Oil based primers penetrate wood better than latex or water-based primers, providing greater resistance and are less likely to be scraped off during construction.. - Consider design details to prevent water ingress during construction and use.. Fire and insurance.
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.
Constructing less costs less, but this approach has the potential to yield much more.For example, a reduction in floor to floor height to 6.5m would enable a three-storey data centre on that same site – an instant gain of 50% in site yield and significant reduction in cost per kW.. A similar approach to close integration of design and the arrangement of primary plant and ancillary systems will optimise the data centre facility plan footprint.
Again, this maximises yield per m2, with the added benefit of a reduction in costly M&E distribution paths..
Deferring CapEx, delivering predictability.Our unique modelling and analytics team—comprising architects, engineers, mathematical modellers, software coders, and data analysts—creates a strategic way of thinking and working that brings information to life.. Data aggregation + analysis.
The diagram above shows the process of using Chip Thinking® to elicit and capture stakeholder requirements at a range of scales, from a single component up to site deployment.. Chips serve as a unified knowledge hub where all data and stakeholder insights converge, providing a comprehensive understanding for everyone involved.Through digital simulations, 4D planning, and automated configuration tools, stakeholders can fine-tune facility designs to meet standard requirements, optimising every aspect.. By digitally modelling processes or assets as Chips, we can quickly assess their current effectiveness and explore potential changes across diverse scenarios.
This depth of analysis is impossible when focusing solely on individual components.Chips allow easy value adjustments that support targeted process optimisation, leading to seamless improvements in productivity.. Planning for the future becomes straightforward, allowing consideration of various data variables, such as market trends, and calculating their impact on energy or space requirements.