climaveneta for datacenter
DESCRIPTION
Documentation for close control unitsTRANSCRIPT
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THE MILESTONE OF GREEN DATA CENTER COOLING TECHNOLOGY
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2 l 3
THE FUTURE OF DATA CENTERS BRINGS BOTH ADVANCED TECHNOLOGIES AND EXPONENTIAL DATA EXCHANGE THAT STRONGLY INCREASE HEAT LOADS PER SQUARE METER.
STRUCTURAL LIMITS RESULT IN HIGHER AND HIGHER POWER DENSITIES AFFECTING THE DEVELOPMENT AND DESIGNOF SERVER ROOMS.
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Energy efficiency is crucial in Data Centers that require the latest cooling technologies to ensure the reliability and high performance of these critical applications. Server usage in both upgraded and newly designed Data Centers will, over time, lead to increasingly higher performance that eventually will result in higher density power loads. The ambient of a Data Center is critical and requires a guarantee of reliability, device safety and modularity.Preparing for the evolution of modular infrastructure, with more standards, classifications and certifications to comply with. The key factor that must be continuously improved is the Energy Efficiency to cope with more demanding OPEX requirements, and the global footprint, which greatly affects CAPEX. Virtualisation, Cloud Computing and Internal Redundancy also greatly contribute to develop server rooms' development with many powerful and concentrated
servers creating racks exceeding 40kW in less than one square meter (or 10 square feet). Cooling such loads is a serious challenge for the air conditioning industry and only solid technological innovations backed by R&D and experienced staff can provide the right solutions. The answers lie in the use and combination of the most sophisticated technologies such as MAGNETIC LEVITATION and FULL ELECTRONIC MODULATION cooling equipment. As a racing car needs an experienced driver, high tech components require superb design capacities as wellas a deep understanding of the application's requirements.
Climaveneta has a full range of cooling solutions that include state of the art, efficient and reliable coolingtechnologies for ICT environments.
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400
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100,00080,00060,000
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20,000
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1992 1994 1996 1998 2000 2002 2004 2006 2008 2010
Year of Product Announcement
Product Heat Density Trend Chart
Thermal Load Trend by ASHRAE
45
40
35
30
25
20
15
10
5
0
Computer Servers - Blade
Server
1994 1996 1998 2000 2002 2004 2006 2008 2010 2012 2014
Communication equipment (frames)
Servers & disksterage systems(1.8 - 2.2m tall)
Workstations (standalone)
Tape storage systems
Growth of microprocessors performances, even though compensated by increased efficiency, lead to the growth of power generated density. The evidence is such that, to represent the phenomenon, a logaritmic scale is necessary. (Source: Uptime Institute)
Progressive diffusion of incomingvirtualisation and BLADE SERVERScharacterized by increasing power in limitedvolumes, leads to the unrelenting growth ofloads which consequently increasesthermal power per m2.
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4 l 5
BASED ON ACTUAL DATA CENTER HEAT LOAD AND INSTANTANEOUS WORKING CONDITION
< 5 kW/rack 10 - 20 kW/rack > 25 kW/rack
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REDUCE OPERATING COSTS
The growing energy demand in modern Data Centers implies that every energyimprovement allows for a significant reduction in OPEX (operating costs).In infrastructures working 24 hours per day, 365 days per year, over an average of 10 years, this accounts for the largest proportion of overall costs.
BEST USAGE OF AVAILABLE POWER CAPACITY
Many facilities, especially in crowded urban areas, cannot install moreservers because power feeds are at capacity. In these situations to improve the energy performance of the whole structure, the key option is to grow the Data Center.
OPTIMIZE AREAS
A green, energy efficient approach to Data Centers has positive implicationsalso for optimizing space. It allows for the more effective use of the Data Center, concentrating cooling units along the walls, reducing waste due tocooling dispersion and delaying the need of building new rooms.
INCREASE SUSTAINABILITY?
Growing digitalization and consequent energy consumption transform Data Centers into a very critical application regarding TEWI. Intelligent energy management is crucial not only for profitability but also for sustainability.
CLIMAVENETA CAN HELP YOU TO:
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6 l 7
The awareness of the requirements of Data Centers and the commitment to improve their energy efficiency has led to the development of dedicated indexes for these applications.
All Climaveneta solutions are developed to optimize these metrics, allowing for a transparent evaluation of the real benefits offered by our approach to HD.
Power and cooling represent the lion's share of the energy consumed in a Data Center,although they are not directly linked with the value adding operations of the Data Center. Accurate measurements of heat loads are the essential base for the design of highly efficientGreen Data Centers.
Power andcooling
IT Load
50%
45%
40%
35%
30%
25%
20%
15%
10%
5%
0%
8%
6%
32% 30% 18%
5% 1% 1%
Chiller
IT equipment
Power distrib. units
CRAC
Humidification
UPS
Lighting
Switchgear/generator
Data Center cooling & power load consumption
Data Center power consumption by apparatus
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1,2 1,7
1,5
2,3
3,1
2,8
1,9
33% 42%
66%
51%
CAPEX Capital Expenditures
The Data Center is a valuable asset for a company. All expenses relating to the infrastructure, especially high-tech solutions, remains within the company by adding value and extending the life span of the Data Center.
OPEX Operating Expenditure
Running costs of a Data Center operating 24 hours a day, 365 days a year for an average of 10 years, are crucial for those who must manage it. Even a small saving becomes very significant over time. This justifies even very high initial investments and justifies an anticipated refurbishment of the systems, aimed to improve their efficiency.
PUE Percentage of effectiveness =total facility power/ IT equipment power
It considers the overall energy efficiency of the Data Center, measured as the ratio between total absorbed power and the power needed by the servers. As only energy used to transfer data creates value for the Data Center, a ratio close to 1 would represent the condition of optimum efficiency. Most Data Centers have a PUE between 2 and 3, excellent values are between 1,2 and 1,5.
DCiE = 1/PUE x 100
Reciprocal of PUE, DCiE shows the % of power absorbed by IT infrastructure, compared to the overall Data Center consumption. Values close to 33% are usual for traditional Data Centers. DCiE 66% reflects a very high energy efficiency.
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8 l 9
ALL SOLUTIONS ENHANCE THE ADVANTAGES OF A GREEN DATA CENTER DESIGN ENSURING:
FLEXIBILITY
Over the years Data Centers are continuously changing the original design features, in terms of:
< Shape & architecture< Computing capacity< New rack solutions< Heat dissipation
SCALEABILITY
Data Centers require scalable design to:
< Manage different heat loads for different areas
< Allow increasing heat load over time< Accomodate new areas to be cooled
GREEN DATA CENTERS ?BEST PRACTICES
Extensive research in this application has developed some best practices, which are a must for an efficient Data Center.
Climaveneta solutions are designed to perfectly fit with this approach.
OPTIMIZED AIR FLOW MANAGEMENT
Optimized air flow design, directing cold air through the raised floor to form cold aisles in front of the rack air intake
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COLD AND HOT AISLES
Hot & Cold aisles layout address air-flow to the servers to ensure a constant temperature. Working conditions become more stable and the efficiency of the whole cooling system increases.
LOCALIZED ?COOLING
Dedicated localized cooling to target hot spots directly, and integrating the hot & cold aisle.
HIGHEST EFFICIENCY WITH WATER COOLED SYSTEMS
Optimized hydronic solutions for HPAC combine energy efficiency with flexible performance and utmost reliability.
100.00%
99.95%
99.90%
99.85%
99.80%
99.75%
99.70%
99.65%
99.60%
I II III IV
Ava
ilab
ility
TIER
Number of Delivery Paths
Redundancy
Aisle Containment
Concurrently Maintainable
Fault tolerance to Worst Event
TIER I TIER II TIER III TIER IV
Only 1
N
No
No
None
Only 1
N + 1
No
No
None
1 Active1 Passive
N + 1
No
Yes
None
2 Active
S + S or2 (N + 1)
Yes
Yes
Yes
RELIABILITYPROPER DESIGN
RELIABILITY - TIER Classification(by Uptime Institute) defines the acceptable Downtime per Data Center.
< TIER I: 99.671% (28.8 hours downtime)
< TIER II: 99.741% (22.7 hours downtime)
< TIER III: 99.982% (1.58 hours downtime)
< TIER IV: 99.995% (0.44 hours downtime)
Redundancy is the typical way to increase the Uptime. In facing the cooling problems only smart solutions can avoid the disaster of shut-down while limiting CAPEX and OPEX. Reliability must look around at 360.
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CLIMAVENETA HPAC SOLUTIONS ARE ADAPTIVE COOLING SYSTEMS DESIGNED ON ACTUAL DATA CENTER HEAT LOAD REQUIREMENTS (kW/RACK)
HOT/ COLD AISLE An easy, fast and long lasting solution; the hot & cold aisle is the basic and essential concept that drives the layoutof all Data Centers.
< Through raised floor air can be easily delivered exactly where required (in front of the rack) allowing easy
management of redundant cooling units.
< Flexible, providing maximum freedom in accommodating new racks distribution or even major infrastructure changes.
< Lowest CAPEX allows more investment
on more productive equipment
COLD
AIS
LE
COLD
AIS
LE
COLD
AIS
LE
RACK
RACK
RACK
RACK
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AISLE CONTAINMENTAISLE CONTAINMENT prevents the HOT & COLD air mixing in the upper section of the racks, guaranteeing homogeneous air flow at the suction of the server.
< No mixing between Hot & Cold air, so no losses.
< Additional 15% energy saving depending upon the Data Center layout
< Easy solution to implement following HOT&COLD aisles with relatively low CAPEX
< Complete integration with existing perimeter CRAC units
< Immediate energy benefits
AISLE CONTAINMENT + LOCAL COOLING to manage HOT SPOTS
CCD (Climaveneta Cooling Door) & CRC (Climaveneta Rack Cooler) guarantee ideal integration to manage HOT SPOTS caused by new BLADE SERVERS providing extra local cooling exactly where it is needed.
< Extra cooling only where required
< Direct expansion inverter type or Chilled water system for complete flexibility of the cooling system
< Modulating Air flow thanks to EC high efficiency fans. The fans adapt to the thermal load detected by sensors positioned in the hot and cold aisle. This increases efficiency and reduces air stratification.
< Perfectly compatible with most racks and ready for extension of the cooling system.
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LOW DENSITY ZONE< 5 kW/rack
In the last decade the design of Data Centers has dramatically changed. Years ago Data Center design was not driven by heat. Loads, so server distribution in the room was driven by other needs leading to only one reference room temperature. This used to be from 18C to 24C and it was an accepted standard throughout the world. As soon as server heat generation increased, it became clear a more rational distribution of heat was necessary; this resulted in the Hot & Cold Aisle concept. The arrangement of rack servers according tothis logic allows delivery of cold air-flow exactly where it is needed - i.e. typically in front of the racks, greatly reducing the chances of cold and hot air mixing. This fact increases the efficiency of the cooling system by 20% if compared to traditional layouts.On the other hand, this new concept requires two levels of temperatures to be properly defined.The optimisation of these temperatures leads to greatly improved working conditions.
The cold and hot aisle solution overcomes the limits of a traditional approach where cooling aims to maintain stableconditions of the room, and forgets to focus on the racks requirements.
HOT/ COLD AISLE The Data Center is designed in order to create hot and cold aisles. Cold air is delivered through the floor or ducts exactly where it is needed and hot air returns to the HPAC units, thus improving the set point and the overall Energy Efficiency of the system.
THIS SYSTEM ALLOWS:
< good efficiency, < easy redundancy,< easy expansion,< minimal investment.
COLD
AIS
LE
COLD
AIS
LE
COLD
AIS
LE
RACK
RACK
RACK
RACK
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At the same time, the use of a raised floor has demostrated the clear advantage of distributing air where needed with negligible energy consumption. Those who designed very high raised floors could ensure extended life of their fast changing Data Center. But such growth includes an increase of racks, data and power cabling and other ancillary services that almost completely fill the raised floor void, resulting in unexpected effects in air distribution. The best way, and sometimes the only way, to cope with this is to keep constant pressure in the floor
void; this is fundamental to keep the required air distribution. What appeared to be a complicated problem to solve is nowremoved by the new Climaveneta pressure system.All HPAC units can be connected to several pressure sensorsand the air control system automatically manages airflows inorder to keep steady ambient conditions for the servers.The feature can be customised as Constant Air Pressure orConstant Air-Flow.
CONSTANT AIR FLOW AND PRESSURE MANAGEMENT SYSTEMS
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THIS SYSTEM ALLOWS:
< significant improvement in efficiency
< tight control of conditioned air feeding the servers
< adding more servers in less volume.
AISLE CONTAINMENT
NO AISLE CONTAINMENT
WITH AISLE CONTAINMENT
This prevents the HOT & COLD air mixing in the upper section of the racks, guaranteeing homogeneous air flow at the air-inlets of the servers.
MEDIUM DENSITY ZONE10-20 kW/rack
AISLE CONTAINMENT
In High Density applications the presence of hot and cold aisles is not enough to prevent the mix of supply and return air.This mix results in air flow with a temperature that reduces the performance of the Data Center. If such air goes to servers it is warmer than expected and servers may stop working due to overheating.If mixed air goes to the cooling system it is colder than air coming out from servers, therefore heat exchange is reduced and then global efficiency is affected.
Therefore it is necessary to provide a physical separation for the two airflows.This is achieved by using aisle containment, which is a simple and cost effective solution: it guarantees the servers to be fed with the design cold air and the cooling system to be more efficient.The image above shows an excellent example of the
advantages in terms of hot and cold flows separation obtained through aisle containment.
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TECHNOLOGICAL SOLUTIONS
The decision regarding usage of aisle containment needs to be analyzed on a project basis as it is affected by different factors such as: room dimensions, shape, heat load and density, cooling technology, redundancy provisions and more.
In practice Climaveneta provides two methods for aisle containment:
1 Cold Corridor Aisle Containment, which provides tight control to the cold air feeding the servers.
2 Hot Corridor Aisle Containment, which confines hot discharge air from servers to a zone.
1
2
CRAC
Roof Panel
BaffleFloor BrushSeals
CRAC
Return Air Plenum
BaffleFloor BrushSeals
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This solution must accomodate the most critical heat load densities. Here hot-spots cannot be avoided without aisle containment. Redundancy is a serious and complicated issue to address and extra cooling capacity must be added to traditional systems.
THIS SYSTEM ALLOWS TO:
< Maximize the internal capacity of the infrastructure.< Eliminate hot spots.< Allow minimum floorspace occupancy.
AISLE CONTAINMENT + COOLING DOOR + RACK COOLER
HIGHDENSITY ZONE> 25 kW/rack
CCDClimaveneta Cooling Door
< ADDITIONAL COOLING CAPACITY Thanks to chilled water coil available in both
single & double circuit.< ZERO FOOTPRINT< ADAPTABLE TO ALMOST ALL RACKS< TOP ENERGY EFFICIENCY With Electronic Controlled Fans modulated to
actual needs< AIR STRATIFICATION MANAGEMENT Tight control of the RACKs temperatures
thanks to 8 independent sensors< FLEXIBLE CONNECTIONS From top and from the bottom depending on
the customer's choice and on raised floor availability
< READY TO OPERATE WITH LATEST GENERATION CHILLERS including MAGNETIC LEVITATION and FREE-COOLING techonologies.
32-35C
45-50C
20-25C
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DATA CENTERTHE MILESTONES OF DATA CENTER COOLING TECHNOLOGY
Unbeatable Efficiency, Silent Operation, Reliability. Climaveneta can deliver the Experience of the World's Latest Technology in Refrigeration: centrifugal compressors with Magnetic Levitation of Electric Rotor that reaches 50'000 rpm. ESEER can touch the threshold of 15 kW of cooling capacity per each 1 kW of Electric Power.
Freecooling is a fundamental technology to reduce energy consumption of data centers. Available in direct and indirect versions this solution uses external air whenever the temperature is lower than room or water temperature. The advantage of this cooling is mirrored by the inverter compressor that improves efficiency particularly during lower ambient conditioning.
Both R-410A and R-134a represent the most advanced choice in refrigerant technology: they clearly contribute in making the ICT GREEN since they comply with environmentally friendly policies and provide enhanced cooling efficiency.
Smart management of water temperature allows unprecedented increase of efficiency and money saving in cooling of Data Centers when coupled with Free-Cooling or Magnetic Levitation technologies. Best performances require decades of expertise to be developed.
MAGNETIC LEVITATION
FREE COOLING
ECOLOGICALREFRIGERANTS
ADAPTIVE SET POINT?
1
2
3
12
3
4
4
5
67
9 1011
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Electronic Expansion Valve allows ultimate compressors working conditions in order to achieve the most efficient performances and to avoid dangerous downtimes.
Modulating the cooling capacity results in a major increase of Energy Efficiency: EER can rise from typical 2.7 to 5.2 and more! Redundant unit shall not be a dead investment as it will be on duty at extremely partialised loads thus granting cooling capacity with greater efficiency. ?i-ACCURATE represents the ultimate MILESTONE in Data Center cooling, providing a FULLY ELECTRONICALLY?CONTROLLED HPAC UNIT
ELECTRONIC EXPANSION VALVE?
ELECTRONIC INVERTER DRIVEN COMPRESSOR
LOW NOISE ENVIRONMENT ?& ?ENERGY SAVING
ADDITIONAL FULL SENSIBLE COOLING CAPACITY
AISLE CONTAINMENTFOR HIGHEST EFFICIENCY?
SHORT LOOP AIR VOLUME, SCALABLE AND MODULAR?100%
NEW GENERATION EC FANSThe high efficiency EC fan reduces both noise levels as well as energy consumption, and assures a variable air flow at part loads. Operational Costs reduce -15% if compared to traditional EC-Fans, -25% if compared to plug fans.
EC FANS ALSO IN THE REMOTE CONDENSERSThe use of EC technology even on the remote condenser fan assures a further average reduction of noise levels by 10%, together with a strong reduction of energy consumption by 45% when compared with traditional condensers with AC technology.
ELECTRONIC CONTROLLED FANS
5 6 7
8
8
9
1011
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REMOTE CONDENSERS
Remote condenser with axial fans
BRE 7 - 187 kW i-BRE 13,4-187 kW
from 26,6 to 39 kW
Suitable for 600mm wide racks.
CLIMAVENETA HPAC SOLUTIONS COMPRISEOF A WIDE RANGE OF UNITS FROM 4,3 TO225 kW, ALL INTEGRATING CUTTING EDGE TECHNOLOGIES TO ACHIEVE COMPLETE RELIABILITY AND HIGH EFFICIENCY
CCD COOLING DOOR CRC RACK COOLER
Side Cooling from 4,7 to 33 kW
CRCX:Direct expansion version
CRCC:Chilled water type
CRCD:Dual Fluid version
CRCF:Free cooling version
EC AXIAL
r HFCR-410A
EC AXIAL AXIAL CENTRIFUGAL
r HFCR-410A
BREC M1D-M4F_B 16,1-108 kW
Remote condenser with centrifugal fans
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INVERTER DRIVEN DIRECT EXPANSION
ACCURATE Full range Upflow - Downflow unit with R410A & inverter driven scroll compressor from 4,3 to 159 kW, air/water cooled.
ACCURATE range unit with R410A scroll compressor from 4,9 to 102 kW, air/water cooled.
ACCURATE CLOSE CONTROL AIR-CONDITIONERS
CHILLED WATERDIRECT EXPANSION - ON/OFF
r HFCR-410A
SCROLL
COOLING RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION COOLING RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION
i-AX 4,3-151,8 kWAir cooled
i-AW 4,7-159 kWWater cooled
i-AD 6,7-124,4 kWDual Fluid, air cooled
i-AT 7,4-130,2 kWDual Fluid, water cooled
i-AF 7,4-130,2 kWFree Cooling
COOLING
AC 4,6-225 kWChilled Water
AB 22,5-148 kWChilled WaterDouble Circuit
COOLING
RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION
RE-HEATING DEHUMIDIFICATION
COOLING RE-HEATING DEHUMIDIFICATION
RE-HEATING DEHUMIDIFICATION
AX 4,9-95,4 kWAir cooled
AW 5,2-99,3 kWWater cooled
AD 23,7-98,8 kWDual fluid air cooled
AT 24,9-101,9 kWDual fluid water cooled
AF 24,9-101,9 kWFree Cooling
Dry Cooler with axial-type fan(s).
BDC 8-210 kW i-BDC 14-210 kW
DRY COOLER CLIMAVENETA INFRASTRUCTURES
High quality cabinets for protecting and housing servers
Aisle Containment solution for high density applications
CV RACK CV AISLE CONTAINMENT
EC AXIAL AXIAL
r HFCR-410A
SCROLL
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MANAGEMENT AND CONTROL SYSTEMS
A full range of controllers, supervision and metering devices complete the Climaveneta High Density Data Center Cooling solutions. They allow for enhanced efficiency, synergies among all the components and the reliability of the system.
NECS-FCFree-Cooling chillers with scroll compressors, optimised for Data Center application.
SCROLL
NECS-FCAcoustic versions
B base versionSL super-low noise version
40 400
0 100 200 300 400 500 600 700 800 kW900 1000 1100 1200 1300
r HFCR-410A
FX-FCFree cooling chiller with screw compressors: robust, reliable and highly energy efficient.r HFC
R-134a
SCREW0 100 kW
FX-FCAcoustic versions
T Free cooling version SL-T Super low noise version
with free cooling200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400
332 1450
Control Devices
DATA CENTER MANAGERGroup andregulation device
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Monitoring devices
FWS3000
Measurement & Verification devices
DEMETRA
Dedicated monitoring software for complex cooling plants including multiple redundancies.
0 100 200 300 400 500 600 700 800 kW900 1000 1100 1200 1300
230 1200
TECS VISION 2.0Air and water cooled chiller with magnetic levitation compressors. The World's Most Advanced Technology in the refrigeration industry.
Acoustic versions
SL-CA Super Low noise version, Class A of efficiencyXL-CA Extra Low noise version, Class A of efficiencySL-CA-E Super Low noise version, very high efficiency, Class A enhanced
CENTRIFUGAL
Essential forTrue PUE Metering
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Sir Francis Bacon British Philosopher (1561 - 1626)
TMC - TRANSPORT MANAGEMENT CENTRESouth Africa - Cape Town Installed Machines: 5 AD 070 Close Control Units, 1 AD 030 Close Control Units
BOUYGUES TELECOMFrance - BobignyData center Total cooling capacity: 433,9 kW Installed appliances: 2x i-AX Close Control Units, 15x i-AX Close Control Units
ALCATELItaly - Bergamo Data centerTotal cooling capacity: 3570 kW Installed appliances: 39x AC, 7x AX Close Control Units
PARTIKELTHERAPIEZENTRUMGermany - Kiel Healthcare & Hospitals Total cooling capacity: 900 kW Installed appliances: Several HPAC units, ACCURATE range
ALPHA BANKRomania - Bucharest Financial Institutions Total cooling capacity: 548 kW Installed Appliances: 4 AT 60 Close Control Units, 4 AT 77 Close Control Units
NUOVO PIGNONEItaly - Florence Data center Total cooling capacity: 400 kW Installed appliances: 5x i-AX , 4x CRCX-I, 4x i-HCAT
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CLIMAVENETA SOLUTIONS FOR DATA CENTER COOLING, WITH THEIR UNBEATABLE ADVANTAGES IN TERMS OF EFFICIENCY, QUALITY AND RELIABILITY, ARE ALREADY THE PREFERRED CHOICE IN THE MOST CHALLENGING AND PRESTIGIOUS PROJECTS, ALL AROUND THE WORLD AND WITH ALL THE MAJOR BRANDS.
LG CHEMICALSSouth Korea - Seul
Chemical & pharmaceuticalTotal cooling capacity: 120 kW
Installed appliances: 2x AX 60 Close Control Units
ENICongo - Pointe Noire
Office buildingTotal cooling capacity: 284 kW
Installed appliances: 4x AXU, 9x ACO, Fan Coil Units, Air Handling Units
BRE BANKPoland - Warsaw
Bank Offices Installed appliances: 6x AX Close Control
Units, 1x BRE, 1x BRE, 1x BRE, 1x BRE, 2x HCAT
SHELTER TIMItaly
Telecommunications Total cooling capacity: 1125 kW
Installed Appliances: Several HPAC units, ACCURATE range
Total cooling capacity: 1200 kW Installed Appliances: 2 air cooled
chiller with EC-fans
VODAFONE CEDItaly - PaduaData center
Total cooling capacity: 968 kWInstalled appliances: 2x NX, 6x AC Close
Control Units
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9 PRODUCTION SITES ORGANIZED ACCORDING TO LEAN MANUFACTURING PRICIPLES
WITH 40 YEARS LEADING EXPERIENCE
CLIMAVENETA IS A MAJOR WORLD PLAYER
IN THE AIR CONDITIONING, HEATING AND PROCESS COOLING
INDUSTRY.
Based on 9 manufacturing facilities and present in over 100 countries around the world, Climaveneta has developed a full range of high efficiency solutions for any kind of building and cooling requirement.
Its systems are the preferred choice of the most demanding customers for the most challenging projects all around the world.These achievements are the result of an unbeatable know-how and a strong focus on R&D, proven also by its many patents in many different technologies and applications. With this background Climaveneta has anticipated the high-technology challenges for cooling of Data Centers, developing a complete range of high efficiency leading edge solutions that has already set a new technology milestone in this field.
HeadquartersOperational area:12.500m2
Production of:< Chillers: air and water cooled, from 30
to 700kW< Reversible units: air and water cooled,
up to 400kW < Multipurpose up to 400KW< Chillers with free-cooling up to 300kW
Operational area:25.000 m2
Production of:< Chillers: air and water cooled, from 200
to 1700kW< Heat pumps: air and water cooled, up to
2400KW< Multipurpose units: up to 700KW < Chillers with free-cooling up to 1250kW< Shell & tube evaporators < Roof-top units up to 500kW
Climaveneta Training centreOperational area:7.000 m2
Production of:< Air handling units
Operational area:20.000m2
Production of:< Split and multisplit systems< Chillers and heat pumps up to 150kW< Hydronic fan coils from 1 to 30kW< Close control units< Telecommunications units
Climaveneta 1 Bassano del Grappa-Italy
Climaveneta 2 Belluno-Italy
Climaveneta 3 Belluno-Italy
Climaveneta 4 Treviso-Italy
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Head offices and foreign branches- Climaveneta SpA in Italy- Climaveneta France- Climaveneta UK- Climaveneta Deutschland- Climaveneta Espaa- Climaveneta Poland- Climaveneta Chat Union Refrig. Equipment Co Ltd in China- Climaveneta India Climate Technologies (P) LTD- Climaveneta UK LTD
Distributors Over 55 distributors in more than 100 countries of the
world for a truly complete market coverage.
Service Service is assured in all countries through the
assistance networks of our subsidiaries and distributors with highest expertise, a wide range of after sales service contracts for a truly complete support.
1EUROPEAN AND 5WORLD MANUFACTURER,2 TO 2.400 KW COOLING POWER RANGE
17 TEST LABORATORIESOVER 70 PEOPLE IN R&D
40 YEARS EXPERIENCE90.000 M2 PRODUCTIVE AREA1971 ESTABLISHED INBASSANO DEL GRAPPA (ITALY)
SINCE 2012 A DEL CLIMA COMPANY 245 MILLION TURNOVER 2013
SOMETIMES NUMBERS SAY MORE THAN A THOUSAND WORDS
Operational area:2.500 m2
Production of:< Direct expansion units< Compact units< Rooftop units for small and
medium applications
Operational area:15.000 m2
Production of:< Air cooled chillers & heat pumps
from 40 to 1700kW< Water cooled chillers & heat
pumps from 10 to 3070kW
Operational area:4.500 m2
Production of:< HPAC units for the Eastern
market< Evaporators< Condensers
Operational area:8.500 m2
Production of:< AHU units< Fan coils
Operational area:2.500 m2
Production of:< HPAC units
CV Parets De Valles Barcelona-Spain
CV Chat Union Shanghai-China
CV Refrigeration Shanghai-China
Climaveneta 8 Shanghai-China
Climaveneta 9 Bangalore-India
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