STULZ worldwide

CyberCool Indoor

Maximum precision for fluctuating heat loads

STULZ CyberCool Indoor provides powerful, highly efficient indoor chilled water cooling with a minimal footprint and is perfectly suited for cooling medical equipment, IT and facilities. The unit's modern design and compact construction allows it to be installed inside the building easily, as well as integrated in existing systems. The version with speed-controlled EC compressor was developed for especially stringent project requirements.
 

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Product Overview

At a glance Benefits Features Technical Data

Most important benefits

  • Integrated Free Cooling function for low total operating costs (GE/GES system)
  • Customized adaptations and special solutions for every application
  • Installation in the immediate vicinity of the consumer

Most important features

  • Available with and without EC compressor
  • Three different systems available

Most important technical data

  • Cooling capacity (kW): 20 – 100
  • Integrated Free Cooling function for low total operating costs (GE/GES system)
  • Customized adaptations and special solutions for every application
  • Installation in the immediate vicinity of the consumer
  • Quiet condensers or dry coolers minimize noise emission outdoors
  • Simple to integrate in existing chilled water networks
  • Chiller for indoor installation
  • Available with and without EC compressor
  • Three different systems available
Cooling capacity (kW) 20 – 100
Sizes 2
Dimensions Height (mm): 1,980

Width (mm): 950 – 1,400

Depth (mm): 890
Cooling Systems air-cooled (A/AS), water-cooled (G/GS), hybrid Free Cooling system (GE/GES)
Refrigerants R410A (GWP: 2,088)

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All details about CyberCool Indoor

Simple setup and integration

The compact CyberCool Indoor also fits through standard doors and can be set up anywhere without any problems. Spatial segregation of the two noise sources and the use of especially quiet condensers or dry coolers minimizes overall noise emissions. As all the important components are integrated in the CyberCool Indoor, its sensitive technology is perfectly safe inside the building. What is more, CyberCool Indoor is perfectly protected from vandalism or accidental damage.

Chiller available in three cooling systems

Always the right choice: CyberCool Indoor with three cooling systems

In order to guarantee chilled water generation to suit requirements, CyberCool Indoor is available in two versions and three different systems. The systems allow for scalable planning and grow at the same pace as your future requirements.   

Energy efficiency, investment volume, operating costs, room size, noise protection, redundancy and local climate – every project has its own requirements in terms of appropriate indoor chilled water generation. Our customers can choose between different configurations and so achieve an ideal balance between capital investment, running costs and energy efficiency. STULZ is the world's only manufacturer to offer such a huge range of configuration options.

 

Air-cooled (A/AS)

 

The compact standard solution

A chilled water circuit transfers the heat load to the evaporator where the heat is drawn from the water and passed to the refrigerant. The refrigerant gives off the heat to the outside air via an air-cooled condenser.

Benefits of the system

  • Tried and tested, rugged technology
  • Reduced to just the major components
  • Refrigerant used as transport medium for optimum heat transfer

 

Water-cooled (G/GS)

Water-cooled: Quiet and easy to integrate (G/GS)

Like A/AS on the direct evaporator principle – with one difference: the heat is transferred to a water/glycol mixture via an integrated plate condenser; this mixture gives off its heat to the outside air in a closed circuit via an external dry cooler.

Benefits of the system

  • Integrable in existing chilled water networks
  • Dry cooler can be linked to several units
  • Pumps allow a large distance between the CyberCool Indoor and the dry cooler

 

Water-cooled with integrated Free Cooling function (GE/GES)

Maximum efficiency

Like G/GS, but with Indirect Free Cooling which replaces energy-intensive compressor operation in part or in full when outside temperatures are low. In FC mode, the heat is transferred straight to the chilled water circuit by an integrated Free Cooling heat exchanger and given off into the outside air via an external dry cooler.

Benefits of the system

  • TCO leader: Minimal total operating costs over runtime
  • All Free Cooling (FC) components integrated in the unit
  • The most efficient system thanks to intelligent switching of operating modes (DX - mixed - FC)

 

Maximum efficiency with Free Cooling

The CyberCool’s most efficient mode for indoor cooling is selected automatically depending on outside temperature – reliably throughout the whole year and whatever the local temperature profile.

 

Compressor mode (DX): At high outside temperatures, entire cooling capacity is achieved using the compressor. The use of perfectly-matched components means that the CyberCool Indoor already works extremely efficiently, even in this mode.

Mixed mode: At moderate temperatures, the CyberCool Indoor runs in energy-efficient mixed mode, a mixture of free cooling and significantly-reduced compressor cooling.

Free Cooling mode (FC): At low outside temperatures, free cooling delivers the greatest potential savings. In this case, only outside air is used for cooling, compressor cooling is switched off completely.

(Illustration at right: temperature profile of Hamburg)
 

CyberCool Indoor EC – the TCO leader

In the EC variant, two complete but redundant refrigerant circuits are fitted for maximum operational availability. In addition to the ON/OFF compressor which comes as standard, an infinitely variable-speed EC compressor ensures maximum efficiency in partial load mode. This means that the unit responds especially rapidly to fluctuations in load and changes in temperature.

Benefits of the EC-Version

  • Redundancy means operational availability
  • Rapid adaptation to fluctuating loads
  • Maximum efficiency in partial load mode
  • Integrated compressor soft-start and continuous operation without compressor on/off cycles result in a very long life-time

 

Variable cooling capacity in partial and full load mode

10 * – 50 % cooling capacity:
The EC compressor is infinitely controllable and generates exactly the cooling capacity required. The ON/OFF compressor is switched off.

~ 50 % cooling capacity:
If approximately 50 % of total cooling capacity is required, the ON/OFF compressor constantly delivers the cooling capacity required. The EC compressor is switched off.

50 – 100 % cooling capacity:
The ON/OFF compressor generates 50 % of cooling capacity continuously. The EC compressor is infinitely controllable and generates the cooling capacity required over and above this.

* depending on model and operating conditions
 

The integrated free cooling function is enabling CyberCool Indoor to consolidate its position as technology leader among indoor chillers. Also equipped with an EC compressor (GES system), the unit is especially efficient in partial load mode. The interaction between variable-speed compressor and Indirect Free Cooling guarantees particularly energy-saving mixed mode. When compared directly to an A system, it is clear that the low operating costs soon cover the higher investment costs.

Optimal cooling generation for mission-critical applications

Benefits in cooling medical technology

  • Quiet condensers or dry coolers minimize noise emission outdoors
  • Particularly quick response to variable loads (EC version)
  • No glycol in hygienically sensitive indoor areas

Benefits in data center cooling

  • Indirect Free Cooling for maximum savings potential
  • High chilled water temperatures of up to +18 °C (outlet) and +25 °C (inlet)
  • Dual power supply (optional) provides a high level of reliability

Benefits in process and industrial cooling applications

  • Customized solutions for every application
  • Broad operating range (chilled water outlet between +4 °C and +18 °C)
  • Simple to integrate in existing chilled water networks
  • Installation in the immediate vicinity of the consumer

Control and monitoring

  • Project-specific software development and optimization
  • Compatible with all common BMS protocols
  • Runtime comparison and alarm switching ensure availability
  • Machine-independent parallel operation of several chillers
  • Sophisticated warning and alarm system

Options

Second power source for the greatest possible reliability

One of the key requirements for mission-critical and sensitive applications is uninterrupted cooling - in the event of a power outage, for example. To guarantee stable cooling capacity in spite of this, STULZ provides the option of an automatic transfer switch fitted directly in the switch gear cabinet. If the primary power supply fails, this is detected automatically and the system defaults to a second power source within a minimum of 180 ms.

Double pump

  • Additional chilled water pump for internal redundancy
  • Standard (2 bar) and high pressure (3 bar) version available
  • Normal-priming multistage pumps
  • All water-bearing parts are stainless steel Made in Germany

 

Water pipings

  • Water pipings lateral, at the back or above possible (standard: at the bottom)
  • Several pipe connections possible, e.g. Victaulic or flange (standard: screw connection)

Speed-controlled pump

  • Efficient partial load operation
  • Exact adjustment of discharge head and volumetric flow to the chilled water system
  • Normal-priming multistage pump with integrated frequency converter
  • Made in Germany

Project story: Cooling in perpetuity

STULZ implements air conditioning solution for RAG data center at the former colliery Pluto

More demanding efficiency and safety requirements meant the RAG company needed a new data center. For its air conditioning, RAG chose a solution from STULZ. The new units enable Mixed mode with an infinitely variable combination of Free Cooling and DX cooling, for greater energy efficiency.

Read our RAG data center project story

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, system or control: CyberCool Indoor is a model of adaptability and the chiller units can be precisely adapted to your individual requirements. In addition, a variety of options and equipment versions are available to achieve the optimum result.

Learn more about Climate. Customized.

Service and maintenance

As a company with locations across the globe, we offer everything you need in the extremely dynamic world of information technology – plus professional advice in the right place at the right time.

Our trained and experienced sales and service partners are located in over 140 countries. The resulting proximity to our customers allows fast response times. In addition, regular training courses and an active exchange of information ensure high quality and an extensive knowledge of all our products. This way, you can be sure your products are in the best hands and get the right maintenance – all over the world.

Locations worldwide

 

Test Center

CyberCool Indoor units are subjected to a full computer-controlled check in the STULZ Test Center. Extensive measurements under a wide variety of conditions show the actual performance data of the systems and components, bringing transparency to the theoretical design data.

Learn 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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