^[26] The valve assembly forms the core control element, comprising the main piston or diaphragm—often a rubber or molded synthetic material that separates pressure zones—a relief valve for pressure regulation, and a stop seat that ensures a tight seal to manage water flow entry and exit.^[28]^[26]^[27] Internal features include the pressure chamber that maintains hydraulic balance within the assembly, a small bypass orifice integral to the diaphragm or piston for controlled water metering between chambers, and a vacuum breaker—typically plastic or metal—to prevent back siphonage and ensure one-way flow.^[26]^[27] Accessories facilitate installation and integration, such as the tailpiece—a brass or stainless steel connector with adjustable length for linking to the water supply pipe—and the escutcheon plate, a decorative metal cover that conceals wall penetrations and provides a finished mounting appearance.^[26]^[29]^[2]

Operating Mechanism

In the pre-flush state of a standard diaphragm flushometer, the upper control chamber is filled with water maintained at the supply line pressure, typically ranging from 20 to 80 psi. This pressure applies a downward force on the diaphragm—a flexible elastomeric disk referenced in the key components—seating it firmly against the valve orifice and preventing any flow from the lower supply chamber into the fixture.^[30]^[2] Activation occurs when the handle is pushed, mechanically lifting the relief valve and allowing pressurized water to bleed rapidly from the upper chamber through a dedicated relief port or the diaphragm's bypass orifice. The sudden pressure drop in the upper chamber creates an imbalance across the diaphragm, generating an upward force from the supply pressure below that lifts the diaphragm and opens the main valve, initiating the flush.^[2]^[15] During the flush phase, water surges from the supply line through the open valve into the fixture at an initial peak flow rate of 25 to 35 gallons per minute (gpm), sustaining for approximately 3 to 5 seconds to deliver the metered volume and induce siphon action in the toilet's trapway for complete evacuation.^[31]^[32] In the refill phase, the bypass orifice in the diaphragm permits a controlled, slow influx of water from the lower supply chamber into the upper chamber, progressively rebuilding pressure until it equalizes with the supply line, at which point the downward force reseats the diaphragm and closes the main valve to halt flow.^[2]^[15] The high-velocity flow during flushing is governed by Bernoulli's principle, which describes how the conversion of pressure energy into kinetic energy accelerates the water. The pressure differential \Delta P across the valve, responsible for driving this acceleration, is expressed by the dynamic pressure term:

\Delta P = \frac{1}{2} \rho v^2

where \rho is the density of water (approximately 1000 kg/m³) and v is the fluid velocity. To derive this, start from Bernoulli's equation for steady, incompressible, inviscid flow along a streamline:

P + \frac{1}{2} \rho v^2 + \rho g h = \text{constant}.

Assuming negligible elevation change (\Delta h = 0) and negligible initial velocity upstream (v_1 \approx 0), the equation simplifies between the supply side (point 1) and the valve outlet (point 2):

P_1 + \frac{1}{2} \rho (0)^2 = P_2 + \frac{1}{2} \rho v_2^2,

yielding \Delta P = P_1 - P_2 = \frac{1}{2} \rho v_2^2. This relation highlights how supply pressure is transformed into the rapid flow needed for effective flushing.

Types

Diaphragm Flushometers

Diaphragm flushometers represent the traditional and most widely adopted type of flush valve technology, utilizing a flexible rubber diaphragm to regulate water flow in commercial plumbing fixtures. The core design features a flexible synthetic rubber diaphragm, often made from durable materials like PERMEX, that divides the valve body into an upper pressure chamber and a lower supply chamber. This diaphragm includes a small bypass orifice that allows controlled water passage to equalize pressure between the chambers under normal conditions, preventing unintended flushing while maintaining readiness for activation.^[33]^[34] In operation, the diaphragm responds to a pressure imbalance triggered by the user: pulling the handle or activating a sensor opens a relief valve in the upper chamber, allowing pressurized water to escape and creating a temporary vacuum that lifts the diaphragm. This action opens the main waterway, releasing a metered volume of water—typically 1.28 gallons per flush (gpf) for toilets or 0.5 gpf for urinals in standard models—for a powerful, efficient rinse. As the upper chamber repressurizes through the bypass, the diaphragm flexes back into place, resealing the valve without holding open, which ensures consistent performance over multiple cycles. Dual-flush variants adapt this mechanism to offer reduced volumes, such as 0.8 gpf for liquid waste and 1.28 gpf for solid waste, promoting water conservation in line with EPA WaterSense standards.^[35]^[36] These flushometers are particularly suited for environments with soft or clean water supplies and operating pressures above 35 psi, where the diaphragm's flexibility excels in handling steady, high-volume flows. They perform optimally in high-traffic settings, such as public restrooms, due to their non-hold-open design that resets quickly after each use, and their filtered bypass mechanisms that prevent clogging in debris-laden supplies. The diaphragm assembly typically lasts 5-7 years in commercial applications, equivalent to approximately 250,000 flushes, after which replacement is recommended to maintain efficiency and prevent leaks.^[34]^[37]^[38] Prominent examples include Sloan's Royal and Regal series, which incorporate dual-filtered bypass diaphragms for enhanced debris resistance and consistent flush volumes across a pressure range of 10-125 psi. The Royal model adds protective features like an integral filter to shield the diaphragm during pressure surges, while the Regal offers a more economical option with similar core functionality. Diaphragm flushometers offer lower initial costs ranging from $100 to $200 per unit, making them accessible for widespread installation.^[39]^[40]

Piston Flushometers

Piston flushometers employ a rigid piston mechanism that replaces the flexible diaphragm found in other variants, providing enhanced structural integrity for demanding conditions. This design was pioneered in the early 20th century, with significant advancements by manufacturers like Sloan Valve Company in the 1920s and 1930s, evolving into durable models suited for commercial use. Brands such as Zurn Wilkins and Symmons later incorporated piston technology in their product lines to emphasize longevity and resistance to environmental stressors, marking a shift toward more robust alternatives for non-standard water supplies.^[5] In operation, the piston slides within a cylinder to control water flow, dividing the valve into upper and lower chambers where pressure differentials drive the flush cycle. Upon activation, incoming water pressure lifts the piston, allowing a metered release through the outlet; the piston then reseats as the upper chamber repressurizes, ensuring a complete flush without hold-open features. This sliding action adapts well to hard water conditions, as the rigid piston avoids the cracking or buildup issues common in flexible components. Additionally, piston models maintain reliable performance at low supply pressures of 15-20 psi, making them suitable for variable or inconsistent water systems, though they may require more frequent maintenance in gritty or debris-heavy environments.^[41]^[42]^[5] Piston flushometers are particularly ideal for installations in regions with high mineral content or fluctuating pressures, such as older buildings or areas with untreated groundwater, where they resist scaling more effectively than diaphragm types. Representative examples include Sloan's GEM-2 and Naval series, which offer adjustable flow rates from 1.0 to 1.6 gallons per flush (gpf) via internal metering adjustments, and Zurn Wilkins' Metroflush models for similar water-saving configurations. These units excel in environments prone to chemical imbalances, prioritizing reliability over the cost-efficiency of standard designs.^[43] Unique advantages of piston flushometers include an extended service life exceeding 10 years with proper maintenance, attributed to fewer vulnerable parts exposed to wear, and simplified field repairs that often require only partial disassembly for piston replacement or cleaning. This durability reduces long-term operational costs in high-use settings, though initial installation may demand precise alignment to optimize the sliding mechanism.^[44]^[45]

Advantages and Disadvantages

Advantages

Flushometers provide significant water efficiency compared to traditional tank toilets. WaterSense-labeled models limit flush volume to a maximum of 1.28 gallons per flush (gpf), achieving a 20% reduction over the federal standard of 1.6 gpf for pre-2006 fixtures. In commercial settings, dual-flush variants further enhance savings by offering a reduced flush of 1.0-1.1 gpf for liquid waste alongside the full 1.28 gpf option, potentially cutting water use by up to 30% overall.^[9]^[34] The tankless design of flushometers saves space, making them suitable for compact or wall-hung installations where traditional tanks would protrude and occupy additional room. This configuration eliminates the need for a bulky reservoir, allowing for lower-profile setups that reduce overall fixture depth by several inches relative to tank systems.^[46] Flushometers deliver a powerful flush through direct connection to the water supply line, providing high-velocity flow—typically 20-30 gallons per minute (gpm) during the brief cycle—to effectively transport waste and minimize clogs. This performance ensures reliable bowl clearance and reduces drainline backups compared to gravity-fed tank toilets.^[47]^[48] Sensor-activated models enhance hygiene by enabling touchless operation, reducing the spread of germs on handles or buttons in high-traffic areas. Their rapid flush cycles, completing in under 5 seconds, further support sanitary conditions by quickly clearing the bowl.^[34]^[49] Built with robust metal components such as brass bodies and stainless steel working parts, flushometers exhibit high durability, often lasting 15-20 years under regular maintenance in commercial use.^[50]

Disadvantages

Flushometers generally incur a higher initial cost compared to traditional tank-style toilet valves, with prices typically ranging from $150 to $400 per unit, whereas basic tank fill valves cost around $10-20.^[51] Additionally, their installation often requires professional plumbing services due to the need for precise pressure adjustments and compatible fixtures, adding to upfront expenses.^[52] These devices are highly dependent on consistent water pressure, requiring a minimum of 25 psi and operating effectively up to 80 psi; in low-pressure environments below this threshold, flushes become weak or incomplete, potentially leading to clogs or incomplete waste removal.^[31]^[53] Flushometers produce louder flushing sounds, often reaching 70-80 dB, which can be disruptive in quieter settings compared to the softer operation of tank toilets.^[54] A 2013 study further highlighted their potential for increased aerosol generation, with flushometer toilets producing up to 145,000 droplets per flush—over 12 times more than high-efficiency tank toilets—potentially elevating the risk of airborne germ transmission.^[55] Maintenance demands are notable, as the diaphragm or piston typically requires replacement every 4-5 years under normal conditions, though hard water can accelerate wear by causing mineral buildup and reducing component lifespan.^[56] Retrofitting flushometers into older buildings presents challenges, often necessitating upgrades to supply lines—at least 1 inch in diameter, and up to 1.5 inches for adequate flow in multi-fixture setups—to meet the high-volume demands and prevent pressure drops.^[57]^[58]

Applications

Commercial and Institutional Use

Flushometers are widely employed in commercial and institutional environments, including offices, schools, hospitals, and airports, where their robust construction ensures reliability under high-traffic conditions. These settings often feature public restrooms that rely on flushometers for efficient waste removal without the need for water tanks, making them ideal for frequent use. This underscores their dominance in non-residential applications.^[59]^[2] Flushometers comply with key regulatory standards such as ASME A112.19.2/CSA B45.1 for ceramic plumbing fixtures, which govern performance, materials, and testing for water closets and urinals. In the United States, the Energy Policy Act of 1992 established national water efficiency requirements, mandating that new commercial and institutional installations use low-flow fixtures like flushometers limited to 1.6 gallons per flush (gpf) or less; many states have enforced these for new builds since the 1990s to promote conservation. This compliance extends to EPA WaterSense specifications, which further certify high-efficiency models for institutional use.^[60]^[61]^[62] Notable examples include installations in large-scale venues such as stadiums; for instance, Sloan's 111 SFSM flushometers were deployed throughout Globe Life Field to handle peak event demands. In healthcare facilities, sensor-operated flushometers are particularly valued for minimizing physical contact, thereby reducing the risk of cross-contamination in infection-sensitive environments. These automatic models activate via infrared detection, aligning with hygiene protocols in hospitals and clinics.^[63]^[64] In high-traffic commercial contexts, flushometers are engineered to support sustained performance in busy institutional restrooms. They also integrate seamlessly with greywater or reclaimed water systems, enabling sustainable practices by reusing treated wastewater for flushing, which lowers overall water consumption in large facilities.^[65] The global commercial flushometer market, driven by demand for water-efficient and durable plumbing solutions, was valued at approximately $1.5 billion in recent assessments, with an expected annual growth rate of around 6% through the decade.^[66]

Residential and Specialized Use

While flushometers are predominantly associated with high-traffic commercial environments, their adoption in residential settings remains rare but is gradually increasing, particularly in luxury homes and compact spaces like tiny houses where space-saving wall-hung designs offer aesthetic and functional benefits.^[67] These installations prioritize sleek, integrated fixtures that eliminate visible tanks, though they necessitate sufficient water pressure—typically 20-80 psi—for proper operation, often requiring booster pumps in homes with low municipal supply or private well systems.^[68] In such scenarios, flushometers enable efficient flushing in constrained layouts, such as those under 150 square feet, aligning with modern minimalist architecture.^[69] In specialized applications beyond standard residences, compact flushometer models are adapted for recreational vehicles (RVs) and marine systems, where their durable, corrosion-resistant construction suits mobile and humid environments.^[70] For instance, 45-degree flush valves designed for RVs facilitate sewage management in tight spaces without extensive plumbing modifications.^[71] Similarly, vandal-resistant variants are deployed in high-security settings like prisons and military bases, featuring tamper-proof push-button actuators and non-hold-open mechanisms to prevent misuse and control water usage.^[72] Sloan's Royal and Regal prison flushometers, for example, incorporate stainless steel components for enhanced durability in institutional contexts.^[73] Residential challenges with flushometers include potential increases in water bills if non-efficient models are selected, as they may exceed the 1.28 gallons per flush standard without proper calibration, though high-efficiency options mitigate this.^[74] Accessibility is addressed through ADA-compliant low-profile versions, which position actuators at 44 inches maximum from the floor for wheelchair users, ensuring compliance with standards like those from the Americans with Disabilities Act.^[75] For off-grid setups, battery-powered retrofit units like Sloan's SMOOTH sensor-activated flushometers provide portable, automatic operation without reliance on electrical grids, supporting remote cabins or temporary installations.^[76] Market trends indicate growing residential integration of flushometers, particularly through smart home ecosystems that enable app-controlled flushes and remote monitoring, as seen in the broader flush valve sector's emphasis on IoT connectivity for efficiency and convenience.^[77] This shift, while still niche compared to commercial dominance, aligns with the global flushometers market's projected expansion driven by sustainable and automated plumbing innovations.^[78]

Installation and Maintenance

Installation Requirements

Flushometers require a minimum dynamic water pressure of 25 psi (172 kPa) to ensure proper operation, particularly for low-consumption water closets rated at 1.6 gallons per flush (6.0 Lpf), though the overall operating range is typically 10 to 100 psi (69 to 689 kPa).^[79] The water supply line must be at least 1 inch (25 mm) in nominal diameter for water closets to provide adequate flow volume, while the waste line should be sized to a minimum of 3 inches (76 mm) in diameter to handle the fixture's discharge in compliance with standard plumbing drainage requirements.^[80] For wall-hung tankless water closet bowls, the rough-in height to the centerline of the fixture spud connection is generally 21 to 23 inches (533 to 584 mm) from the finished floor. The water supply inlet to the control stop is typically rough-in at 38 to 42 inches (965 to 1067 mm) from the finished floor; for ADA compliance, this should not exceed 37.5 inches (953 mm) to ensure the flush handle height does not surpass the maximum of 44 inches (1118 mm).^[79]^[81] These valves are compatible with wall-hung or floor-mounted tankless water closet bowls designed for flushometer use, often requiring a carrier system for in-wall installations to support the fixture securely and align the spud connection.^[80] Installation must adhere to the International Plumbing Code (IPC) or Uniform Plumbing Code (UPC), ensuring all connections are flushed prior to assembly and that the system meets local regulations for pressure, venting, and backflow prevention.^[79] Essential tools include a straight-blade screwdriver, adjustable wrench or spud wrench for securing couplings, and pipe cutter for supply line preparation; Teflon tape should be applied sparingly only to the threaded supply inlet to avoid debris interference, while professional installation by a licensed plumber is strongly recommended due to the precision required for pressure testing and code compliance.^[82]^[83] The installation process begins by shutting off the main water supply and flushing the lines to remove debris, followed by mounting the control stop and vacuum breaker at approximately 42 inches (1067 mm) from the finished floor for ergonomic access. The flushometer body is then attached to the tailpiece, which connects to the fixture spud, with all joints hand-tightened before snugging with a wrench; final testing involves opening the control stop fully, actuating the valve multiple times, and inspecting for leaks under operating pressure.^[79]^[84] Total installation costs typically range from $300 to $600, encompassing the flushometer valve (around $150–$250), supply fittings, and 1.5–2 hours of professional labor at $100–$150 per hour, though homes with low water pressure may require an additional $200 for a booster pump to achieve the necessary dynamic flow.^[85]^[86]

Maintenance Procedures

Routine maintenance of flushometers involves regular inspections to prevent leaks and ensure optimal performance, typically including monthly visual checks for any signs of water leakage around the handle, vacuum breaker, or base, as well as cleaning the exterior with mild soap and water to remove buildup.^[87] Annually, a pressure test should be conducted using a gauge to verify that the system operates within the recommended range of 20 to 80 psi, as pressures outside this can lead to inefficient flushing or component strain.^[88] For diaphragm and piston flushometers, replacement of the internal kit is recommended every 5 to 7 years or after approximately 250,000 flushes, depending on usage; this involves shutting off the water supply, disassembling the valve body with a wrench, removing the old diaphragm or piston assembly, installing the new kit (available for $20 to $50 from manufacturers), and lubricating O-rings with silicone-based grease to prevent sticking.^[87]^[89] Diaphragm models may require more frequent attention in hard water areas due to mineral deposits, while piston types offer slightly greater durability against debris.^[90] Common repairs include addressing a sticking handle by loosening the adjustment screw on the handle assembly to restore smooth operation, or if damaged, replacing the entire handle unit.^[91] To clear debris from the bypass hole causing incomplete flushes, disassemble the valve, soak components in a vinegar solution for 30 minutes to dissolve hard water scale, then rinse and reassemble.^[83] Essential tools for these tasks include a flathead screwdriver, adjustable pliers, and manufacturer-specific replacement kits; always shut off the water supply and relieve pressure before beginning any work to avoid flooding.^[92] Troubleshooting weak flushes often reveals low water pressure below 25 psi or a clogged orifice in the diaphragm or piston, which can be resolved by adjusting the control stop or cleaning the affected area.^[93] If severe corrosion is present on brass components, indicating exposure to aggressive water chemistry, full flushometer replacement is advised, as these units have a typical lifespan of 15 to 20 years with proper care.^[94]

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Sloan H-551-A Adjustable Tailpiece Assembly, 3-1/16" - Flush Valves
Adjustable tailpiece assembly, 3-1/16" - for use with Sloan Flushometers, includes O-ring and locking ring, chrome plate finish, original OEM replacement parts.
[30]
https://www.cnkexin.com/blog/how-to-test-the-functionality-of-a-flushometer-1709720.html
[31]
Minimum and Maximum PSI for Plumbing Fixtures and Faucets
Flushometers: Siphonic flush bowl style requires 25 gpm at 35 psi minimum and 80 psi maximum static.
[32]
10.14 Minimum Requirements for Water Distribution Systems
12.0 gpm for flushometer valve urinals; ... This table converts water supply demands in water supply fixture units (WSFU) to required water flow in gallons per ...Missing: initial | Show results with:initial
[33]
[PDF] Inside a Sloan Manual Flushometer - Equiparts
Diaphragm Assembly. The heart of the flushometer is called the Diaphragm Assembly. It's the "engine" that drives the whole.
[34]
[PDF] Flushometer Full Line Collection - Sloan Valve
High performance at a lower cost. Includes accurate flush delivery system, quiet operation, and durable components. Sensor Exposed ESS Hardwired Flushometers.
[35]
https://sloanrepair.com/blogs/blog/sloan-diaphragm-kit-guide
[36]
ROYAL 611 ES - Sloan Valve
Features · Royal® and Regal® Prison Flushometers feature all the performance benefits of standard concealed, diaphragm model Flushometers with added durability ...
[37]
Sloan Publishes Flushometer Maintenance Schedule Brochure
Jul 13, 2017 · But in busy commercial restrooms at 4,000 flushes per month, that only translates to five years of service. Sloan's brochure includes the many ...Missing: lifespan interval
[38]
Extending the Life of a Flushometer - Best Plumbing Specialties
Jan 5, 2021 · The Diaphragm Kit may last 5-6 years before needing replaced. Here are some indicators of one going bad.Missing: interval | Show results with:interval<|separator|>
[39]
https://airdelights.com/blogs/sloan-regal-vs-royal-flushometer-flush-valves
[40]
https://sloanrepair.com/products/sloan-urinal-regal-flushometer-180-xl-regal
[41]
https://qualityplumbingsupply.com/blog/piston-vs-diaphragm-urinal-flushometers-a-closer-look/
[42]
Are Piston Flush Valves a Good Choice? - Best Plumbing Specialties
Sep 2, 2022 · The diaphragm flush valves operate better in high traffic, poor water conditions, and high back pressure. It is also considered durable, ...Missing: advantages disadvantages
[43]
Metroflush Exposed Manual Piston Flush Valve with 1.6 gpf, Sweat ...
$$165.99 90-day returnsAn adjustable sensor range delivers flexibility and a well-timed flush for any environment. The kit comes complete with two wrenches for a quick and easy ...
[44]
[PDF] Sloan® TruFlush Flushometers
May 3, 2021 · Per PCR requirements, a 10 year life span is assumed for the flushometer. However, the flushometer lifespan is expected to exceed 10 years with ...
[45]
https://qualityplumbingsupply.com/blog/flushometer-pistons-vs-diaphragms-is-one-better-than-the-other/
[46]
Enough psi, but not enough volume(toilet with Sloan 3.5 gallon ...
Apr 26, 2018 · But if the flushometer flushes 3.4 gallons in say 5 seconds, that is a flow rate of 68 gallons per minute. I tried calling Sloan and cannot ...
[47]
Reduce Backups and Clogs with Pressure-assisted Toilets - retrofit
Aug 9, 2018 · The Sloan pressure-assisted toilets look and flush like any other tank toilet, but deliver flushometer-like performance. By pushing waste out ...Missing: study | Show results with:study
[48]
[PDF] WaterSense at Work Section 3.1: Toilets (Water Closets) - EPA
Jun 6, 2023 · Flushometer-valve toilets are tankless fixtures with either wall- or floor-mounted bowls attached to a lever- or sensor-activated.<|control11|><|separator|>
[49]
Should I Repair or Replace My Restroom Fixtures? - Zurn | Blog
When you get to the fifteen-year range, generally you can repair it and get at least another five or more years of use from the fixture unless it is in an ...Missing: lifespan | Show results with:lifespan
[50]
Flushometers - The Home Depot
4.5 4.7K · Store nearby... KOHLER. KOHLER. SLOAN. SLOAN. Flushmate. Flushmate. Price. Enter a custom range: to. Apply. Select a range: $50 - $100. $50 - $100. $100 - $150. $100 - $150 ...Toilet Flushometer · Manual · Flush · American StandardMissing: initial | Show results with:initial
[51]
How Much Does a New Toilet Cost? (2025) - This Old House
Apr 16, 2025 · A new toilet costs $375–$500 on average, with full replacement including a plumber costing $500–$800. DIY installation can save money.
[52]
[PDF] INSTALLATION INSTRUCTIONS FOR STAINLESS STEEL WATER ...
FLUSH ALL WATER LINES PRIOR TO MAKING. CONNECTIONS. Sloan's flushometers are designed to operate with 15 to 80 psi (103 to. 552 kPa) of water pressure. THE ...
[53]
[PDF] Sloan Flushmate - Optimising Toilet Flushing Sound (ba0532)
Ming says, “We would typically see an A-weighted SPL of 80 – 83 dB. Of course, we also make benchmark tests on our competitors' products”. To ensure the ...Missing: noise | Show results with:noise
[54]
Aerosol Generation by Modern Flush Toilets - Taylor & Francis Online
These findings suggest two concurrent aerosolization mechanisms—splashing for large droplets and bubble bursting for the fine droplets that form droplet nuclei.
[55]
[PDF] Sloan Flushometers Maintenance Schedule
(Same as manual diaphragm flushometer with exception of following parts) ... Please note that life expectancy is different than warranty. Sloan's limited 3 ...Missing: lifespan interval
[56]
610.10 Sizing for Flushometer Valves - UpCodes
Piping supplying a flushometer valve shall be not less in size than the valve inlet. Where using Table 610.10 to size water piping, care shall be exercised to ...Missing: retrofitting | Show results with:retrofitting
[57]
P-811.3 Minimum Water Supply Sizes to Flushometers - UpCodes
P-811.3 Minimum Water Supply Sizes to Flushometers ; Pneumatic Tank or. Underground Main Pressure Using Iron Pipe · 1", 1-1/2" ; 30 psi, 1 (200') ; 40 psi, 1 (25') ...
[58]
Sloan Urinal Vacuum Breaker Sloan Regal Vacuum Breaker Repair ...
This genuine Sloan repair kit replaces worn-out vacuum breakers in Regal flushometers (the workhorses behind 90% of public restroom toilets). No more ...
[59]
[PDF] WaterSense® Specification for Flushometer-Valve Water Closets ...
Dec 17, 2015 · Under this specification, EPA is establishing a maximum allowable flush volume of 1.28 gpf ... Replacing one 3.5-gpf flushometer-valve water ...Missing: 2006 | Show results with:2006
[60]
Congress Set Toilet Standards in 1992. Here's the Data Showing ...
Dec 11, 2019 · New toilets sold must not exceed 1.6 gallons per flush (gpf); faucets are capped at 2.5 gallons per minute (gpm), and showerheads may not spray more than 2.5 ...
[61]
Best Management Practice #6: Toilets and Urinals
When deciding between a diaphragm and piston flush valve type for flushometer toilets and urinals, consider valve design, restroom traffic, water quality, and ...
[62]
Globe Life Field - Sloan Valve
One of the must-haves for the Rangers was a True Mechanical Override on flush valves, and Sloan's 111 SFSM Flushometers offered the perfect solution.
[63]
Touchless Sensor Technology - Fontana Showers
This significantly reduces the risk of cross-contamination and the spread of germs, making it ideal for high-traffic areas like public restrooms and healthcare ...
[64]
Flushometer-Valve Toilets and Changing WaterSense Specifications
Some flushometer-valve toilets use as much as 3.5 gallons per flush (gpf), which is more than twice the federal standard of 1.6 gpf. Expected Benefits of ...Missing: typical | Show results with:typical<|control11|><|separator|>
[65]
Flushometers Market Size, Market Trends, SWOT & Growth 2033
Rating 4.2 (81) Flushometers Market size was valued at USD 1.5 Billion in 2024 and is projected to reach USD 2.4 Billion by 2033, exhibiting a CAGR of 6.2% from 2026 to 2033.
[66]
Concealed Urinal Flushometers - by Sloan Valve - Plumbing Supply
Concealed Urinal Flushometers - Royal® 613 Prison Model. Designed for 3/4" stainless steel back inlet urinals. concealed vandal resistant flushometer. This ...
[67]
They said it couldn't (or shouldn't) be done in a residential setting ...
Jun 18, 2016 · It shouldn't be done if a house is piped as a normal house. A flushometer valve needs a high pressure and volume of flow to function properly.
[68]
Luxury Tiny House, East Coast , USA - Uponor
This Tiny House on wheels may be small, but it is big on features. At a cozy 150 square feet, the home is nothing short of luxurious, with high-tech building ...
[69]
Marine / RV Toilets and Waste Systems | Xylem US
5 GPM (19 LPM) output · Self-priming up to 10' (3m) · Capable of extensive dry running · Compact and simple design · Quiet running · Flexible installation · Corrosion ...Missing: flushometer | Show results with:flushometer
[70]
Compact 45-Degree Flush Valve with Leak-Proof Design for RVs ...
Free deliveryCompact 45-Degree Flush Valve. Designed specifically for RVs and trailers, this Flush Valve is the ultimate solution for hassle-free sewage management.
[71]
SLOAN 613 | Sloan
Royal®, Regal® and Sloan® Prison Flushometers feature all the performance benefits of standard concealed, diaphragm model Flushometers with added durability to ...
[72]
The Sloan 8603-ESM Flushometer: Designed for Prison Applications
Aug 1, 2023 · Its vandal-proof, touch-button operation is designed with a non-hold-open feature to keep the fixture from surpassing intended water consumption ...
[73]
Can you get one of those jet-like flushing toilets they have in hotels ...
Feb 2, 2020 · A regular residential toilet will use 1.28 gallons per flush and be much quieter while doing it without re- piping the water line to the fixture ...<|separator|>
[74]
https://www.quora.com/Can-you-get-one-of-those-jet-like-flushing-toilets-they-have-in-hotels-for-residential-use-Are-they-hard-to-maintain
[75]
https://www.ferguson.com/product/sloan-royal-1.28-gpf-sensor-flush-valve-s3451658/5137903.html
[76]
https://www.fergusonhome.com/sloan-ebv-200-a/s488657
[77]
Flush Valve Market Report | Global Forecast From 2025 To 2033
Some major companies in the flush valve market include Sloan Valve Company, Kohler Co., Toto Ltd., Zurn Industries, LLC, and American Standard Brands. Sloan ...
[78]
Flushometers 2025-2033 Overview: Trends, Competitor Dynamics ...
Rating 4.8 (1,980) Jun 28, 2025 · High-rise buildings: The demand for flushometers is particularly high in high-rise buildings, where centralized plumbing systems are prevalent.
[79]
None
### Summary of Installation Requirements for Exposed Royal Flushometers
[80]
None
### Summary of Installation Requirements for Sloan ECOS Flushometers
[81]
[PDF] Roughing-In - Kohler
All dimensions are nominal. **9-1/2" (241 mm) *Urinal complies with ADA requirement when rim is mounted no higher than 17" (432 mm) from finished floor. ** ...
[82]
[PDF] Sloan Exposed Flushometer Installation Instructions
FLUSH ALL WATER LINES PRIOR TO MAKING CONNECTIONS. The Sloan Flushometer is designed to operate with 10 to 100 psi (69 to 689 kPa) of water pressure.
[83]
https://www.cooneybrothers.com/resources/roller/manual-sloan-flushometer-troubleshooting-guide
[84]
ada flush valve | Plumbing Zone - Professional Plumbers Forum
Mar 26, 2011 · Most of the ADA flushometer valves I install are 28-1/2" from finished floor to the center of the flushometers stop, which is essentially the same height as ...
[85]
Expert Answers on Sloan Flush Valves, Installation Costs, and More
Jul 31, 2014 · A standard Sloan flush valve costs about $190. Replacement takes 1 hour, new install 1.5-2 hours. Replacement involves removing old valve and ...
[86]
How Much Does Toilet Installation Cost? [2025 Data] | Angi
Rating 5.0 · Review by Calla Y.Jun 13, 2025 · With average costs for toilet installation ranging from $224 to $533, most people around the country are paying $374 for toilet installation costs.
[87]
Sloan Maintenance Schedule - Equiparts
Aug 28, 2017 · In this article, we will take you inside a Diaphragm Type Sloan Manual Flushometer to show you its various parts, and explain what those parts do.Missing: lifespan interval
[88]
[PDF] royal® and regal® xl concealed closet and urinal installations
Sloan Royal and Regal XL Flushometers are designed to operate with 15 to 80 psi (103 to 552 kPa) of water pressure. THE MINIMUM PRESSURE. REQUIRED TO THE ...<|control11|><|separator|>
[89]
Flushometer Preventative Maintenance - Sloan Valve
The brass parts of a flushometer can last for decades, but that doesn't mean that the internal parts don't need some maintenance along the way. Rather than ...
[90]
[PDF] Mach™ Flushometer Maintenance Guide - Kohler
Maintenance schedule should be adjusted to 6/12 month checks if any of the indicators below are experienced: • Discolored components (ex: Red, orange, white ...Missing: intervals | Show results with:intervals
[91]
https://sloanrepair.com/blogs/blog/9-flush-valve-troubleshooting-tips
[92]
Flushometer Basic Maintenance - Using the Right Tools - YouTube
Dec 19, 2019 · ... with Compression Valves. Silver Cymbal•299K views · 8:38 · Go to channel · How Does a Toilet Fill Valve REALLY Work? Mind-Blowing Mechanics ...
[93]
Troubleshooting Sloan Flush Valves - Plumbing Supply
Solution: Disassemble the working parts and wash thoroughly. NOTE: Size of orifice in the by-pass is of utmost importance for proper metering of water into the ...
[94]
Commercial Toilet Replacement: GPF Levels & Lifespan FAQ
Nov 26, 2013 · Flushometer toilets typically last 15–20 years with proper maintenance. Common issues include worn diaphragm seals and valve corrosion ...