Raypak 1005 operating instructions Appendix, Inside Air Contamination, As Required

Page 53

4.Conduct a combustion test at full fire. Carbon diox- ide should be 8.5 to 9.0% at full fire for natural gas, and between 9.5 to 10.0% for propane gas. Carbon monoxide should be < 100 ppm.

5.Check valve coil for 60 cycle hum or buzz. Check for leaks at all valve fittings using a soapy water solution (while heater is operating). Test other operating parts of all safety shut-off and control valves and increase or decrease settings (depending on the type of control) until the safety circuit opens. Reset to original setting after each device is tested.

6.Perform leakage test on gas valves (See Fig. 54).

7.Test air switch in accordance with manufacturer’s instructions. (Turn panel switch to the “On” posi- tion until blower is proven, then turn the switch to “Off.”

8.Inspect and clean burner using shop air.

9.Reset fault history after any testing.

As Required

1. Recondition or replace low water cut-off device (if equipped).

2. Check drip leg and gas strainers.

3. Check flame failure detection system. (See “Post Start-Up Check,” page 48.)

4. Check igniter. (Resistance reading should be 42-

70 ohms at ambient temperature).

5. Check flame signal strength. (Flame signal should be greater than 1 microampere as measured at the 2 pins on the upper left corner of the ignition control).

6. Check firing rate control by checking the manifold pressure. (See “Manifold Check” on page 46.)

7. Test safety/safety relief valve(s) in accordance with ASME Heater and Pressure Vessel Code Section IV and Section VIII as applicable.

APPENDIX

Inside Air Contamination

All heaters experience some condensation during

start-up. The condensate from flue gas is acidic. Combustion air can be contaminated by certain vapors in the air which raise the acidity of the condensate. Higher acidity levels attack many materials including stainless steel, which is commonly used in high effi- ciency systems. The heater can be supplied with corrosion-resistant, non-metallic intake air vent materi- al. You may, however, choose to use outside combustion air for one or more of these reasons:

1.Installation is in an area containing contaminants listed below which will induce acidic condensation.

2.You want to reduce infiltration into your building through openings around windows and doors.

3.You are using AL29-4C stainless steel vent pipe, which is more corrosion-resistant than standard metallic vent pipe. In extremely contaminated ar- eas, this may also experience deterioration.

Products causing contaminated combustion air:

• spray cans containing chloro/fluorocarbons

• permanent wave solutions

• chlorinated waxes/cleaners

chlorine-based swimming pool chemicals

• calcium chloride used for thawing

• sodium chloride used for water softening

• refrigerant leaks

• paint or varnish removers

• hydrochloric acid/muriatic acid

• cements and glues

• antistatic fabric softeners used in clothes dryers

chloride-type bleaches, detergents, and cleaning solvents found in household laundry rooms

• adhesives used to fasten building products

• similar products

Areas where contaminated combustion air commonly exists:

• dry cleaning/laundry areas

• metal fabrication plants

• beauty shops

• refrigeration repair shops

• photo processing plants

• auto body shops

• plastic manufacturing plants

• furniture refinishing areas and establishments

• new building construction

• remodeling areas

• open pit skimmers

Check for areas and products listed above before in- stalling heater. If found:

• remove products permanently, OR

• install TruSeal direct vent.

53

Page 52 Page 54
Image 53
Page 52 Page 54
Contents Installation & Operating Instructions Page Contents Pay Attention to These Terms Installations at Elevation Before InstallationProduct Receipt Model IdentificationGeneral Information Component LocationsGas Vent Size Conn Input Max MinWater Time to Produce Serious Temp Burn General SafetyTime/Temperature Relationships in Scalds Installation Codes InstallationIndoor Installations Equipment BaseCombustion and Ventilation Air Outdoor InstallationsIndoor Units Heater Min. Clearance Minimum From CombustibleTable E Vent/Air Inlet Termination Clearances Direct Vent Combustion Air FilterRemove the Debris Screen TruSeal Combustion AirCanadian Installations InstallationsConventional Combustion Air Supply All Air from Inside the BuildingTemperature & Pressure Gauge Relief Valve Installation and PipingWater Piping GeneralHydronic Heating Fitting Type Equivalent Length ft 2 NPT Domestic Hot WaterAutomatic Chlorinators and Chemical Feeders Combined Potable Water and Space HeatingPool Heating Winterizing Your Heater Pool/Spa Water ChemistryWater Hardness Gas SupplyGas Supply Connection Gas Supply Pressure Electrical Power ConnectionsMaking the Electrical Connections Check the Power SourceAppliance Categories Field Wiring ConnectionSupport of Vent Stack Vent Terminal Location InstallationsVenting Configurations Venting Installation TipsCanadian Installations InstallationTotal Effective Combustion Air Air Inlet CertifiedLength Max. Length* ftCommon Venting Model Vent Size Volume Flue ProductsHorizontal Through-the-Wall Venting Horizontal Through-the-Wall and Direct Venting CategoryDirect Vent Vertical Direct Vent-VerticalOutdoor Venting Outdoor InstallationPVC vent assembly instructions CleaningFreeze Protection PVC Venting OptionPVC Vent Adapter Controls Termination using Adapter ThimbleDifferential Graph Operating ModesBoil Target 78F Boil Max 86F Boil Min 70F ‘Burner’ Delay 10 VDC 20 mA Boiler Target Modes Default Setting Range10 VDC 20 mA Definitions Rank Number Field Type Fault DescriptionOperation Ignition Module Heater Sequence of OperationHigh Limit-Auto Reset Optional High Limit-Manual ResetFlow Switch Code ConditionLow Water Cut-Off Optional Modulating Temperature ControlHigh & Low Gas Pressure Switches Optional UDB Diagnostic Board Air Pressure SwitchBlocked Vent Switch Condensate Float SwitchWiring Diagrams Models 1005 Model Pre Start-up Check START-UPPre Start-up Preparation Initial Start-upStart-Up Required toolsModel No Amp Draw Setting Model No Net Blower Suction Setting In. WCBlower Check Manifold CheckLeak Test Procedure Dual-Seat Gas Valve Safety InspectionFinishing Follow-UpGAS Post Start-Up CheckTo Turn Off Gas To Appliance OperationLighting Instructions Step TroubleshootingSuggested Minimum Maintenance Schedule MaintenanceUDB Fault History Periodically Preventive Maintenance ScheduleWeekly Semi-AnnuallyAs Required AppendixInside Air Contamination Important Instructions for the Commonwealth of Massachusetts Models Limited Parts Warranty Xtherm Types H and WHLimited Parts Warranty Xtherm Types WHP START-UP Checklist for FAN-ASSISTED Raypak Products Page
Related manuals
Manual 12 pages 19.26 Kb

1005 specifications

Raypak is a prominent name in the heating industry, known for its innovative and efficient heating solutions for residential and commercial applications. The models 2005, 1005, and 1505 are notable offerings from Raypak, each designed to provide reliable performance, energy efficiency, and user-friendly operation.

The Raypak 2005 model stands out for its robust construction and high efficiency. It utilizes advanced technology to ensure consistent heating and reliability. With a high-capacity output, the 2005 is ideal for larger pools and spa applications, efficiently maintaining desired temperatures even during colder months. Its digital control system allows for precise temperature settings, enabling users to customize their heating needs effectively.

The 1005 model is an excellent choice for medium-sized pools and spas, offering a perfect balance of power and energy efficiency. One of its key features is the ability to operate quietly, making it suitable for residential areas where noise can be a concern. The 1005 employs a reliable gas burning system that maximizes fuel efficiency and provides fast heating. Its compact design also makes it easy to install, saving space while delivering exceptional performance.

The Raypak 1505 model is designed for versatility, catering to a wide range of heating requirements. One of its standout characteristics is its corrosion-resistant heat exchanger, which ensures long-lasting performance even in harsh environments. The 1505 also incorporates a user-friendly digital interface, allowing for easy operation and monitoring of temperature settings. It supports both natural gas and propane, providing flexibility to users based on their energy source preferences.

All three models—the 2005, 1005, and 1505—benefit from Raypak's commitment to energy efficiency. They are designed to meet stringent environmental standards while minimizing operational costs for the user. Additionally, their reliable safety features, such as pressure switches and safety valves, ensure safe operation across various conditions.

In summary, Raypak's 2005, 1005, and 1505 models exhibit a combination of efficiency, durability, and user-friendliness. With their advanced technologies and adaptable designs, these heaters are suitable for a wide array of heating applications, providing users with reliable solutions for their heating needs. Whether for residential or commercial use, Raypak's commitment to quality and innovation makes these models excellent choices for anyone seeking dependable heating solutions.
Top Page Image Contents