Emerson Xtreme Density manual Liebert XDV Unit Placement, Input Information Step Results

Page 23

Designing a Liebert XD Solution

3.7Liebert XDV Unit Placement

Liebert XDV units should be placed on top of the cabinets that generate the greatest amount of heat. If heat loads are dispersed evenly throughout the room, the Liebert XDV modules may be spread out accordingly.

The Liebert XDV must be placed toward the front of the equipment cabinet, so that its front bottom edge is flush with the front top edge of the cabinet. Placing the unit farther back on the top of the unit will restrict airflow into the cold aisle. Placing the unit farther to the front will decrease the amount of hot air drawn into the unit.

Figure 16 Positioning Liebert XDV on top of cabinet

Liebert XDV is suspended

from ceiling structure...

....the separation between the rack and the Liebert XDV should be held to less than 1" (25mm). If this is not possible, an air blocker should be added to prevent unwanted airflow between the hot aisle and the cold aisle.

CORRECT

Liebert XDV is flush with

front edge of rack

X X

INCORRECT

INCORRECT

Liebert XDV is

Liebert XDV

too far from front

hangs over front

edge of rack

edge of rack

Both of the Liebert XDV’s power cords should be connected to power sources. If only one power source is available, then only the power cord labeled “SECONDARY” should be connected to the power source.

Piping for the Liebert XDV is routed upward to the main return and supply pipes to and from the Lie- bert XDP/Liebert XDC.

Table 4, below, may be used to determine the correct number of Liebert XDV modules.

Table 4 Determine required number of Liebert XDV modules (example below is Liebert XDV10)

Input Information

Step

Results

Total heat load in the room, kW

A

 

Reserve capacity needed

 

 

(10% to 25% of A is

B

 

recommended)

 

 

 

C

Required cooling capacity, kW = A + B

Existing/planned Liebert

D

 

Deluxe/DS sensible capacity, kW

 

 

 

 

E

Required Liebert XD system cooling capacity, kW = C – D

 

F

Number of Liebert XDV10 modules required = E ÷ 10, rounded up (60Hz)

 

= E ÷ 8, rounded up (50Hz)

 

 

 

G

Number of Liebert XDP/Liebert XDC modules required = F ÷ 16, rounded

 

up (60Hz and 50Hz)

 

 

Room area, square feet

H

 

 

I

Area served by each Liebert XDV10 = H ÷ F

 

 

Required Liebert XD system cooling density = E x 1000 ÷ H

 

 

OK if under 580 for 12-foot cold aisle spacing

 

L

OK if under 435 for 16-foot cold aisle spacing

 

 

Otherwise, additional Liebert Deluxe or Liebert DS unit capacity is

 

 

needed.

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Contents Liebert Xtreme Density Page Table of Contents XDH and Liebert Xdcf SpecificationsIii Tables Liquid Liquid/Vapor Mix CoolFrame, XDH Pumped Refrigerant Direct and Indirect System ConfigurationsEuropean Union Fluorinated Greenhouse Gas Requirements Liebert Heat Rejection Air Cooled or Water/Glycol CooledLiebert XDO-Overhead Cooling Module Liebert XDV-Vertical, Above-Cabinet Cooling Module Liebert XDH-Horizontal Cooling Module Liebert Xdcf units on BladeFrame EX cabinets Liebert XdcfLiebert XDA-Air Flow Enhancer Liebert XDP Minimum Load Liebert XDP-Pumping UnitLiebert XDC Minimum Load Liebert XDC-Refrigerant ChillerPrefabricated Headers Liebert XD field-installed port kits header connection sizeLiebert XD Piping Liebert XD Field Piping Flexible Piping KitDetermining Cooling Equipment Needs Hot aisle-cold aisle arrangement with under-floor source Implementing a Hot-Aisle/Cold Aisle DesignCalculate the Heat Load to be Handled by Liebert XD System Determine Cooling Requirements and Select Liebert XD SystemNumber of Modules Supported by a Liebert XDP or Liebert XDC Airflow Requirements for Liebert XD SolutionsConfiguring a Liebert XD System Selecting Liebert XD Cooling ModulesDetermining Spacing of Liebert XDOs in an Aisle Liebert XDO PlacementLiebert XDO spacing-horizontal and vertical Input Information Step Results Liebert XDV Unit PlacementLiebert XDV is suspended From ceiling structure Liebert Xdcf unit mounting locations Liebert Xdcf PlacementLiebert XDP/Liebert XDC Placement Liebert XDH PlacementFor enhanced protection Interlaced piping arrangementProtection Interlaced piping arrangement for enhanced protectionFor enhanced Liebert XD Piping System Design Liebert XD RefrigerantKey to Piping Pipe Function Size / Equivalent Pipe Length Supply, return pipe sizes for refrigerant loopXD CoolFrame, XDH, XDO or XDV Liebert XD Piping SlopeBypass Flow Controllers Refrigerant PumpedLiebert XDP Liebert XDC System refrigerant charge for the supply and return mains Determining Refrigerant VolumeLiebert XDP/Liebert XDC Pumped R-134a Circuit Volume Return Line Diameter Return Line Diameter 5/8Worksheet to calculate refrigerant charge Liebert XDC DX R-407c Circuit Volume-Air Cooled UnitsCalculating Refrigerant Charge-Example Calculating refrigerant charge-exampleIndoor water/glycol cooled module R-407c refrigerant charge Chilled Water PipingElectrical Outdoor condenser charge-R-407cOptional Features Liebert XDO Liebert XDO Standard FeaturesLeft Side XDO 24-1/8 Rear of XDO Liebert XDO internal mounting location Liebert XDO top and front electrical access points Liebert XDV Standard FeaturesLiebert XDV dimensions Optional Features-Liebert XDVDetail Area a Detail a Power Source Liebert XDV electrical connections for CSA-approved units Suspending single Liebert XDV from Unistruts Page XD CoolFrame, XDH, XDO or XDV Liebert Xdcf Standard FeaturesLiebert XDP Return Pipe Liebert Xdcf Mechanical ConsiderationsLiebert TM Egenera BladeFrame Liebert Xdcf Installation ConsiderationsLiebert Xdcf Piping Connection Methods and Points Header System Liebert XDH Standard FeaturesOptional Features-Liebert XDH Supply and return piping connections Liebert XDH dimensionsRefer to for details Or 2-5/8 O.DRear XD Cooling Module Either 5/8 or 7/8 Recommended ArcLiebert XDH Liebert XD Flex Pipe KitLiebert XD Flex Pipe assemblies, supply and return Liebert XD Liebert XDV CoolFrameTwo-port prefabricated piping legend Liebert XD Piping Dimensions and FeaturesPiping Installation Method prefabricated headers Branch Piping Standard Run Long Run Four Port 186551G21 Four-port prefabricated piping legendBranch Piping Standard Run Long Run Five Port Five-port prefabricated piping legendBranch Piping Standard Run Long Run Ten Port 186650G51 Ten-port prefabricated piping legend33-1/8 990 1067 XDP160 Liebert XDP Standard FeaturesModel Pipe Connection Point 50/60 HZ Unit piping outlet connection sizes, inches, OD CuEnclosure Cover Customer Power Liebert XDC Optional Features Liebert XDC Standard FeaturesLiebert XD Chiller piping connection sizes Liebert XDC piping locationsLiebert XDC Water/Glycol Piping Connection Sizes Piping locations-floor stand and valve assembly Front view of Liebert XDC and electrical enclosures Switch Transformer Electrical handy box, factory-installed with cover Liebert XDC Extra Low Voltage field connections points Liebert XDC160 specifications Performance Data Performance DataHeat Rejection Equipment Piping Connections204 Liebert XDP160 specifications Liebert XDO16 specifications Sides, Front and Rear Liebert XDO20 specificationsPipe Connections without flex pipe Liebert XDO20 dimensions-domestic and export Liebert XDV8 specifications Liebert XDV10 specifications Liebert Xdcf specifications Liebert XDV8 dimensions-domestic and exportLiebert XDV10 dimensions-domestic and export Liebert XDH specifications Specifications Specifications Page That Ne tIti Ti n
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