OX-SPEC-02
TypicalSpecificationfor Lochinvar®AQUASOutdoor Rated Pool Heater Package
Models399,000–800,000Btu/Hr
The AQUAS POOL PACKAGE shall be a LOCHINVAR outdoor ratedModel OX (N, L) _______having a modulating input rating of ______Btu/Hr, an output of ______Btu/Hr and shall be operated on (Natural Gas) (L.P. Gas).
The package system shall be made of aBOILER plant with a Shell and Tube POOL HEAT EXCHANGER. The design of the system shall be such that pool water, shall be heated indirectly by the Shell and Tube Heat exchanger andis never directly heated by the boiler plant. TheBOILER and the POOL HEAT EXCHANGERshall be completely factory piped and assembledand shall include a cast iron circulating pump, expansion tank, flow switch, ASME Certified pressure relief valve set for 30psi, automatic fill valve with pressure reducer and a temperature / pressure gauge. The entire package shall be skid mounted,prepiped, assembled, and pressure tested and ready for installation.
The AQUAS POOL PACKAGE shall be as follows:
A high efficiency, condensing BOILER piped to a dedicated POOL HEAT EXCHANGER. The boiler side piping shall be copper pipe with a CIRCULATING PUMP, and appropriate components and fittings for safe and efficiency delivery of indirect, heat transfer to the pool water.
The CIRCULATING PUMP shall be constructed of cast iron and operate on a 120 volt, 60 Hz, 1 phase power supply (unless otherwise specified). The pump shall be factory wired to run with intermittent pump operation The EXPANSION TANK shall be of a bladder type design and shall be sized adequately to allow for the expansion of the boiler water when heated. The FLOW SWITCH shall be of a paddle type design and shall be wired to the internal boiler control safety circuitry so to not allow the boiler to operate when there is not sufficient flow. The AUTOMATIC FILL VALVEWITH PRESSURE REDUCERshall be factory set for 15 psi and shall allow fresh water to be added to the boiler system only when the water pressure has fallen below the pressure setting. The PRESSURE RELIEF VALVE shall be ASME Certified and have a setting of 50 psi. The TEMPERATURE AND PRESSURE GAUGEshall be capable of reading temperature in both degrees Fahrenheit and degrees Celsius.The Pressure units shall be read in pounds per square inch (psi).The entire assembly shall be mounted on a 3” channel iron skid to facilitate handling and installation.
The POOL HEAT EXCHANGER shall be as follows:
The STANDARD CUPRO-NICKEL POOL HEAT EXCHANGER shall be constructed of Cupro-Nickel Tubes in an Aluminum Body with Bronze Headers and CPVC flanged connections. It shall have a working pressure of 87 psi and carry a three (3) year limited warranty. It shall be sized so that heat can be transferred into the pool water with an efficiency of up to 99%.
The OPTIONAL TITANIUM POOL HEAT EXCHANGER shall be constructed of Titanium Tubes in an Aluminum Body with Bronze Headers and CPVC flanged connections. It, it shall have a working pressure of 87 psi and carry a five (5) year limited warranty. It shall be sized so that heat can be transferred into the pool water with an efficiency of up to 99%.
The BOILERshall be as follows:
The BOILER shall bear the ASME "H" stamp for 160 psi working pressure and shall be National Board listed. There shall be no banding material, bolts, gaskets or "O" rings in the header configuration. The 316L stainless steel combustion chamber shall be designed to drain condensation to the bottom of the heat exchanger assembly. A built-in trap shall allow condensation to drain from the heat exchanger assembly. The complete heat exchanger assembly shall carry a ten (10) year limited warranty.
The BOILER shall be certified and listed by C.S.A. International under the latest edition of the harmonized ANSI Z21.13 test standard for the U.S. and Canada. The BOILER shall comply with the energy efficiency requirements of the latest edition of the ASHRAE 90.1 Standard and the minimum efficiency requirements of the latest edition of the BTS2000 Standard. All models shall operate up to 97% thermal efficiency with pool water temperatures below 100°F. The BOILER shall be certified for outdoor installation.
The BOILER shall be constructed with a heavy gauge galvanized jacket assembly, primed and pre-painted on both sides. The combustion chamber shall be sealed and completely enclosed, independent of the outer jacket assembly, so that integrity of the outer jacket does not affect a proper seal. A burner/flame observation port shall be provided. The burner shall be a premix design and constructed of high temperature stainless steel with a woven metal fiber outer covering to provide modulating firing rates. The BOILER shall be supplied with a gas valve designed with negative pressure regulation and be equipped with a variable speed blower system, to precisely control the fuel/air mixture to provide modulating boiler firing rates for maximum efficiency. The BOILERwith 399,000 through 800,000 Btu/hr input shall be capable of full modulation firing down to 20% of rated input with a turndown ratio of 5:1.The BOILERwith 1,000,0000 through 1,500,000 Btu/hr input shall be capable of full modulation firing down to 10% of rated input with a turndown ratio of 10:1. The BOILER shall operate in a safe condition at a de-rated output with gas supply pressures as low as 4 inches of water column.
The BOILERshall utilize a 24 VAC control circuit and components. The control system shall have an electronic display for boiler set-up, boiler status, and boiler diagnostics. All components shall be easily accessed and serviceable from the front and top of the jacket. The BOILERshall be equipped with a temperature/pressure gauge; high limit temperature control with manual reset; ASME certified pressure relief valve set for 30 psi; outlet water temperature sensor; return water temperature sensor; outdoor air sensor, flue temperature sensor; flow switch.
The BOILER with 399,000 thru 800,000 Btu/hr input shall feature the “SMART SYSTEM” control with an LCD display and navigation dial. The BOILER with 1,000,000 thru 1,500,000 Btu/hr input shall feature the “SMART TOUCH” control with an LCDtouch screen display. The BOILER shall have password security, pump delay with freeze protection, pump exercise, domestic hot water prioritization and PC port connection. The BOILER shall allow 0-10 VDC input connection for BMS control and have built-in “Cascade” to sequence and rotate while maintaining modulation of up to eight packages without utilization of an external controller. Supply voltage shall be 120 volt/60 hertz/ single phase.
The BOILER shall be equipped with two terminal strips for electrical connection. A low voltage connection board with 28 data points for safety and operating controls, i.e., Auxiliary Relay, Auxiliary Proving Switch, Manual Reset Low Water Cutoff, Flow Switch, High and Low Gas Pressure switches, Tank Thermostat, Wall Thermostat/Zone Control, System Supply Sensor, Outdoor Sensor, Building Management System signal and Cascade control circuit. A high voltage terminal strip shall be provided for Supply voltage. The high voltage terminal strip plus integral relays are provided for independent pump control of the System pump, the Boiler pump and the Domestic Hot Water pump. The dry pump contacts shall be sized for up to 1.5 hp/120V, 3 hp/240V or 30 amp pumps.
The BOILER shall be installed and vented with a (select one):
(a) Direct VentSidewall system with a horizontal sidewall termination of both the vent and combustion air. The flue shall be PVC, CPVC or Stainless Steel sealed vent material terminating at the sidewall with the manufacturers specified vent termination. A separate pipe shall supply combustion air directly to the BOILERfrom the outside. The air inlet pipe may be PVC, CPVC, ABS, Galvanized, Dryer Vent, or Stainless Steel sealed pipe. The air inlet must terminate on the same sidewall with the manufacturer’s specified air inlet cap. The BOILER’s total combined air intake length shall not exceed 100 equivalent feet. The BOILER’s total combined exhaust venting length shall not exceed 100 equivalent feet. Foam Core pipe is not an approved material for exhaust piping.
(b) Direct Vent Vertical system with a vertical roof top termination of both the vent and combustion air. The flue shall be PVC, CPVC or Stainless Steel sealed vent material terminating at the roof top with the manufacturers specified vent termination. A separate pipe shall supply combustion air directly to the BOILER from the outside. The air inlet pipe may be PVC, CPVC, ABS, Galvanized, Dryer Vent, or Stainless Steel sealed pipe. The air inlet must terminate on the roof top with the manufacturer’s specified air inlet cap. The BOILER’s total combined air intake length shall not exceed 100 equivalent feet. The BOILER’s total combined exhaust venting length shall not exceed 100 equivalent feet. Foam Core pipe is not an approved material for exhaust piping.
(c) Sidewall Vent with Room Air system with a horizontal sidewall termination of the vent with the combustion air drawn from the interior if the building. The flue shall be PVC, CPVC or Stainless Steel sealed vent material terminating at the sidewall with the manufacturers specified vent termination. . The BOILER’s total combined exhaust venting length shall not exceed 100 equivalent feet. Foam Core pipe is not an approved material for exhaust piping.
(d) Vertical Vent with Room Airsystem with a vertical rooftop termination of the vent with the combustion air drawn from the interior of the building. The flue shall be PVC, CPVC or Stainless Steel sealed vent material terminating at the rooftop with the manufacturers specified vent termination. The BOILER’s total combined exhaust venting length shall not exceed 100 equivalent feet. Foam Core pipe is not an approved material for exhaust piping.
(e) Vertical Vent with Sidewall Air system with a vertical rooftop termination of the vent with the combustion air being drawn horizontally from a sidewall. The flue shall be PVC, CPVC, or Stainless Steel sealed vent material terminating at the roof top with the manufacturers specified vent termination. A separate pipe shall supply combustion air directly to the POOL HEATER from the outside. The air inlet may be PVC, CPVC, ABS, Galvanized, Dryer Vent, or Stainless Steel sealed pipe. The air inlet must terminate on a sidewall using the manufacturers specified air inlet cap. The BOILER’s total combined air intake length shall not exceed 100 equivalent feet. The BOILER’s total combined exhaust venting length shall not exceed 100 equivalent feet. Foam Core pipe is not an approved material for exhaust piping.
The BOILER shall have an independent laboratory rating for Oxides of Nitrogen (NOx) of 20 ppm or less corrected to 3% O2. The manufacturer shall verify proper operation of the burner, all controls and the heat exchanger by connection to water and venting for a factory fire test prior to shipping.
The BOILER shall operate at altitudes up to 4,500 feet above sea level without additional parts or adjustments.
The BOILER shall be suitable for use with polypropelene glycol, up to 50% concentration without contingencies.
Maximum unit dimensions shall be: Length ______inches, Width ______inches and Height ______inches. Maximum unit weight shall be______pounds.
The Firing Control System shall be ______(Options Below).
M9Direct Spark Ignition with Electronic Supervision (Standard)
M13GE GAP (FM/IRI/CSD-1) (XP 500-800)
OPTIONAL CONSTRUCTION CODES
The BOILER shall be constructed in accordance with ______requirements. (Options Below)
M7California Code
MAMassachusetts Code
Note: Due to the large discrepancy in CSD-1 requirements from state to state, please confirm to the factory all controls required in your jurisdiction.
03/15 – Printed in U.S.A.