PVI Industries SU-3 manual Inlet Pressure, Nat. Gas

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6.2Gas Control Trains - All models include gas control trains with the following components: main manual shutoff valve, two safety shutoff valves and pressure regulator. These components may be separate or two or more may be combined in a common housing.

Caution: Do not adjust or remove any screws or bolts on gas train control components which are sealed with a red or blue colored compound. Doing so will void all approvals and warranties.

6.3Inlet Pressure - Measure at the inlet pressure at the inlet pressure tap located on the upstream side (side away from burner) on the top of the combination gas valve. The inlet pressure must remain within the minimum and maximum values while the unit is at rest and while the unit is operating at maximum firing rate.

INLET PRESSURE

Maximum Static Pressure (Inches-Water Column) Minimum Flow Pressure (Inches-Water Column)

NAT. GAS

10.5" (2.62 kPa) 4.5" (1.21 kPa)

LP

13" (3.24 kPa) 8" (1.99 kPa)

6.4Manifold Pressure - Measure the manifold pressure at the manifold pressure tap located on top of the silver elbow attached to the burner head. The rated manifold pressure appears on the burner data label located on side of the burner control panel and is duplicated on the decal located near the front of the water heater.

6.5Gas Service and Pipe Capacity - Before connecting the burner to the gas supply, insure that the gas pipes and service meter are large enough to permit the additional load of the gas burner. (See Pipe Capacity Table)

Pipe Capacity for Natural Gas Table*(x 1,000 Btu/h’s)

Nominal diameter of pipe in inches

Pipe Length**

1”

1 ¼”

1 ½”

2”

15’

345

750

 

 

30’

241

535

850

 

45’

199

435

700

 

60’

173

380

610

 

75’

155

345

545

 

90’

141

310

490

 

105’

131

285

450

920

120’

120

270

380

850

150’

109

242

300

780

180’

100

225

225

720

*Using 0.6 Specific Gravity Gas and a Pressure Drop of 0.3” of Water Column Multiplier for Propane: 1.57

**Each 900 elbow counts as 3’ for the purpose of these calculations

Pipe Capacity Example:

There is 75 feet of 1¼” pipe from the meter to the burner and there are 5 elbows. (5 elbows X 3’) + 75’ pipe = 15’ + 75’ = 90’ of effective pipe length.

The maximum BTU that can be fired is 310,000 Btu/h. (See Pipe Capacity Table)

6.6Gas Piping to Burner

All Piping Must Conform To Local Codes. Use black steel pipe and malleable iron fittings (do not use cast iron parts) with a suitable pipe dope which is resistant to liquefied petroleum gases.

Safe operation of unit requires adequate gas supply with the required static and dynamic (flow) pressures. Actual piping selection depends on many variables that must be carefully considered by the gas piping system designer.

Do not select gas pipe sizes based only on the supplied tables. These tables are for use by the gas piping system designer as a reference in checking pipe size selections.

The required gas pipe size may be larger than pipe connection size to the burner.

It is advisable to run a separate gas line from the meter to the gas burner to avoid pressure drops.

Installation of a union is suggested for ease of service.

Install a manual main gas shutoff valve, as specified by Code, approximately 6 feet (1.8 m) away from unit.

A sediment trap (drip leg) MUST be provided in the inlet of the gas connection to the unit.

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PV500-56 06/12

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Contents Installation & Maintenance Manual Table of Contents For Your Safety Safety ConsiderationsCodes Electrical Specifications All Air From Outdoors Combustion and Ventilation AIRGAS Supply and Piping VentingNAT. GAS Inlet PressureGas Burner Piping Electrode and Flame Sensor Positioning Burner OperationSU3 Gas Manifold Burner Setup and AdjustmentCommissioning Checklist PV500-56 06/12 Maintenance Instructions Condition Solutions TroubleshootingPart Materials ListPV500-56 06/12