Frankfurt IV – Building 2

Willhelm – Fay Strasse

Frankfurt, Germany

FRANKFURT IV – BUILDING 2

 

CyrusOne Frankfurt IV – Building 2 is a brand-new state-of-the-art data center strategically located in Sossenheim. The building will ultimately deliver 6,000 sq m (64,584 sq ft) of world-class technical space within a single two-story building plus a basement with an IT load of 18 MW.

CyrusOne Data Center
Willhelm- Fay Strasse 58
65936
Frankfurt, Germany

Latitude: 50 07 53.21 N
Longitude: 8 34 40.31 E

Frankfurt IV – Building 2 – Highlights

  • Overview
  • Power
  • Cooling
  • Security
  • Fire Protection
  • Sustainability
  • Connectivity
  • Amenities

Cooling photograph of cooling elements.

  • 6,000 sq m (64,584 sq ft) of world-class technical space within a single-two story building plus basement
  • 18 MW of total IT load to the building
  • Highly resilient, concurrently maintainable power and cooling to Tier III
  • Dedicated electrical plant to each data hall of 9 MW
  • Low PUE through the use of free cooling chillers
  • 900 mm heavy duty raised floor with 3,600 mm clear height in the data hall
  • Active / Active dual redundant power supplies of 32 MVA to building
  • Carrier neutrality and diverse fibre connectivity to site
  • Secure managed delivery bay with 8 tonne goods lift
  • Multi-layer industry-leading levels of physical and electronic security with 24/7 year-round onsite support

London cooling photo.

  • Cooling configured on a resilient ring chilled water system
  • 9 MW IT capacity cooling solution
  • N+1 free cooling air-cooled chillers
  • Computer room air handling units at N+4
  • Circulation pumps N+1
  • Low PUE due to cooling solution and optimum chilled water temperature to maximise free cooling hours
  • Cooling infrastructure individually managed and linked to BMS
  • Independently regulated temperature and humidity
  • Power supplies to cooling equipment for full redundancy configured in a block redundant topology

Fire extinguisher photo of London IV facility.

  • Three stage fire detection systems into data halls and UPS plant areas
  • VESDA (Very Early Smoke Detection Apparatus) in data halls and UPS plant rooms for early warning
  • Fire detection in all rooms and in voids as required
  • Nitrogen based centralised gas suppression system to data halls and UPS rooms
  • Fire detection and suppression systems interconnected to central BMS

  • Mains power supplied via 100% rated A&B 110 KV incomers diversely routed active / active with a capacity of 50 MVA to supply Frankfurt IV-Buildings 1 and 2
  • All IT power metered and charged as consumed
  • 7 to make 6 block redundant topology to provide 9 MW per floor
  • 99.99% reliability with the ability for concurrent maintainability
  • IT power supplies are derived from primary and reserve feeds from each block to create an IT distribution topology between all 6 blocks with a reserve from the 7th
  • Block redundant UPS topology with 10-minute battery back-up as standard
  • Fully rated LV back-up redundant generators with 48-hour fuel autonomy, capable of continuous running
  • Re-fuelling contracts to ensure timely replacement

  • 3 metre high security perimeter fence with concrete base
  • Vehicle lock at the entrance to site with PAS 68 rated gates to protect from physical attack
  • Manned gatehouse at the entrance to site
  • Extensive external CCTV to cover external areas of the site including the perimeter fence
  • 24/7 year-round-on-site security located in a secure control room
  • Extensive CCTV and access control throughout the facility
  • Progressive layers of security to restrict access through the site
  • Mantraps with biometric readers into data halls if required

The building is certified BREEAM Very Good, guaranteeing it complies with multiple sustainable criteria, including:

  • Sustainable site and waste management – General Contractor demonstrates best practice and meets our KPI’s in all areas
  • Reduction of CO2 emissions through design – this brand-new high-performance building only utilizes best in class highly efficient technology and OFCI’s
  • Reduction in water use and reuse – the closed-loop chilled water system delivers industry-leading PUE alongside measured low water usage
  • Lower environmental impact of the building over its full life cycle – achieved through the use of ‘Green Guide’ high-performance materials
  • Limited impact on ecology – damage is limited during construction and habitats are enhance thereafter by investment in creating biodiverse landscapes with native pollinating planting schemes where possible
  • Reduced impact on climate change & local environment – using materials with low global warming potential (GWP) provision of electric vehicle charging, sourcing staff locally and supporting the local economy
  • Best practice design for health, wellbeing and occupancy ensuring thermal comfort, lighting and control, indoor air quality and acoustic performance, encouraging reduction in car travel through the provision of cyclist facilities

Connectivity illustration.

  • Carrier neutral access and diverse fibre connectivity to active A&B Meet Me Rooms from multiple telecommunications providers
  • Four diverse fibre routes onto site

  • Air cooled UPS modules with mechanical cooling only at high ambient conditions
  • Sequence and variable mode UPS modules, dedicated to each hall
  • Integrated A&B MV infrastructure along with distributed N+1 LV generators for increased resilience
  • Phasing to allow for tenant specification requirements
  • Remote intelligence control algorithms to remove reliance on central BMS