CRAC and Chiller Systems up to 118 kW

IT chillers and CRACs in conjunction with freecooling ensure efficient cooling and supply of the cooling medium.

Safety-relevant options such as redundant pumps, emergency cooling and buffer stores ensure maximum operational

reliability and fail-safeness.

LCP T3+ Maximum reliability with redundant cooling and power up to 24 kW

At the heart of the LCP T3+ are two embedded cold water circuits, each of which supplies 100% of the nominal cooling

output. The power supply to the fans also has a completely redundant layout.

LCP Plus - High density rack cooling up to 30 kW

Air/water heat exchanger, bayable with server racks based on TS 8. Complete unit with 30 kW useful cooling output.

The separation of cooling and rack prevents the ingress of water into the server rack, making it easy to assemble and very

service-friendly.

LCP Inline - Modular Liquid cooling up to 60 kW

Based on the LCP Plus design the air is delivered directly into the cold aisle rather than the rack. With superior resilience

modularity it is a perfect cooling method for cold aisle and hot aisle containment systems.

Vertical ventilation up to 3 kW

Ventilation base/plinth, roof vent and slotted component shelves ensure effective heat dissipation.

Horizontal ventilation up to 5 kW

A high air throughput, stylish design and outstanding security are provided by the perforated doors

(with 82% open area per door).

Hot Aisle Containment up to 10 kW

Separates the hot air from the cold. Utilising in line coolers the hot air is extracted and cooled to provide cold air to the front

of the server.

Cold Aisle Containment up to 10 kW

Traps the incoming cold air in front of the server inlets. Can either use inline cooling or CRACs to provide the cold air.

LCP Passive Retro-fittable cooling up to 20 kW

Perfect for dealing with any hot spots with in the Data Centre

Rittal Cooling Application Guide

section09 - 51 section09 - 52Rittal IT-Power, Cooling & The Enviroment 2011Rittal IT-Power, Cooling & The Enviroment 2011

Cooling

The unit is available in a broad output range, and for a variety of cooling media.

The unit supports optimum integration of both hardware and software.

Optimum energy and space efficiency thanks to intelligent design features,

such as the slanted heat exchanger and base-integrated fan.

Frame based on the popular TS 8 system.

Description Model No.

2-way 19” Rack mounted fan tray 1 U 7027504

TE 7000 four-way top mounted fan tray 7001001

TS 8 four-way fan tray for 800 x 800 and 600 x 1000 (grey) 7537671

TS 8 four-way fan tray for 600 x 600, 600 x 800 and 800 x 600 (grey) 7537670

TS 8 four-way fan tray for 800 x 1000 (grey) 7537673

TS 8 four-way fan tray for 600 x 1000 (black) 7537347

TS 8 four-way fan tray for 800 x 1000 (black) 7537346

1-3

1-3

1-3

1-3

1-3

1-3

1-3

Model No. SK Without heater 3301620 3301660 3301830 3301870 300510 3300560 3300710 3300760Model No. SK With heater 3301630 3301670 3301840 3301880 3300520 3300570 3300720 3300770Model No. SK With dampening 3301640 3301680 3301850 3301890 3300530 3300580 3300730 3300780Model No. SK With heater 3301650 3301690 3301860 3301990 3300540 3300590 3300740 3300790 and dampening Useful cooling output1) 23 kW 39 kW 78 kW 118 kW 18 kW 30 kW 43 kW 54 kWOperating voltage V/Hz 400/50 400/50 400/50 400/50 400/50 400/50 400/50 400/50Dimensions mm 1100 1100 1800 2600 1100 1100 1400 1800 1950 1950 1950 1950 1950 1950 1950 1950 650 850 850 850 850 850 850 850

Cooling medium Water2) Refrigerant R407C2)Volumetric airflow at an external pressure loss 6000 m3/h 11000 m3/h 22000 m3/h 33000 m3/h 6000 m3/h 8500 m3/h 12500 m3/h 16000 m3/hof 20 PaNo. of fans 1 1 2 3 1 1 1 2

Power consumption of fans 0.6 kW 1.5 kW 3.0 kW 4.6 kW 0.6 kW 0.9 kW 1.8 kW 1.7 kWStart-up current of fans 1.8 A 4.6 A 9.2 A 13.8 A 1.8 A 4.6 A 4.6 A 9.2 A

Max. speed 1150 rpm 1200 rpm 1200 rpm 1200 rpm 1150 rpm 1200 rpm 1200 rpm 1200 rpmNo. of compressors – 1 2 3 3

Power consumption of compressors – 5 kW 8.8 kW 13.1 kW 15 kWStart-up current of compressors – 13.1 A 25.6 A 38.4 A 39.3 A

Type of connection Terminal strip –

Weight 300 kg 360 kg 550 kg 770 kg 455 kg 505 kg 585 kg 935 kg

Noise output 75 dB (A) 79 dB (A) 82 dB (A) 84 dB (A) 74 dB (A) 74 dB (A) 81 dB (A) 76 dB (A)Filter quality to DIN EN 779 G4 G4

1) Output figures less heat from the fans. CW: 26°C/45 % air inlet and 10°C/15°C water temperatures DX: 26°C/45 % air inlet and 50°C condensation temperature.2) Other media available on request. Other options available on request. We reserve the right to make technical modifications.

WHD

Rittal IT-Power, Cooling & The Enviroment 2011 section09 - 54section09 - 53 Rittal IT-Power, Cooling & The Enviroment 2011

Cooling

CRAC systems, useful cooling output 18 - 118kWThe CRAC system draws warm waste air from the top of your Data Centre, cools it either with water or refrigerant

in a closed heat exchanger, and blows the cooled, filtered supply air into the raised floor with overpressure.

Cooling

Fan Trays

When an excessive build up of heat occurs, fan trays are an excellent way to remove the

warm air from the racks.

All Rittal fan trays can be fitted during configuration or alternatively retro-fitted without any

disruption to the equipment within the rack.

IT Chillers

Especially for cooling IT applications, such as LCP or air/water heat exchangers.

Safety-relevant features such as redundant speed-controlled pumps, compressors

or buffer stores are the distinguishing features of these atmospherically sealed systems.

Compact design with control components in the front and air intake via both side panels, air outlet upwards.

Pressure-sealed system.

Digital thermostat for temperature control with setpoint and actual value display.

Monitoring interface with Rittal CMC-TC supported.

Integral automatic bypass valve.

Flow monitor.

Please contact us for further information

TS 8 Top Fan Tray

LCP Passive Up to 20kW Cooling

To support existing air-conditioning systems, Rittal is now offering liquid based cooling

systems for retrofitting on server racks. The new LCP (Liquid Cooling Package) unit is based

on an air/water heat exchanger technology and solves the problem of high heat losses of up

to per rack. Without having to modify existing series of racks, the innovation can be attached

as an independent cooling unit to the rear doors of practically any rack - and while the rack is

in operation. The hot air, dissipated towards the rear by the servers, is forced through the air/

water heat exchanger by fan units and then expelled. However, connection to a circulatory

cooling-water supply is necessary before the LCP unit can be installed.

Useful cooling output Description Model No.

Up to 12kW LCP Extend 3311600

What is best, Hot or Cold Aisle Containment?

In short both systems do the same thing, they both raise

the return temperature to the cooling system, whether that

is CRACs or Inline cooling. Therefore it is the application

that decides which is best.

Cold Aisle Containment Key Points

Contains the cold air within the aisle

Increases cooling capacity to 10 kW+ per rack

Can either use CRACS or Inline cooling

Retrofittable in most cases (uses existing CRACS)

Takes up less space than HACs (not Inline cooling)

Hot Aisle Containment Key Points

Contains the hot air within the aisle

Increases cooling capacity to 10 kW+ per rack

Predominately uses Inline cooling

Can use CRACS but needs a hot air plenum

Non 19” equipment can reside in the cold aisle

Cooling

Rittal Aisle Containment System

Aisle Containment overview

The Rittal Aisle Containment System is increasingly being deployed in Data Centres where the average power demand of each

cabinet exceeds 5kW. Effectively using roof panels and slideable doors at each end of the row which ‘contains’ the air within

the aisle. This prevents the cold and the hot air mixing which increases the capacity of the overall system to approx

10 kW per cabinet. The other benefit is that because the cold air is now being delivered directly to the server, the cold aisle air

temperature can be raised, this means the CRAC or Inline cooling (LCP Inline) system is a lot more energy efficient which

results in long-term energy cost savings.

Cold and hot air cannot mix, warm air does not flow into the cold aisle

The system can be operated with a much higher extracted air temperature.

Standard air circulation cooling units are operated at an optimum thermal efficency level

Key Components for Aisle Containment

The key components of containment (same for both hot aisle and cold aisle) system are very simple. Firstly you need to specify

the containment dimensions and secondly the cooling system required.

The containment system is made up of roof panels and end doors. The roof panels bridge across the aisle between the racks

and the aisle and doors then close off the aisle. The roof sections are specified on the width of the aisle and the width

of the rack that they need to be secured to. The end doors quite simply match the height of the rack.

The cooling system for cold aisle and hot aisle can either be CRAC or Inline cooling, both have their advantages and limitations.

With the focus on efficiency and energy savings, we recommend you to contact our specialist sales team to

specify and advise the best cooling solution not only for your application but also for your long term business needs.

Please contact us for a quotation.

Rittal IT-Power, Cooling & The Enviroment 2011Rittal IT-Power, Cooling & The Enviroment 2011 section09 - 56section09 - 55

section09 - 57 Rittal IT-Power, Cooling & The Enviroment 2011

Cooling

Rittal Liquid Cooling Package - Pefect cooling four times over

LCP Inline - Up to 60kW of cooling

The LCP Inline is designed for siting within a bayed enclosure at the rear of the device and

expelled at the front into the suite. The hot air is drawn in from the room or hot aisle room or

cold aisle after cooling.

LCP T3+ - Up to 24kW of Cooling N+1The heart of the new LCP T3+ system is a heat exchanger unit comprising two fully integrated

cooling circuits and implementing an intelligent controller concept. This further development

does away with all disturbance-prone air baffle systems and ensures cooling of the whole air

flow. This sophisticated design guarantees maximum availability, even if the one circuit is put

out of action, because each of the two cooling circuits is able to uphold the full nominal

cooling capacity of the system. The power supply, too, is configured with two active paths

and is maintained at all times thanks to the standard integration of a transfer switch. In case

of a power infeed failure, the supply is switched automatically to the second infeed within

fractions of a second, with no interruption to operation.

83 mm

236 mm

USA

USA

18 mm

61 m

m15

3 m

m

3.75 X

X

16 mm

Monitoring and Security Section 10

CMC Standard CyberLock Fire Detection Mini Data Centre Modular Rooms

Rittal IT-Power, Cooling & The Enviroment 2011 section10 - 58

Design CW CW CW

Cooling medium Water (for specifications see Internet) Model No. SK 3311.130 3311.230 3311.260 Rated operating voltage V, Hz 230, 1~, 50/60 230, 1~, 50/60 230, 1~, 50/60 400, 3~, 50/60 400, 3~, 50/60 400, 3~, 50/60

Dimensions mm W x H x D 300 x 2000 x 1000 300 x 2000 x 1200 300 x 2000 x 1200Usable U 42 42 42Useful cooling output Up to 30 kW Up to 30 kW Up to 60 kW

Useful cooling output Description Model No.

Up to 24kW LCP T3+ 3300239

LCP Inline - Up to 60kW of cooling

In conjunction with the new LCP Inine, cold aisle containment is an enhanced option for the

efficient dissipation of high heat loads from server enclosures. With up to 60 kW per module

the LCP Inline integrates directly into the aisle containment and delivers cold air directly into

the aisle. It can be either used as a replacement to the CRAC system or as an assistance

for greater cooling capacity. With integration into the network, LCP Inline provides real time

update of the status of the cooling system. With SNMP protocol included LCP Inline links

directly with your NMS system to provide an additional holistic overview.

Design CW CW

Cooling medium Water (for specifications see Internet) Model No. SK 3311.530 3311.560 Rated operating voltage V, Hz 230, 1~, 50/60 230, 1~, 50/60 400, 3~, 50/60 400, 3~, 50/60

Dimensions mm W x H x D 300 x 2000 x 1200 300 x 2000 x 1200Usable U 42 42Useful cooling output Up to 30 kW Up to 60 kW