STULZ worldwide

Indoor Air Handling Units

New design concept for greater performance, energy efficiency and redundancy

Breaking new ground: When it comes to large and hyperscale data centers, conventional air conditioning systems are up against their limits. Restricted space, electricity consumption and high heat loads are some of the challenges that need to be overcome. STULZ offers solutions to these challenges and guarantees efficient, demand-based and reliable air conditioning of your mission-critical equipment.

Our air handling units unique design allows space for taller server racks with greater IT load densities, therefore enabling air conditioning of the maximum heat load.

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Product Overview

At a glance Benefits Features Technical Data

Most important benefits

  • Reliable air conditioning of taller racks and higher heat loads
  • Large air throw for uniform cooling of large server rooms
  • Low pPUE values achievable

Most important features

  • Modular design ensures redundancy
  • Easy access for maintenance purposes

Most important technical data

  • CyberWall Cooling capacity (kW): 221
  • Custom Indoor AHU: Technical data on request
  • Reliable air conditioning of taller racks and higher heat loads
  • Large air throw for uniform cooling of large server rooms
  • Units with Free Cooling option enable maximum potential savings
  • Low pPUE values achievable
  • Extremely low AER (Airflow Efficiency Ratio) values thanks to minimal pressure drops
  • Small footprint with maximum cooling capacity
  • Air handling units with low noise level
  • Modular design ensures redundancy
  • Wall-mounted installation with horizontal air conduction
  • Easy access for maintenance purposes
  • No raised floor required
  • Comprehensive service in over 140 countries worldwide

Technical data for CyberWall (WBF 2000 CW)

Cooling capacity kW 221
Airflow m3/h 55.000
Dimensions (W x H x D) mm 2.200 × 3.000 × 1.660

* Return air conditions: 37 °C; 25 % r. h.; chilled water: 16/26 °C

Technical data for Custom Indoor AHU on request.

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Indoor Air Handling Units design concept

All details about Air Handling Units for indoor installation

Design concept

Indoor Air Handling Units design concept

1. No raised floor required
2. The entire cold aisle is air conditioned
3. Wall-mounted installation with horizontal air conduction
4. Hot aisle containment
5. Taller racks
6. Return air duct
7. Service corridor
8. Air Handling Units

A new cooling concept for air conditioning maximum heat loads

  • Air handling unit with small footprint and maximum cooling capacity
  • Taller racks and higher heat loads are possible, as no raised floor is required
  • Larger supply air area for a high air flow rate at low air velocity and uniform air conditioning
    along the entire cold aisle
  • Optional dampers prevent air recirculation
  • Low noise level thanks to optimized air conduction and low pressure drops

Modularity

  • Systems can be adapted to the project-specific room size and different site conditions
  • Modular design enables efficient utilization of space and increases operational reliability through redundancy
  • Higher cooling capacity per wall length: thanks to the design concept, units can be positioned directly next to each other
     
Modularity Indoor Air Handling Units
Modularity Indoor Air Handling Units
Modularity Indoor Air Handling Units

Energy efficiency

  • Low pPUE values achievable
  • AHU designed for high supply and return air temperatures within the range recommended by the ASHRAE-TC-9.9 guidelines
  • Exceptionally low AER (Airflow Efficiency Ratio) values and therefore maximum efficiency in terms of air conduction
  • Maximized heat exchanger surfaces for high chilled water temperatures and minimal pressure drops
  • Hot aisle containment for physically separating the hot and cold air, to completely prevent the airflows from mixing
  • EC fan technology for maximum efficiency
  • Lowest total cost of ownership (TCO)

Perfect hydraulic coordination of liquid cooling systems thanks to pressure independent control (PIC) valve

  • Automatic hydraulic compensation
  • Precise, stable operation whatever the heat load
  • Reduced energy consumption of pumps in the chilled water system
pressure independent control (PIC) valve Indoor Air Handling Units

Maximum added value with our self-developed control system

We strive to bring you added value. Perfect coordination of the controller, software and air conditioning units brings you additional reliability and efficiency. We therefore develop our own hardware and software in a holistic and integrated overall process – to exploit the maximum possible benefits for you.

 

  • Built-in added value: Our controllers are designed for controlling and monitoring air conditioning systems and for the parallel operation of several machines.
  • Intelligent control system: Optional sequencing with standby functions enables individual air conditioning modules of a group to be used to a greater or lesser extent with the utmost flexibility.
  • Reliable documentation: Monitoring and reporting in addition to recording the indoor climate
  • Maximum flexibility: Compatible with all common BMS protocols
  • Maximum performance: The controllers enable the centralized control of up to 20 air conditioning modules per group.

 

self-developed control system Indoor Air Handling Units

Air handling units by STULZ: The complete solution

Our Air Handling Unit solutions for indoor installation are more than just products. We offer you a complete service portfolio – a turnkey solution for cooling your data center:

  • Worldwide, professional service
  • Start-up
  • Maintenance
  • Optimization of operations
Service and maintenance Indoor Air Handling Units

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
 

Service and maintenance Indoor Air Handling Units
Service and maintenance Indoor Air Handling Units
Service and maintenance Indoor Air Handling Units

CyberWall – standard unit with rapid availability

At a glance

CyberWall units engineered and produced in Hamburg are compact and easy to transport. The unit design has been tested and optimized to guarantee efficient and reliable cooling of your entire server room. The unit with chilled water system is specially designed for indoor installation and, as a standard unit, offers shorter delivery times.

 

Advantages CyberWall

  • Maximum cooling capacity with minimum power consumption
  • Airflow optimized using CFD analyses to ensure uniform distribution
  • Baseframe and panel design optimized for indoor installation
  • Space-saving, cost-effective transport in a standardized shipping container
  • Easy handling and installation
  • Modular design for fast and easy installation of air handling units
  • All maintenance can be performed from the service corridor
  • Various control options based on Delta T, differential pressure control, and room air and return air
 
Advantages CyberWall

Intelligent positioning of components ensures a flow-optimized design

Thanks to their flow-optimized design, our CyberWall units have the lowest pressure drops and therefore achieve the greatest possible energy savings, which are immediately noticeable. The components are arranged to ensure maximum utilization of the heat exchangers and uniform air distribution along the entire length of the aisle.

flow-optimized design Indoor Air Handling Units

CFD analysis for optimizing operation

In order to avoid pressure losses and to ensure an even temperature distribution, a comprehensive CFD analysis was made during the development of the CyberWall. The results enabled us to test and optimize the flow in all areas of the CyberWall. The outcome is a perfectly uniform flow through the heat exchanger, which maximizes cooling capacity while simultaneously minimizing fan power input.

 

CFD analysis for optimizing operation Indoor Air Handling Units
CFD analysis for optimizing operation Indoor Air Handling Units

Options

  • Filter classes according to ISO 16890: ISO Coarse 90% (G4) or ISO ePM10 70% (M5)
  • Just undo the clamping screw for rapid filter replacement, Filter pressure monitoring
  • Aluminum air dampers
  • Various heat exchangers available
  • Pressure independent control (PIC) valve
  • Pressure independent control valve for indicating cooling capacity and EER values
  • Dual power feed with automatic switchover
Options Indoor Air Handling Units

Custom Indoor AHU – tailored to your individual requirements

Climate. Customized.

Whether standalone or intelligently connected, units from STULZ satisfy all your requirements for long-lasting, perfectly adapted air conditioning solutions. From hardware to software, from design to production to installation, we can supply complete air conditioning systems with maximum energy efficiency that respond precisely, intelligently and reliably to your individual requirements. With STULZ you can be sure of operational reliability, while at the same time significantly lowering your equipment's energy costs and CO2 emissions.

Learn more about Climate. Customized.

Custom Indoor AHU Climate. Customized.

Advantages of Custom Indoor AHU

  • Customized versions thanks to a variety of design options and cooling systems: Direct evaporative method, Chilled water, Direct Adiabatic Cooling, Free Cooling
  • Software is adapted to specific customer requirements
  • Various unit configurations: Horizontal or vertical airflow, standalone or with duct connection
  • Flexible unit dimensions for individual space and customer requirements
  • Unit is designed to suit the customer's service strategies
  • Various heat exchangers available
Advantages of Custom Indoor AHU

Solutions achieved with customers

STULZ offers the ideal solution for individual requirements – from a comprehensive range of cooling capacities and unit configurations to a variety of different cooling systems. With the STULZ Custom Indoor AHU, you have a custom-tailored solution that has been engineered and ideally configured for your application in consultation with you.

In cooperation with our customers, we have already developed numerous customized air conditioning solutions. Work with us to achieve your desired concept, where all details fit your project perfectly.

Solutions Indoor Air Handling Units

Horizontal AHU

Requirements:

  • Air handling unit with maximum capacity and a minimal footprint
  • Redundancy concept for maximum availability
  • Easy service access to all components

Solution:

Thanks to the large heat exchanger surfaces, this solution ensures a high cooling capacity in a single module. The maintenance-friendly design allows side access to the unit. The redundancy concept is ideally implemented by assigning the units in pairs to a cold aisle and by using counterbalanced fan inlet backdraft dampers to minimize air recirculation.

Horizontal Indoor Air Handling Units

Horizontal Stackable AHU

Requirements:

  • Large air throw for particularly long aisle lengths
  • Maximum utilization of the room height
  • Modular design for simple handling and transport
  • No maintenance work in the data center

Solution:

This solution allows easy handling for simple and secure stacking of the units to reduce on-site installation time and cost. Despite the minimal footprint, the AHU is particularly easy to maintain and offers a large air throw thanks to the use of axial fans.

 

Horizontal Stackable Indoor Air Handling Units

Horizontal Split Sectional AHU

Requirements:

  • Direct Free Cooling
  • Minimal noise emissions into the data center
  • Modular design for container transport

Solution:

Due to its dimensions and design, this solution fits into a standardized shipping container. The unit can be reassembled and rewired on site using minimal labor. An integrated module for combining outside air and recirculated air allows efficient use of Direct Free Cooling. Air discharge sound attenuators reduce noise emissions.

Horizontal Split Sectional Indoor Air Handling Units

Modular Split AHU

Requirements:

  • Maximum cooling capacity in a single unit
  • Addition of modules while the data center is in operation
  • Dimensions and weight optimized for service elevators and transport routes

Solution:

Due to the vertical center split, the air handling unit fits into service elevators and can be maneuvered within confined spaces. The modular design allows easy on-site expansion with minimum effort.

Modular Split Indoor Air Handling Units

CAH 2000 CW

Requirements:

  • Optimized for especially high heat loads
  • Maintenance during operation
  • Earthquake-proof

Solution:

This successful design is used at numerous locations. The unit consists of two modules, is earthquake-proof, and the design allows several units to be positioned directly next to each other.  The filters can be changed during operation and foldaway fans allow very easy maintenance.

CAH 2000 CW Indoor Air Handling Units

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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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