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We developed a particular set of tools and an approach that over time became what we now refer to as Design to Value.

In actuality, electricity accounts for just 20% of our energy usage, and we can use these new nuclear technologies to produce not only electricity, but also emissions-free heat, which offers a variety of benefits and uses, from hydrogen production and the desalination of water, to the supply of heat to homes and businesses..Problems with renewable energy: wind and solar challenges.

Realistically, if we truly want to bend the curve on carbon emissions, we must start diversifying our strategies, relying on more than just renewables.Advanced heat solutions represent excellent complementary technologies to wind and solar power, as these renewables face real challenges.For example, low density means that in order to harness enough energy to power the UK, we would need to build a solar farm of an impossibly large size.

Renewables also have problems to do with dispatch power and consistency, as well as challenges with site locations.Last summer, which was a still and cloudy one, wind and solar simply didn’t generate as much energy as we would have liked, and at this stage, all of the easiest, most suitable sites (the ones which may have access to transmission, and are very suited to wind and solar projects), have already been taken.. Interestingly, while energy systems modelling for wind and solar power often shows a hockey stick curve, as if the upward trajectory of deployment will continue undeterred, in actual fact, this isn’t the case.

Over time, we find that the hockey stick turns into an S shaped curve instead.

In other words, renewables are getting progressively harder to do.Flexibility is therefore vital not just for businesses and tenants, but also for developers looking to ensure buildings remain occupied.

In our experience, open plan offices with 7.2m grids and above are best suited to flexible lab conversions as these enable a wide range of bench configurations, larger equipment, subdivision into smaller rooms, as well as compliant installation of future MBSCs (microbiological safety cabinets) and fume cabinets.Some extra space for unexpected changes or new technology introductions will almost certainly be beneficial in the long-run, and consideration should also be given to areas outside the main lab, such as the impact of automation or remote working on write-up and meeting areas.

Rather than cater to all eventualities, a cost-benefit analysis will often drive an ’80:20’ approach towards future flexibility..While office to lab conversions may seem to make good economic sense, compromises around productivity and flexibility can impact the life science business, tenant, or developer in ways that aren’t immediately obvious.