Trane UH-SVX01A-EN manual Minimum Water Flow GPM, 10 6 15 8 20

Page 54

Hot Water Performance Data

Table 38. HOT WATER CONVERSION FACTORS BASED ON 200° ENTERING WATER 60° ENTERING AIR 20° TEMPERATURE DROP

ENTERING AIR

 

 

ENTERING WATER TEMPERATURE -20° WATER TEMPERATURE DROP

 

 

 

 

 

 

 

 

 

 

 

 

 

TEMPERATURE

100°

120°

140°

160°

180°

200°

220°

240°

260°

280°

300°

°F (°C)

(38°)

(49°)

(60°)

(71°)

(82°)

(93°)

(104°)

(116°)

(127°)

(138°)

(149°)

 

 

 

 

 

 

 

 

 

 

 

 

30° (-1)

0.518

0.666

0.814

0.963

1.120

1.268

1.408

1.555

1.702

1.850

1.997

 

 

 

 

 

 

 

 

 

 

 

 

40° (4)

0.439

0.585

0.731

0.878

1.025

1.172

1.317

1.464

1.609

1.755

1.908

 

 

 

 

 

 

 

 

 

 

 

 

50° (10)

0.361

0.506

0.651

0.796

0.941

1.085

1.231

1.375

1.518

1.663

1.824

 

 

 

 

 

 

 

 

 

 

 

 

60° (16)

0.286

0.429

0.571

0.715

0.857

1.000

1.143

1.286

1.429

1.571

1.717

 

 

 

 

 

 

 

 

 

 

 

 

70° (21)

0.212

0.353

0.494

0.636

0.777

0.918

1.060

1.201

1.342

1.483

1.630

 

 

 

 

 

 

 

 

 

 

 

 

80° (27)

0.140

0.279

0.419

0.558

0.698

0.837

0.977

1.117

1.257

1.397

1.545

 

 

 

 

 

 

 

 

 

 

 

 

90° (32)

0.069

0.207

0.345

0.483

0.621

0.759

0.897

1.035

1.173

1.311

1.462

 

 

 

 

 

 

 

 

 

 

 

 

100° (38)

0

0.137

0.273

0.409

0.546

0.682

0.818

0.955

1.094

1.230

1.371

 

 

 

 

 

 

 

 

 

 

 

 

To obtain the BTU capacity for conditions other than those in the basic capacity tables, multiply the basic rating (200° entering water, 60° entering air) by the proper constant from the above tables.

Table 39. HOT WATER BTU, GPM AND PRESSURE LOSS FACTORS BASED ON STANDARD CONDITIONS OF 200°F ENTERING WATER 60°F ENTERING AIR & 20°F WATER DROP

USE FACTORS FROM THIS TABLE TO OBTAIN

 

 

 

TEMPERATURE DROP °F (°C)

 

 

 

 

 

 

 

 

 

 

 

APPROXIMATE RESULTS

5 (3) 10 (6) 15 (8) 20 (11)

25 (14)

30 (17)

40 (22)

50 (28)

60 (33)

 

 

 

 

 

 

 

 

 

 

To obtain BTU for other Water Temperature Drops,

1.25

1.15

1.08

1.00

.94

.90

.83

.76

.72

multiply basic BTU rating by applicable Factor.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

To obtain GPM for other Water Temperature Drops,

5.00

2.30

1.44

1.00

.74

.59

.40

.30

.24

multiply basic GPM rating by applicable Factor.*

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

To obtain Pressure Loss Feet of Water for other

10.00

5.00

2.00

1.00

.60

40

.20

.13

.07

temperature Drops, multiply Basic loss at 20° drop by

 

 

 

 

 

 

 

 

 

Factor.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Table 40. *MINIMUM WATER FLOW - GPM

MODEL No.

42

64

80

102

146

166

202

252

336

384

 

 

 

 

 

 

 

 

 

 

 

MIN. GPM (L/s)

.55

.55

.55

.55

.82

.82

1.10

1.10

1.10

1.10

 

(.035)

(.035)

(.035)

(.035)

(.052)

(.052)

(.069)

(.069)

(.069)

(.069)

 

 

 

 

 

 

 

 

 

 

 

Table 41. *HEATING CAPACITY FACTORS FOR VARIOUS RATES OF WATER FLOW

% of Rated Water Flow

25%

50%

75%

100%

125%

150%

175%

 

 

 

 

 

 

 

 

Btu/Hr Heating Capacity

.80

.89

.96

1.00

1.04

1.07

1.10

 

 

 

 

 

 

 

 

54

UH-SVX01A-EN

Page 53 Page 55
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Page 53 Page 55
Contents Unit Heaters Preface and Warnings and Cautions Hazard IdentificationContents Service Model Number Description Model Number DescriptionDescription Model Number Description Digit 8-VOLTAGEThrow ft m LocationModel Maximum Mounting HT Approx. Max 300 360Location Four Point Suspension-Shelf Mounted Motors OnlyForced HOT Water Forced HOT Water High Pressure Steam LOW Pressure Steam Gravity LOW Pressure Vapor or Vacuum Lifting/Suspension Methods InstallationPeriodic Service Heavy Objects Structural Integrity17.5 InstallationUnit Size Steam Pressure PSI = Low Speed = Low output model with all air ports openModel No Maximum SpreadSteam Pressure PSI Unit Size Spread ft mDiffuser Cone See a See B Standard Low Output Model Ft mWater Temperature SteamTemperature PressurePiping Installation Installation S Type Unit Mounting Heavy ObjectsFan Guard/Louver Installation Louver Cone DiffuserVertical Unit with Louver Cone Diffuser Vertical Unit with Osha Fan GuardModels Dimensional DataDimensional Data P Model Unit Capacity MBH Fan Dia MinUnit Capacity Fan Dimensional DataModels Roughing in Dimensional Data Model Size MBHNO. NOM. FAN Dimensional Data S ModelInches DIAM. inches Ship WT. lbsHeader Type Models 18 thru Header Models NOM FAN Approx Diam ShipCorrections When Using Glycol Solution in System Technical DataTechnical Data S Models Approximate factors at varying altitudesTechnical Data Technical Data P ModelCategory of Area Sound Rating Options Options S ModelsOptions Options P ModelsVertical Louver Cone Diffuser optional Electrical Connections P Model Hazardous Voltage Thermostat Wiring and LocationElectrical Connections OperationElectrical Connections Fan Motor Connections Low Voltage CCW Internal MarathonWiring Installation P Model Speed Controller with Manual Starting SwitchManual Control with Three Phase Motor Electrical Connections S Model Hazardous VoltageWiring Installation S Model Electrical Connections Standard Totally Enclosed Motor Type MT=1 Motor DataMotor Data P Models Voltage Selections AMP MCA MOP RPMUnit Model Motor DataExplosion Proof with Thermal Overload Motor Type MT=2 1145Totally Enclosed Motor Type Explosion Proof with Thermal Overload Motor TypeOutput Steam Performance DataModel S Header Type Only BTUSteam Performance Data Steam Calculations and Correction FactorsSteam Pressure in Psig kPa Properties of Saturated SteamModel P Standard Units Kg/hr Sq. mLow Output Standard Vertical Units with All Air Ports Open 037Entering Steam Pressure LBS. PER SQ. IN. Saturated AIR Temp Steam Calculations and Correction Factors P StyleSteam Correction Factors Based on 2 LBS. Steam 60 E.A.T 13.8 34.5 68.9 103.4 137.9 206.8 275.8 344.7 517.1BTU/HR Hot Water Performance DataModel S Serpentine and Header Type CFM FPMIV. Capacity AT Other Rates Hot Water Performance DataHot Water Calculations and Correction Factors S Type Water FlowHeating Capacity Factors for Various Rates of Water Flow Entering Entering Water Temperature F C AIRMinimum Water Flow TemperatType Standard Output Units CFM117.6 24.24 108.8 34.5 529 318 42.7 11,000 2250 237 1165 133 11.430 470.9 32.35 720152.2 376 138.0 041Hot Water Performance Data II. Capacity AT Other TDs HOT Water Calculations and Correction Factor P StyleCapacity @ 20 TD IV. Pressure Loss AT Other TDsMinimum Water Flow GPM 10 6 15 8 20Cleaning the Unit MaintenancePeriodic Service Hazardous Voltage Rotating ComponentsTroubleshooting Guide MaintenanceFan and Motor Assembly Additional P Model InstructionsWarranty Info Limited Warranty S ModelLimited Warranty P Model Warranty Info Page Trane

UH-SVX01A-EN specifications

The Trane UH-SVX01A-EN is an advanced unit ventilator designed to provide efficient and reliable heating, cooling, and ventilation in various commercial and educational applications. This unit is particularly engineered for use in schools, offices, and healthcare facilities, ensuring optimal indoor air quality while maintaining energy efficiency.

One of the main features of the UH-SVX01A-EN is its innovative design that incorporates cutting-edge technologies for enhanced performance. The unit is equipped with a high-efficiency fan and motor system that operates quietly while delivering consistent airflow. This ensures a comfortable environment for occupants without the disruptive noise common in traditional ventilation systems.

Another standout characteristic of the UH-SVX01A-EN is its versatility. It offers multiple configuration options, allowing it to be tailored to meet specific building requirements and occupant needs. The unit can be integrated with various control systems, including advanced building management systems, which provide precise temperature control and enhance energy savings.

The use of variable air volume technology allows the UH-SVX01A-EN to adjust airflow rates based on real-time occupancy and environmental conditions. This intelligent airflow management not only improves comfort but also significantly reduces energy consumption, aligning with sustainable building practices.

Additionally, Trane has incorporated a range of filtration options within the unit, which contribute to improved indoor air quality by capturing dust, allergens, and other airborne particulates. This makes the UH-SVX01A-EN an ideal choice for settings where air purity is paramount, such as healthcare environments.

Maintenance of the UH-SVX01A-EN is also user-friendly, with easy access to key components for servicing and inspections. Trane's commitment to reliability and efficiency is manifested in the durable materials and construction of this unit, ensuring longevity and lower lifetime operational costs.

In summary, the Trane UH-SVX01A-EN combines advanced technology, versatile configurations, and a focus on energy efficiency and indoor air quality. This unit ventilator is designed to meet the demands of modern buildings while supporting environmental sustainability initiatives. With its robust features and flexible integration options, the UH-SVX01A-EN stands out as a reliable solution for any commercial heating, cooling, and ventilation needs.
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