The Asse 1022 Dual Check Valve is a compact, code-aware solution for potable water backflow protection. It helps prevent contaminants and corrosive substances, such as carbonic acid, from entering drinking water. Using an approved device helps preserve potable supplies while supporting compliance with local and national plumbing requirements.
Asse 1022 Dual Check Valve
Manufacturers such as Watts produce backflow preventers that meet ASSE performance requirements and certifications. Depending on the model and application, approvals may include NSF/ANSI 61, UL, FM, or similar third-party listings. These credentials help confirm that materials will not leach harmful substances and that assemblies can withstand pressure and stress. Although some authorities require higher-protection assemblies, an Asse 1022 device may be a reliable low-hazard option where the local authority permits it.
The Asse 1022 Dual Check Valve is valued for its small footprint, simple installation, and low maintenance costs. This guide explains how Asse 1022 devices compare with higher-protection standards such as Asse 1013. It also covers how to select, install, and maintain units to stay compliant with plumbing codes and industry recommendations.
Understanding Backflow And How Dual Check Valves Help
Backflow is a significant threat to water systems because it allows treated water to move backward. That backward flow may carry contaminants into potable lines and reduce the safety of drinking water. Water authorities and adopted plumbing codes require backflow protection to help prevent this kind of contamination.
Backflow usually happens because of one of two hydraulic conditions. Backsiphonage occurs when supply pressure falls, creating suction that can draw water in reverse. Backpressure occurs when pressure on the downstream side becomes greater than supply pressure and pushes water backward. Knowing the difference between backsiphonage and backpressure matters because each condition can call for a different type of protection.
Residential cross-connections often involve irrigation systems, garden hoses, boilers, and chemical injectors. Commercial settings add booster pumps, closed-loop HVAC systems, and process equipment. Without the right device, these connections may become pathways for pollutants or unwanted substances.
Dual check valves such as the Asse 1022 are intended for non-health-hazard backflow protection. They are used where reverse flow might affect taste, odor, or water quality without creating a direct health hazard. An Asse 1022 Backflow Preventer can be a compact solution for approved low-hazard applications described by plumbing codes and water authorities.
Correct selection and installation depend on the applicable codes, listings, and standards. ASSE performance requirements and ANSI-accredited development support product acceptance. Installers should follow local plumbing-code language and relevant guidance, such as the 2018 UPC and AWWA M-14, when applying Asse 1022 devices.
Typical approved uses include residential irrigation, HVAC makeup lines, and some commercial low-hazard cross-connections. Where hazards are higher, more protective devices are required.
| Backflow Issue | Typical Cause | Recommended Protection |
|---|---|---|
| Backflow caused by suction | Main pressure loss from firefighting, broken lines, or supply interruption | Approved Asse 1022 device where allowed, or an air gap for stricter protection |
| Backflow caused by pressure imbalance | Booster pumps, elevated tanks, or thermal expansion | Asse 1022 where low-hazard is approved, or RPZ where health hazards exist |
| Drinking-water contamination risk | Fertilizers, boiler chemicals, cleaning agents, or process liquids | Evaluate the cross-connection and install the approved protection level |
What Is Backflow And How It Occurs
Backflow means water moves in reverse from a fixture, device, or private system toward the public supply. It may be caused by negative supply pressure, backsiphonage, or excess downstream pressure. Either condition can allow contaminants to enter potable lines and threaten drinking-water quality.
Why Dual Check Valves Are Used For Low-Hazard Protection
A dual check valve uses two separate check mechanisms inside a single valve body. This redundancy protects low-hazard cross-connections against reverse flow. Asse 1022 devices meet performance criteria for nuisance-level risks and are common where codes allow double-check assemblies.
Asse 1022 Dual Check Valve Overview
The Asse 1022 Dual Check Valve is a compact backflow device designed for low-hazard potable water protection. It features two independent, spring-loaded check valves in series. This arrangement prevents reverse flow and provides redundant sealing. It maintains serviceability and reduces contamination risk during pressure shifts or brief backpressure events.
Key Features And How The Valve Works
Spring-loaded check mechanisms help the valve close positively when flow or pressure changes. Many models include serviceable internal parts and replaceable seats. That design can shorten maintenance time and reduce long-term ownership costs.
Manufacturers offer units in several materials, including bronze, brass, corrosion-resistant metals, and engineered plastics. Sizes match standard pipe diameters and pressure ratings for municipal and commercial potable-water systems.
Built-in test ports and compact bodies support quick installation and routine inspection. The Asse 1022 Backflow Preventer fits tight spaces where larger assemblies cannot. Properly sized models can meet flow demands for common low-hazard applications.
Standards And Certifications Supporting ASSE 1022 Devices
ASSE standards establish baseline performance tests and functional thresholds. These tests verify reliable operation. Many products exceed these minimums, reducing failure risk and extending maintenance intervals.
NSF/ANSI 61 certification helps confirm that wetted materials are suitable for drinking water and do not leach harmful contaminants. UL/FM approvals validate durability and performance under pressure and stress testing. This gives specifying engineers additional assurance.
Together with ANSI-accredited standards development, these approvals can improve acceptance of an Asse 1022 Dual Check Valve in specifications and code reviews. For teams that need verified material safety and tested performance, ASSE 1022 compliance, NSF/ANSI 61 certification, and UL/FM marks can form a strong compliance package.
Comparison With Related Standards And Products: ASSE 1013, ASSE 1012, ASSE 1024
This section compares common backflow-protection options so the device can be matched to the hazard level and code requirement. It highlights practical differences between RPZ, double-check, and other dual-check devices used in the United States.
When choosing a device, begin with the hazard level. ASSE 1022 double-check assemblies suit low-hazard services such as irrigation and some HVAC makeup lines. In contrast, Asse 1013 RPZ devices are intended for high-hazard cross-connections where contamination could threaten health. Asse 1024 applies to reduced-pressure principle devices used where severe contamination risk may exist. Asse 1012 may apply when local rules call for specific dual-check devices or service-line configurations.
ASSE 1022 Versus ASSE 1013 And ASSE 1024
ASSE 1022 double-check devices rely on two check valves, and where applicable shutoff valves, to control backflow in low-hazard uses. ASSE 1013 RPZ devices include a relief valve that vents to atmosphere when internal pressure drops, providing a higher safety margin. Asse 1024 reduced-pressure principle devices use the same relief concept but apply to a broader set of severe contamination risks.
Testing frequency and complexity differ between these products. RPZ units under Asse 1013 require more rigorous annual and post-event testing with relief valve verification. ASSE 1022 double-check devices require periodic testing of the check mechanisms, generally with simpler procedures than RPZ assemblies.
When ASSE 1012 And Other Dual-Check Standards Apply
Asse 1012 covers requirements for selected dual-check configurations used in low- or moderate-hazard applications. Choose this standard when local code or the water authority allows a dual-check format but requires a recognized standard beyond ASSE 1022.
Codes vary by jurisdiction. Many municipalities that follow the 2018 UPC require ASSE 1013 RPZ assemblies for high-hazard cross-connections. Utilities may accept ASSE 1022 in low-hazard cases or require Asse 1012-certified dual-check devices for certain service lines. Always confirm requirements with the local water authority before installation.
| Feature | ASSE 1022 Device | Asse 1013 (RPZ) | Asse 1024 | Asse 1012 |
|---|---|---|---|---|
| Primary use | Low-hazard irrigation and selected HVAC makeup lines | Health-hazard cross-connections requiring RPZ protection | Severe contamination risks requiring reduced-pressure principle | Certain service-line dual-check applications |
| Relative protection | Low | Higher protection level | High hazard | Low to moderate |
| Relief feature | No relief valve | Includes atmospheric relief valve | Yes, required | Usually no relief valve unless required |
| Inspection requirement | Routine check-mechanism verification | Annual and post-event testing with relief verification | Annual testing and relief checks | Testing as required by the water authority |
| Common applications | Residential irrigation and selected HVAC makeup lines | Boiler makeup, chemical feed, and health-hazard connections | Reduced-pressure protection for severe hazard sources | Service lines where dual-check is sufficient and allowed |
| Common code treatment | Often allowed for low-hazard applications | Often required where contamination could affect health | Required for serious contamination threats | Applied when the authority requires this dual-check standard |
When comparing ASSE 1022 with RPZ assemblies, consider the hazard level, safety margin, and testing burden. The choice between RPZ and double-check protection depends on hazard classification, local plumbing code, and water authority rules. When in doubt, choose the higher protection level specified by the authority having jurisdiction.
Installing, Maintaining, And Staying Code-Compliant
Proper Asse 1022 installation begins with thorough planning. Dual check valves should be installed where they are accessible and oriented according to the manufacturer’s instructions. Maintain enough space for service, testing ports, and unions. This lets certified testers access fittings without unnecessary disassembly.
Follow good piping practices to avoid introducing new hazards. Do not place the device where downstream cross-connections can bypass or undermine the protection. Install shutoffs, unions, drains, and service fittings as required by the manufacturer and local code. Keep unions and test cocks accessible for inspections, service work, and backflow testing.
Maintenance intervals are usually determined by local regulations, water authority rules, and site requirements. Many jurisdictions require annual inspection or testing by certified backflow professionals. Clear records of service, repairs, and test results help demonstrate compliance during audits, inspections, and permit reviews.
Certified testers provide documented evidence that satisfies most regulatory requirements. AWWA M-14 can be used as a reference for inspection, maintenance, and backflow-prevention practices. Following these guidelines can reduce downtime and detect wear before leaks or failures occur.
Choose devices with recognized listings to simplify approval. Products with ASSE approvals and NSF/ANSI 61 installation ratings are often accepted more readily by plumbing inspectors. UL/FM compliance may also be important for commercial, industrial, or fire-protection connections that require third-party recognition.
Before starting, identify the applicable plumbing code edition and local water authority requirements. Certain jurisdictions may require an RPZ rather than a dual check valve. Confirm permitting requirements and verify that the selected Asse 1022 installation meets local standards before work begins.
Establish a consistent record-keeping routine. Store manufacturer cut sheets, test certificates, and repair invoices with a map of the device location. This makes future inspections easier and supports clear compliance during regulatory reviews.
Where To Buy And How To Select The Right Product
Choosing the right device means matching size, pressure rating, and materials to the plumbing system. Confirm that the Asse 1022 Dual Check Valve matches the pipe diameter and peak-flow requirement. Also compare pressure ratings with maximum working pressure and expected surge conditions.
Material compatibility is essential for potable water systems. Use brass, bronze, or NSF/ANSI 61-certified plastics to reduce corrosion risk and avoid harmful leaching. Review the manufacturer’s chemical-resistance data for local water chemistry.
Verifying certifications can make approval and inspection easier. Make sure the product shows ASSE 1022 compliance and NSF/ANSI 61 certification where required. If the local authority requires UL or FM approvals, verify those markings before buying.
Consider supplier reputation when buying ASSE 1022 devices. Authorized dealers can provide genuine products, documentation, and warranty assistance. Installation Parts Supply is a reputable distributor that stocks certified units and can help with model selection.
Warranty terms and pricing policies affect final cost. Review manufacturer warranty limits and any MAP rules that hide prices online. Some suppliers show final pricing only in the cart while still preserving warranty coverage through authorized sales channels.
How To Choose Materials
- Select an Asse 1022 Dual Check Valve model that matches pipe size, flow rate, and installation layout.
- Prefer components with NSF/ANSI 61 certification for potable systems.
- Verify pressure rating and surge tolerance for the Asse 1022 Backflow Preventer.
Reliable Supplier Tips
- Buy from certified dealers to ensure inspection documentation.
- Choose vendors that offer sizing support and warranty handling.
- Installation Parts Supply commonly offers certified stock and practical model-selection guidance.
| Selection Point | What to Check | Reason It Matters |
|---|---|---|
| Sizing and flow demand | Pipe size, peak GPM, and manufacturer sizing chart | Prevents pressure loss and ensures proper operation |
| Body and wetted material | Approved metals or certified plastics for potable water | Protects potable water quality and resists corrosion |
| Pressure and surge capacity | Rated operating pressure plus expected surge tolerance | Reduces risk of damage during pressure changes |
| Certifications | ASSE listing, NSF/ANSI 61, and UL/FM marks where needed | Simplifies permitting and meets code requirements |
| Source of purchase | Dealer authorization, paperwork, and warranty support | Reduces risk of counterfeit parts and improves after-sale support |
| Warranty and final cost | Manufacturer warranty details, MAP pricing policies | Protects investment and clarifies purchase cost |
Summary
ASSE 1022 double-check valves are dependable, space-saving choices for low-risk backflow prevention where local authorities allow them. The Asse 1022 Dual Check Valve uses two spring-loaded checks and materials that meet NSF/ANSI 61 and ASSE standards. This helps reduce contamination risk in approved uses such as irrigation systems and certain HVAC makeup lines.
Choosing the right device depends on hazard level and code compliance. An Asse 1022 Backflow Preventer is appropriate for low-hazard scenarios where it is allowed. For high-hazard protection, use ASSE 1013, ASSE 1024, or reduced-pressure assemblies. Proper selection streamlines permitting and improves water-system safety.
For backflow-prevention compliance, follow manufacturer instructions and local plumbing-code requirements. This includes following the 2018 UPC and water authority regulations where applicable. Buy certified products from trusted suppliers or authorized dealers. Verify ASSE, NSF/ANSI 61, and UL or FM listings for approvals and reliability.
Correct device selection, precise installation, and regular maintenance are essential. These steps, supported by certified devices and qualified testers, help safeguard potable water. They also support regulatory acceptance. Following these practices helps the Asse 1022 Dual Check Valve or other backflow solutions perform reliably.