Trane BCHC, BCVC Duct Connections, Recommended drain trap installation for draw-through units

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Installation Mechanical

Plug or trap the auxiliary connection to prevent air from being drawn in and causing carryover (see Figure 8).

Figure 8. Recommended drain trap installation for draw-through units

‘

H = 1” of length for each 1” of negative pressure + 1”additional

J = 1/2 of H

L = H + J + pipe diameter + insulation

All drain lines downstream of the trap must flow continuously downhill. If segments of the line are routed uphill, this can cause the drain line to become pressurized. A pressurized drain line may cause the trap to back up into the drain pan, causing overflow.

Duct Connections

Install all air ducts according to the National Fire Protection Association standards for the “Installation of Air Conditioning and Ventilation Systems other than Residence Type (NFPA 90A) and Residence Type Warm Air Heating and Air Conditioning Systems (NFPA 90B).

Make duct connections to the unit with a flexible material such as heavy canvas to help minimize noise and vibration. If a fire hazard exists, Trane recommends using Flexweave 1000, type FW30 or equivalent canvas. Use three inches for the return duct and three inches for the discharge duct. Keep the material loose to absorb fan vibration.

Run the ductwork straight from the opening for a minimum of 1-1/2 fan diameters. Extend remaining ductwork as far as possible without changing size or direction. Do not make abrupt turns or transitions near the unit due to increased noise and excessive static losses. Avoid sharp turns and use elbows with splitters or turning vanes to minimize static losses.

Poorly constructed turning vanes may cause airflow generated noise. Align the fan outlet properly with the ductwork to decrease duct noise levels and increase fan performance. Check total external static pressures against fan characteristics to be sure the required airflow is available throughout the ductwork.

To achieve maximum acoustical performance, minimize the duct static pressure setpoint.

BCXC-SVX01B-EN

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Contents April Blower Coil Air HandlerEnvironmental Concerns Refrigerant warning informationResponsible Refrigerant Practices Hazard of Explosion and Deadly Gases Trademarks About This ManualTable of Contents BCXC-SVX01B-EN Digits 1, 2, 3, 4 Unit Model Digit 16 Motor HorsepowerDigits 5, 6, 7 Unit Size Digit 8 Unit VoltageModel Number Description Blower Coil General Information General InformationGeneral Information Receiving and Handling Pre-InstallationJobsite Storage Recommendations Service Access Installation PreparationPre-Installation Unit size Dimension aRigging and Handling Unit Handling ProcedureImproper Unit Lift Unit Location RecommendationsSkid Removal Pre-Installation ChecklistHorizontal blower coil dimensions in. and weights lb Dimensions and WeightsUnit Size RH LH Weight Horizontal Blower CoilVertical blower coil dimensions in. and weights lb Dimensions and WeightsUnit Size Weight Vertical Blower CoilAngle Filter and Mixing Box Angle filter and mixing box dimensions in. and weights lbUnit size AIR Flow Filter Filter Access Panel Bottom or Top Access Filter BoxElectric Heat Electric heat dimensions in. and weights lbSteam Coil Steam coil box dimensions in. and weights lbCoil Connections, NPT Supply ReturnHydronic coil connection sizes, OD Coil ConnectionsDX coil connection sizes, OD Steam coil connection sizes, female connection, NPTBasic Piping Piping PackagesDimensions and Weights Deluxe Piping Actual size Piping NominalInstalling Wall Mounted Controls Installation ControlsZone Sensor Installation Wiring InstructionsInstallation Controls Communication WiringService Communication Wiring Zone Sensors Without Interconnecting WiringTracer Summit Communication Wiring Installation Electrical Zone sensor maximum wiring distances, ft m Installation ElectricalWire size range Max. wiring distance Electrical Grounding Restrictions Hazardous VoltageAvailable electric heat, min-max kW Useful FormulasUnit size Voltage Motor electrical data 240/50/1 220/50/1190/50/3 380/50/3Installing the Unit Installation MechanicalBchc Installation Procedure Horizontal Units, Model BchcVertical Units, Model Bcvc Installation MechanicalMixing Box Option Heating Coil OptionLinkage Installation Procedure Mixing Box Installation ProcedureCondensate Drain Connections Duct Connections Recommended drain trap installation for draw-through unitsWater Coil Connections Installation PipingPotential coil-freeze condition Refrigerant Coil PipingValve Damage Installation PipingSuction Line Field-installed evaporation piping example Field-Installing Evaporator PipingCoil Condensate Steam PipingGeneral Steam CoilsType NS steam coils, horizontal tubes for horizontal airflow Control Options Controls InterfaceTracer Controllers Controls Interface Rover Service SoftwareTracer controller input/output summary Tracer controller ZN010 ZN510 ZN520End Device Option Availability Tracer controller function summaryTracer Control Device ZN010 Tracer ZN510 Tracer ZN520 Pre-Start Pre-Start ChecklistReceiving Unit LocationDuctwork Pre-Start Component OverviewUnit Piping ElectricalSequence of Operation Start-UpTracer ZN Controller Sequence of Operation Unoccupied Mode Occupied ModeSensor type Sensor position Unit occupancy mode Start-UpCooling Operation Occupied Standby Mode Tracer ZN510 or ZN520 onlyOccupied Bypass Mode, Tracer ZN510 or ZN520 Only DX Cooling Tracer ZN520 only Start-Up Economizer Cooling Tracer ZN520 OnlyDischarge Air Tempering Tracer ZN520 Only Heating OperationTracer ZN520 fan configuration Fan Mode Operation Rotating ComponentsAuto fan operation Fan speed default Fan sequence of operationTracer ZN010 and ZN510 Fan Speed SwitchTracer ZN520 Continuous Fan OperationFan mode operation, Tracer ZN010 and ZN510 Fan Off DelayStart-Up Fan Cycling Operation Fan Start on High SpeedLocal fan switch enabled Entering Water Temperature Sampling FunctionTwo- and Four-Pipe Changeover Operation Fan operation in heating and cooling modesUnit type EWT sensor required? Coil water temperature Unit mode as related to water temperatureElectric Heat Operation Economizer Damper Tracer ZN520 OnlyTracer Dehumidification Tracer ZN520 Only BIP1 Low Temperature Detection OptionData Sharing Tracer ZN510 or ZN520 Only Binary InputsBIP2 Condensate Overflow Detection Option Binary input configurationsBIP3 Occupancy Sensor BIP4 Fan Status ZN520 OnlyBinary Outputs Analog InputsAnalog inputs Analog input Terminal Function Range ZN010 ZN510 ZN520Binary output configuration Space Temperature MeasurementZone sensor wiring connections Zone SensorExternal Setpoint Adjustment Fan Mode SwitchFan Switch Local SetpointCommunication Jack On/Cancel ButtonsMaintenance Procedures MaintenanceFan Assembly Set Screws MaintenanceFan Belt Tension Torque in.-lb Ft-lbBCBH/BCVC valve package waterflow limits Belt tensionHydronic coil data BCHC/BCVC coil general dataRow coil Steam coil data Unit Motor Motor sheave Fan sheave Belt Drive data1750 1450 Size Watts Browning Trane 60 Hz 50 Hz Potential unit damage from coil cleaners Coil MaintenanceInspecting and Cleaning Coils Steam, Hot Water, and Cooling Coil Cleaning ProcedureRotating parts Periodic Maintenance ChecklistsMaintenance Troubleshooting DiagnosticsLED Activity Manual Output Test Procedure DiagnosticsManual Output Test Translating Multiple Diagnostics DiagnosticsTracer ZN520 test sequence Fan Cool output a Heat output Damper Steps J1-1, J1-3Automatic Reset by the Controller Resetting DiagnosticsCycling Power Diagnostics Manual Output TestRover Service Tool Diagnostic Reset Tracer ZN510 or ZN520 OnlyTracer ZN520 diagnostics Tracer ZN010 and ZN510 controller diagnosticsDiagnostic Latching Fan Valves Electric heat Damper Diagnostic Fan Other outputsaFan outputs do not energize Common DiagnosticsValves stay closed Probably cause ExplanationElectric heat not operating Valves stay openFresh air damper stays closed DX or electric outputs do not energize Fresh air damper stays openTwo-Pipe Bcxc with Tracer ZN510 Wiring DiagramsFour-Pipe Bcxc with Tracer ZN510 Wiring DiagramsFour-Pipe Bcxc with Tracer ZN510 Two-Pipe Bcxc with Tracer ZN520 Four-Pipe Bcxc with Tracer ZN520 Four-Pipe Bcxc with Tracer ZN520 Four-Pipe Bcxc with Tracer ZN520 Four-Pipe Bcxc with Control Interface Four-Pipe Bcxc with Control Interface Bcxc with DX Coil and Tracer ZN520 Field Installed DeviceBcxc with DX Coil, Hydronic Heating, and Tracer ZN520 BCXC-SVX01B-EN