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CyberRow

For more efficient rack cooling

In the CyberRow, in-line air conditioning unit, innovative horizontal air conduction has been enhanced with state-of-the-art technology that works with power, flexibility and efficiency – directly at the rack. Fluctuating server rack loads, space restrictions, lack of a raised floor, existing high-density server technology – these are exactly the cases from server rack cooling practice for which CyberRow was developed.

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Product Overview

At a glance Benefits Features Technical Data

Most important benefits

  • Suitable for server rack cooling in data centers with or without raised floor
  • Indirect Dynamic Free Cooling for maximum potential savings
  • Targeted cooling of high-density racks

Most important features

  • Can be used with racks from any manufacturer
  • Individual supply air boost in three horizontal zones

Most important technical data

  • Cooling capacity (kW): 11 – 58
  • Air conduction: left and right, left, right, forward
  • Suitable for data centers with or without raised floor
  • Indirect Dynamic Free Cooling for maximum potential savings
  • Targeted cooling of high-density racks
  • Each unit can cool up to six server cabinets
  • Innovative technology and high-quality components keep server rack cooling system’s energy consumption to a minimum
  • Two mutually independent setpoints ensure precise temperature control
  • Up to five independent, variable-speed EC fans for need based cooling in three horizontal zones
  • Variable-speed EC compressor for precise cooling capacity and integrated soft start
  • Easy maintenance thanks to access from the front and rear of the unit
  • Can be used with racks from any manufacturer
  • Server rack cooling including individual supply air boost in three horizontal zones
  • Available in three widths and two depths
  • Available in 5 different cooling systems
  • Optimized cooling air pattern creates a virtual containment
  • Easy integration into hot and cold aisle containments
  • RS485 connectivity to standard BMS systems
  • Zigzag G4 filter with metal frame
  • Powder-coated housing with doors at front and rear
  • Pre-cut openings as standard for water connections top and bottom
  • No direct cable or refrigerant connections are required between the rack and the A/C unit, allowing greater flexibility for installation in the Data Center
  • Pivoting E-box (for service and maintenance)
Cooling capacity total (kW) 11 – 58
Air conduction left and right, to the left, to the right, forward
Airflow volume (m³/h) 3,200 – 11,200
Sizes 6
Dimensions Height (mm): 1,950

Width (mm): 300 – 600

Depth (mm): 1,175 – 1,375
Cooling Systems Air-cooled (A/AS), Water-cooled (GS), Hybrid Free Cooling system (GES), Chilled water system (CW/CW2)
Refrigerants

R410A (GWP: 2,088)

R134a (GWP: 1,430)

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All details about CyberRow

Climate. Customized.

From standard units to fully customized solutions

The ability to offer such a wide range to customers is the embodiment of our philosophy, "Climate. Customized.". Size, design, air conduction, system or control: CyberRow is a model of adaptability and the units can be precisely adapted to your individual requirements regarding server rack cooling. In addition, a variety of options and equipment versions are available to achieve the optimum result.

Learn more about Climate. Customized.
 

Virtual Containment

Unique air conduction

With the CyberRow, STULZ offers an efficient air conditioning solution that is positioned directly between the racks in the server room. Thanks to the innovative horizontal air conduction, the supply air is directed to the server racks and forms a cold air curtain in front of them. There is no air turbulence, which means that up to six server racks can be cooled simultaneously. The high efficiency of the CyberRow units is possible due to their proximity to the server rack: their unique air conduction prevents hot and cold air from mixing. This air conduction is like a virtual containment, dispensing with the need to build actual containments.
 

No air turbulence during server rack cooling

The virtual containment can be clearly seen in this picture. The air flow virtually sticks to the server racks and there is no air turbulence. The cold air takes a direct route to the front of the rack-based servers.

CFD visualization

The red areas – around the EC fans – show that the fans emit the cold air at a very high speed (approx. 9–11 m/s) at the outlets. However, this is only the case as long as the air is in the housing. The partitions installed between the EC fans channel the air flow and the air baffles at the outlet ensure uniform distribution across the entire height of the racks. 

CFD simulation

Comprehensive control over all relevant factors is vital to achieve optimal performance and efficiency in a data center. STULZ contributes to this goal by providing the CFD (Computational Fluid Dynamics) service for data centers, using its unique fluid dynamics expertise at the product level to make the CFD simulation more accurate at the application level.

Learn more about our CFD simulations

Sizes

Minimal footprint for more white space in the data center

Maximum efficiency, precise cooling capacity and a small footprint – the CyberRow is available in three widths and two depths and ensures cost-effective and reliable operation in all situations. The individual units are positioned directly between the racks, and their compact design leaves even more space free for your IT equipment. The units are suitable for racks from any manufacturer, and are available in different depths which enables easy maintenance access from the front and rear at any rack depth.

 

Width: 300 mm, 400 mm, 600 mm

Unit depths: 1,175 mm, 1,200 mm and 1,375 mm

Cooling systems

Energy efficiency, capital investment, operating costs, room size, noise protection, redundancy, local climate – every project has its own specific requirements when it comes to precise air conditioning. That’s why STULZ offers you the opportunity to have the units precisely adapted to your project’s individual requirements. The right air conditioning system is a crucial factor here. The CyberRow is available in five different data center cooling systems, to help you achieve the ideal balance between investment, operating costs and energy efficiency.

 

 

 

Air-cooled system (A/AS)

Air-cooled system based on the direct evaporator principle (A/AS)

Heat is extracted from the room air as it flows through the evaporator, and is then transferred to the refrigerant. The air conditioning unit and condenser are connected to one another by a closed refrigerant circuit. The refrigerant emits the heat to the outside air via the air-cooled condenser.

Water-cooled system (GS)

Water-cooled system based on the direct evaporator principle (GS)

Our water-cooled system works like the air-cooled system, with one difference: the heat from the refrigerant circuit is transferred to a cooling water circuit via a brazed plate condenser integrated in the air conditioning unit. This way, the amount of refrigerant required is low. The heat in the cooling water circuit is then discharged into the outside air via an external dry cooler.

Hybrid Free Cooling system (GES)

Hybrid Free Cooling system with dynamic switching operation and control (GES)

This server rack cooling system functions like the GS system, but additionally features an integrated Free Cooling coil. This way, energy- intensive compressor cooling can be wholly or partially dispensed with at low or temperate outside temperatures. The heat is transferred directly to the cooling water circuit by the integrated Free Cooling coil, and discharged into the outside air via an external dry cooler.

 

Indirect Dynamic Free Cooling

The GES system features dynamic switching operation and control, which guarantees reliable and efficient operation. The combination of Indirect Free Cooling and variable-speed components enables precise cooling adapted to the current heat load, and cuts overall energy consumption to a minimum.

Minimal compressor running time

Using Indirect Free Cooling, the hybrid Free Cooling system exploits the cooling potential of outside air as soon as outside temperatures allow. This enables energy-intensive compressor cooling to be partially or even wholly dispensed with.

No oversupply

The variable-speed components ensure that precisely the required cooling capacity is generated. There is therefore no energy-intensive oversupply during the server rack cooling process.

Minimal refrigerant quantities

As the hybrid Free Cooling system is water-cooled, it only needs a minimal quantity of refrigerant. The result is environmentally friendly operation with reduced greenhouse gas emissions, for a forward-looking investment in the future.

Chilled water systems (CW/CW2)

Chilled water systems (CW/CW2)

The air conditioning unit with CW system manages without a refrigerant circuit of its own, but requires a separate chiller. The air conditioning unit and chiller are connected to one another by a closed water-glycol circuit. For high-availability systems, the CW2 system offers a redundant chilled water supply by connecting one air conditioning unit to two chilled water circuits.


Efficient server rack cooling: Synchronized complete systems
You too can benefit from our perfectly harmonized air conditioning solutions with chillers for indoor and outdoor installation. We are happy to advise you, and work with you to come up with the best solution for your air conditioned server rack.

EC technology

EC compressor

The AS, GS and GES systems are equipped with stepless variable-speed EC compressors, making our systems more efficient than ever. The compressors feature integrated soft start and phase monitoring.

EC fans

Up to 5 speed-controlled fans which can be controlled independently of each other for optimum adaptation to different return air and supply air temperatures.

Control and monitoring

  • Self-developed STULZ controller for regulating and monitoring the air conditioning system
  • Six temperature sensors for precisely controlling Delta T and supply air
  • Controls the operating modes of the hybrid Free Cooling system
  • If a fan fails, the remaining fans speed up
  • Monitoring and reports for all faults regarding server rack cooling
  • Standard RS-485 serial port for connection to BMS using Modbus and STULZ protocols
  • Optional humidity sensor
  • Optional heater
  • Optional humidifier

Project story: Ideal room climate for optimum printing processes

STULZ optimises critical print production conditions at Paragon Customer Communications

When it comes to guaranteeing the fast turn-around of critical regulatory communications, using the fastest print presses in the world, capable of producing up to two million pages a day, Paragon Customer Communications (Paragon CC) know that effective service delivery is increasingly reliant on room  temperatures and humidity.

Paragon was looking for a tailored Air Conditioning solution for their demanding facilities in both a print room and a data centre. Reliability of equipment, no down-time and energy efficiency were the main  drivers, and this is exactly where STULZ could offer a tailored solution providing the equipment and technology needed for cost efficient perfect environmental conditions.

Read the Paragon CC project story

Test Center

In our state-of-the-art, 700-square-meter Test Center with its various climate chambers, we can perform a variety of tests on precision air conditioning units and chillers. During the development of the CyberRow, we were able to test and optimize it under all climatic conditions encountered around the world.

In addition, we offer you the opportunity to book a witness test in our Test Center. This allows you to have the desired air conditioning system tested according to your exact specifications, creating transparency and providing you with information about your system’s performance and energy consumption.

Read more about our Test Centers

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Åland Afghanistan Albania Algeria American Samoa Andorra Angola Anguilla Antarctica Antigua and Barbuda Argentina Armenia Aruba Australia Austria Azerbaijan Bahrain Bangladesh Barbados Belarus Belgium Belize Benin Bermuda Bhutan Bolivia Bonaire, Sint Eustatius and Saba Bosnia and Herzegovina Botswana Bouvet Island Brazil British Indian Ocean Territory British Virgin Islands Brunei Bulgaria Burkina Faso Burundi Cambodia Cameroon Canada Cape Verde Cayman Islands Central African Republic Chad Chile China Christmas Island Cocos (Keeling) Islands Colombia Comoros Congo Congo-Brazzaville Cook Islands Costa Rica Croatia Cuba Curaçao Cyprus Czech Republic Côte d’Ivoire Denmark Djibouti Dominica Dominican Republic Ecuador Egypt El Salvador Equatorial Guinea Eritrea Estonia Eswatini Ethiopia Falkland Islands Faroes Fiji Finland France French Guiana French Polynesia French Southern Territories Gabon Gambia Georgia Germany Ghana Gibraltar Greece Greenland Grenada Guadeloupe Guam Guatemala Guernsey Guinea Guinea-Bissau Guyana Haiti Heard Island and McDonald Islands Honduras Hong Kong SAR of China Hungary Iceland India Indonesia Iran Iraq Ireland Isle of Man Israel Italy Jamaica Japan Jersey Jordan Kazakhstan Kenya Kiribati Kosovo Kuwait Kyrgyzstan Laos Latvia Lebanon Lesotho Liberia Libya Liechtenstein Lithuania Luxembourg Macao SAR of China Madagascar Malawi Malaysia Maldives Mali Malta Marshall Islands Martinique Mauritania Mauritius Mayotte Mexico Micronesia Moldova Monaco Mongolia Montenegro Montserrat Morocco Mozambique Myanmar Namibia Nauru Nepal Netherlands New Caledonia New Zealand Nicaragua Niger Nigeria Niue Norfolk Island Northern Marianas North Korea North Macedonia Norway Oman Pakistan Palau Palestine Panama Papua New Guinea Paraguay Peru Philippines Pitcairn Islands Poland Portugal Puerto Rico Qatar Reunion Romania Russia Rwanda Saint Barthélemy Saint Helena, Ascension and Tristan da Cunha Saint Kitts and Nevis Saint Lucia Saint Martin Saint Pierre and Miquelon Saint Vincent and the Grenadines Samoa San Marino Saudi Arabia Senegal Serbia Seychelles Sierra Leone Singapore Sint Maarten Slovakia Slovenia Solomon Islands Somalia South Africa South Georgia and the South Sandwich Islands South Korea South Sudan Spain Sri Lanka Sudan Suriname Svalbard Sweden Switzerland Syria São Tomé e Príncipe Taiwan Tajikistan Tanzania Thailand The Bahamas Timor-Leste Togo Tokelau Tonga Trinidad and Tobago Tunisia Turkey Turkmenistan Turks and Caicos Islands Tuvalu Uganda Ukraine United Arab Emirates United Kingdom United States United States Minor Outlying Islands Uruguay US Virgin Islands Uzbekistan Vanuatu Vatican City Venezuela Vietnam Wallis and Futuna Western Sahara Yemen Zambia Zimbabwe
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