Water considerations for data centre development
At a glance
Following the Accredited Technical Masterclass Future-ready data centres: Designing and optimising for power, water and permitting, this page brings together water-related questions raised during the session alongside the responses shared. Concerns around water supply remain a central aspect of data centre development that needs to be addressed to align community and industry expectations.Your questions answered
1) How much reclaimed water can realistically be used?
The cooling processes can use 100% reclaimed water or any other water sources. However, depending on the location in the process where it is used, a varying degree of further treatment is required (i.e. filtration, disinfection, desalination) which will produce a waste stream (which includes the solid/dissolved impurities and an amount of rejected water).
In general (and there are always exceptions):
- Closed loops require very high purity demineralised water.
- Water-assisted air-cooling cooling sources may use demineralised water or water of similar quality to drinking water or surface water. Demineralised water has effectively zero blowdown waste whereas surface water produces a small amount of blowdown waste.
- Evaporative cooling sources may use a wide range of water qualities, from desalinated water / high purity recycled water (“Class A+”) to secondary or tertiary treated sewage effluent (“Class B” to “Class A”) to sea water, however it typically uses water quality similar to surface water. The choice between water sources relates to availability.
In general, lower quality water will require a lower number of “cycles” which will result in higher make-up water requirements and higher waste production rates.
One important consideration relating to data centre blowdown streams is the compatibility of the chemicals used and cycled up constituents with local sewers / trade waste regulations and downstream wastewater treatment plants. The cumulative effect of multiple sewer mining systems upon the sewer network should also be considered.
2) What is the most desired water disinfection i.e. sodium hypo, UV etc.
The type of disinfection chemical used depends on the source water quality, where the water is being used in the cooling process (i.e., is the water compatible with the process in terms of corrosion / redox potential, scaling, biological growth potential, etc.) and the route for which the resultant waste stream is being disposed of.
A combination of disinfectants and treatment barriers are used for recycled/reclaimed water including advanced oxidation and UV in some cases. If drinking water or surface water is being used for evaporative cooling, sodium hypochlorite or chlorine dioxide are often used. Non-oxidising biocides such as DBNPA can be used, which typically aren’t used for human consumption scenarios.
3) What do you think about rainwater recapture systems which store the water in buried underground plastic containers which can be used for cooling systems?
4) How does shifting to direct-to-chip or immersion cooling impact the facility's overall Water Usage Effectiveness (WUE)?
5) With AI density driving up heat loads, what is the maximum sustainable pumping rate you have seen for deep-well cooling before triggering localised water table drawdowns?
6) What are the main regulatory hurdles when transitioning a facility to use recycled or grey water?
7) Are there any of your projects that are looking to use treated final effluent?
8) How is scope 2 water usage factored into closed loop cooling system?
A broader definition of Scope 2 water could relate to the water used to produce the closed loop system water with the difference being the wastewater stream. If using surface water or drinking water, which is typical, the amount of waste is very small.