The Asse 1022 Dual Check Valve is a space-saving, code-aware solution for potable water backflow protection. It is designed to block reverse flow that could carry contaminants, corrosive substances, or carbonic acid into drinking-water lines. Using an approved device helps protect potable supplies while supporting compliance with local and national plumbing requirements.
Asse 1013
Manufacturers such as Watts produce backflow preventers that meet ASSE performance requirements and certifications. These may include NSF/ANSI 61 and UL/FM approvals. Those credentials help verify material safety, pressure durability, and overall assembly performance. Although some authorities require higher-protection assemblies, an Asse 1022 device may be a suitable low-hazard option where the local authority permits it.
The Asse 1022 Dual Check Valve is often chosen because it is compact. 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 The Role Of Dual Check Valves
Backflow creates a important risk because water can reverse direction inside a plumbing system. That backward flow may carry contaminants into potable lines and reduce the safety of drinking water. Local water authorities and adopted codes require measures that prevent this 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 happens when downstream pressure exceeds supply pressure and forces water in the wrong direction. 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 proper protection, these connections can become sources of pollutants.
Dual check valves, including the Asse 1022 model, are designed for low-hazard 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, together with ANSI-accredited standards development, help support product acceptance. Installers must follow local plumbing code language, including references such as the 2018 UPC and AWWA M-14, when installing Asse 1022 devices.
Common approved uses may include residential irrigation, HVAC makeup water, and selected commercial low-hazard cross-connections. When the hazard level is higher, authorities typically require a more protective assembly.
| Issue | Cause | Suggested Protection |
|---|---|---|
| Reverse flow from suction | Supply pressure drop from mains, firefighting, or line breaks | Approved Asse 1022 device where allowed, or an air gap for stricter protection |
| Reverse flow from downstream pressure | Downstream pressure from pumps, tanks, or thermal expansion | Dual check protection for low risk, or reduced-pressure protection for high risk |
| Risk to potable water quality | Chemical injection, treated boiler water, irrigation additives, or industrial fluids | Assess hazard level; apply Asse 1022 or higher-rated device |
What Is Backflow And How It Occurs
Backflow is the backward movement of water from any source into the public supply. It can be caused by negative pressure or excessive downstream pressure. Both conditions can introduce contaminants and threaten potable water quality.
Why Low-Hazard Systems Use Dual Check Valves
Dual check valves provide two independent check mechanisms in one body. That built-in redundancy helps protect low-hazard cross-connections from reverse flow. Asse 1022 devices are tested for low-hazard or nuisance-level risks and are commonly used where the authority allows this type of protection.
Understanding The Asse 1022 Dual Check Valve
An Asse 1022 Dual Check Valve is a compact backflow prevention device used for low-hazard potable-water applications. It uses two independent spring-loaded checks arranged in series. That arrangement helps stop reverse flow and gives the device a second sealing point. It also supports serviceability while reducing contamination risk during pressure changes, brief backpressure events, or short disruptions.
Key Features And How The Valve Works
Spring-loaded checks provide positive closure under changing flow and pressure. Many models include serviceable internal parts and replaceable seats. This design reduces maintenance time and lifecycle costs.
Manufacturers produce Asse 1022 units in materials such as bronze, brass, corrosion-resistant alloys, and engineered plastics. Available sizes are designed to match common pipe diameters, pressure ratings, and potable-water system requirements.
Built-in test ports and compact bodies support quick installation and routine inspection. An Asse 1022 Backflow Preventer can fit into tight locations where larger backflow assemblies may not be practical. It meets flow requirements for typical 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 confirms materials are safe for drinking water and helps prevent harmful contaminant leaching. UL/FM approvals can support confidence in durability, pressure resistance, and stress-tested performance. 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.
Comparing Related Standards And Products: ASSE 1013, ASSE 1012, And ASSE 1024
This section compares common backflow-protection options so the device can be matched to the hazard level and code requirement. It explains practical differences among RPZ assemblies, double-check devices, and other dual-check products used in U.S. plumbing systems.
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. Use Asse 1012 standards when specifying certain dual-check products or service-line applications.
How ASSE 1022 Differs From ASSE 1013 And ASSE 1024
ASSE 1022 double-check assemblies use two check valves and shutoff valves to prevent backflow in low-hazard situations. ASSE 1013 RPZ assemblies add a relief valve that vents to atmosphere under certain pressure conditions, creating a higher protection margin. Asse 1024 reduced-pressure principle devices use the same relief concept but apply to a broader set of severe contamination risks.
Testing requirements and procedure complexity vary by device type. Asse 1013 RPZ units commonly require annual testing, post-event checks, and 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 Or Other Dual-Check Standards Apply
Asse 1012 covers requirements for selected dual-check configurations used in low- or moderate-hazard applications. Use this category when local code or the water authority accepts a dual-check style but specifies a different 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. Before installation, confirm the required protection level with the local water authority or authority having jurisdiction.
| Comparison Point | ASSE 1022 Device | Asse 1013 Reduced Pressure Zone | Asse 1024 Reduced Pressure Principle | Asse 1012 |
|---|---|---|---|---|
| Typical use | Low-hazard services like irrigation and some HVAC | High-risk contamination protection | Serious contamination threats requiring reduced-pressure protection | Certain service-line dual-check applications |
| Relative protection | Lower protection level | High hazard | High | Low to moderate |
| Relief feature | No | Required relief valve | Includes reduced-pressure relief valve | No, unless specified |
| Typical testing | Routine check-mechanism verification | More rigorous annual RPZ testing | Regular testing with relief-valve checks | Inspection frequency set by local requirements |
| Usual installations | Irrigation and makeup water for noncritical HVAC | Boiler makeup, chemical feed, and health-hazard connections | Severe contamination sources where health impact is possible | Service lines where dual-check is sufficient and allowed |
| Common code treatment | Accepted in many low-hazard cases | Mandated for high-hazard by many water authorities | Specified for severe hazard protection | Used when specified by local code or utility |
For an ASSE 1022 comparison with RPZ units, consider both safety margin and testing needs. The choice between RPZ and double-check protection depends on hazard classification, local plumbing code, and water authority rules. If requirements are uncertain, follow the higher protection level required by the authority having jurisdiction.
Installing, Maintaining, And Staying Code-Compliant
Proper Asse 1022 installation begins with thorough planning. Place dual check valves in an easily accessible area and follow the manufacturer’s orientation guidelines. Maintain enough space for service, testing ports, and unions. That clearance allows certified testers or service technicians to reach fittings without unnecessary disassembly.
Use sound piping practices so the installation does not create a new cross-connection risk. 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. Make sure unions and test cocks remain accessible for routine service and backflow testing.
Maintenance schedules are set by local regulations and water authority directives. 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 can provide documentation that meets many regulatory and water-authority requirements. Refer to AWWA M-14 for recommended inspection and maintenance 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 certifications are often easier for inspectors to accept. UL/FM compliance also matters for commercial and fire-protection connections where third-party recognition is important.
Before starting, identify the applicable plumbing code edition and local water authority requirements. Some locations may require an RPZ instead of a dual check. Confirm the permit process and make sure the chosen Asse 1022 installation meets local standards to avoid delays and rework.
Create a consistent record-keeping process for the device. Keep manufacturer cut sheets, test certificates, repair invoices, and a location map together. This simplifies future inspections and supports transparent compliance during regulatory reviews.
Where To Buy And How To Select The Right Product
Selecting the right device requires matching pipe size, pressure rating, material, and system demand. 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 a key consideration in potable-water systems. Choose brass, bronze, or NSF/ANSI 61-certified plastics to avoid corrosion or leaching. Review the manufacturer’s chemical-resistance data for local water chemistry.
Certification checks simplify approval and inspection. Confirm that the product lists ASSE 1022 compliance and NSF/ANSI 61 certification. If the local authority requires UL or FM approvals, verify those markings before buying.
Supplier reputation matters when purchasing an ASSE 1022 device. Authorized dealers provide genuine parts, documentation, and warranty support. 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.
Material Selection Tips
- Match pipe size and flow to the Asse 1022 Dual Check Valve model.
- Prefer components with NSF/ANSI 61 certification for potable systems.
- Check the Asse 1022 Backflow Preventer pressure rating and surge tolerance before installation.
How To Choose A Supplier
- Purchase from certified or authorized dealers so documentation is available for inspections.
- Choose vendors that offer sizing support and warranty handling.
- Installation Parts Supply commonly offers certified stock and practical model-selection guidance.
| Selection Factor | Details to Confirm | Why It Matters |
|---|---|---|
| Sizing and flow demand | Pipe diameter, GPM requirements, model sizing chart | Ensures the device can handle demand without unnecessary restriction |
| Material compatibility | Brass, bronze, or NSF/ANSI 61-certified plastics | Protects potable water quality and resists corrosion |
| Pressure and surge capacity | Manufacturer pressure limits and site surge conditions | 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 |
| Supplier | Authorized dealer, documentation, warranty handling | Reduces risk of counterfeit parts and improves after-sale support |
| Warranty & Pricing | Warranty terms, authorized-sale rules, and final cart price | Prevents surprises and supports long-term ownership |
Final Thoughts
ASSE 1022 double-check valves can be space-saving solutions for low-risk backflow prevention when approved by the local authority. 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 risks in irrigation and some HVAC makeup lines.
Correct device selection depends on hazard classification, code requirements, and water-authority approval. Use an Asse 1022 Backflow Preventer for low-hazard scenarios. For high-hazard applications, authorities may require ASSE 1013, ASSE 1024, or another reduced-pressure assembly. Proper selection streamlines permitting and improves water-system safety.
For backflow-prevention compliance, follow manufacturer instructions and local plumbing-code requirements. Where applicable, this may include the 2018 UPC, local amendments, and water authority rules. 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. When supported by certified devices and qualified testers, these steps help protect potable water. They also support regulatory acceptance. Following these practices helps the Asse 1022 Dual Check Valve or other backflow solutions perform reliably.