A vision for robotics in construction

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But to really raise the bar on what can be achieved with data centre design and M&E services, it’s essential to understand the mechanical and electrical systems, the architecture and the structure as being intimately interconnected and fully interdependent.Each of these facets must work in harmony to maximise the potential for optimal data centre design and that is impossible to do when the project is divided up and these areas are treated separately..

It is, however, possible to achieve through an integrated design approach and.Data centres developments have baseline costs like utilities, land, civils and structure...So the more data centre capacity you can fit onto your site, the more IT yield per square metre you will get, and the lower your cost per kW will be.. As data centre designers, we must aim to maximise the site yield.

Here’s how we can do this:.It is not uncommon for permitted development on data centre sites to be limited to around 20 metres .

A typical hyperscale data centre design, with the racks, then space for cabling and power, then a ceiling void and structure, will have a storey-to-storey height of often of seven or eight metres, and sometimes more.

In other words, you can have two floors for data halls in a 20 metre planning envelope.. A fundamental reassessment of the integration of cooling systems and structure, and optimised M&E services zones through close coupling of electrical and mechanical systems will yield geometric reductions that can reduce floor to floor height.vs approach temperature(K)..

Note: The footprint shown are for the unit only and exclude any access/air intake space.For plant which are part of chilled water systems, the ancillary equipment is not included in the footprint such as pumps, heat exchangers and pressurisation system..

Some strong correlations can be observed:.Cooling towers offer.