LD6 will add over 86,000 square feet of prime, co-location data center ‘white space’ and 12MW of UPS-backed IT power in Slough. New diverse fiber links will connect customers in LD6 to services in the existing neighboring LD4 and LD5 facilities and the global Equinix ‘ecosystem’ of networks, services, and customers.

The campus currently houses over 170 financial services firms which collectively account for 25% of the total European equities trade count.

We provided full SMEP engineering services, project and cost management, and architectural services for the design and site supervision of the Phase 1 $79 million investment. In a first for Equinix in the UK, we are providing LEED consulting targeting Gold certification.

Improving the efficiency

While the mechanical and electrical engineering solutions provide the exceptional levels of resilience and redundancy required by Equinix, the data center also achieves a PUE (ratio of gross building electrical load to net IT load) of 1.2, which has less than a third of the losses of the average UK data center. This will result in a $5.7 million saving in utility bills per year and the reduction of the CO2 output of the data center by 23,000 metric tons of CO2 per year —the equivalent of taking 7,000 cars off the road per year.

The change from a large year-round, refrigerant-based chilled water system to indirect evaporative cooling air handling units, eliminating the use of refrigeration for the vast majority of the year, is the biggest part of achieving the stunning energy performance.

Extensive CFD thermal modeling was undertaken by our specialist team to prove the higher operating temperatures would allow for continuous operation within Equinix’ service level agreement envelope.

Mechanical plant in Equinix London Data Centre 6
High efficiency mechanical plant area providing resilient, evaporative cooling.
Electrical UPS switch room in Equinix London Data Centre 6
Electrical UPS switch room providing resilient power supply.

A custom-designed building

To take advantage of the most efficient mechanical and electrical technologies meant that the building had to be custom-designed to focus on the equipment layout and allow energy-efficient air systems to be used. The mechanical design includes 80 indirect, evaporative cooling air handling units. These air handling units utilize a supplemental summer-peak chilled water system that adds flexibility for high-density customers.

The electrical infrastructure is built of up to 40 500kW UPS modules, 32 1675kVA generators, each using 50-liter, turbocharged V16 engines, and eight transformers fed by two incoming HV supplies. The design allows significant equipment installation work to be deferred until actual customer load requires it, making the best use of capital and improving efficiency by operating equipment at higher loads.

Partners & collaborators

Laing O’Rourke