The difference fire resistance products can make to mission critical projects and data centres

Each mission critical project, including data centre roof design, has slightly different specification objectives. Any nuances will be driven by legal obligations, insurance requirements, and specification needs across geographical zones and countries. By Chris George MioR, regional technical manager at DensDeck for Europe, Middle East and Asia at Georgia-Pacfic.

Data centres are designed to house equipment safely. They tend to be cuboidal in shape and generally house a large amount of building services outside the building. This allows the maintenance of the building services to be undertaken without affecting the sensitive interior humidity and temperature levels and doesn’t put the invaluable technology at unnecessary risk.

 

What is the cost of data centre downtime?

 

Downtime risk mitigation is one of the key design objectives in data centres, and a robust roof that offers maximum protection and requires minimum maintenance is critical. A study into the cost of downtime in data centres by Emerson Network Power (2010) in the US included data from 41 independent, average sized facilities. 

The study found an average financial loss of £4,131 per minute or £247,000 per hour (the original study values are $5,600 and $336,000, respectively). The study also quotes that the main reasons for downtime are uninterruptible power supply (UPS) failure (29%), human error (24%) and water, heat, and air conditioning failure (15%). Leaks are responsible for 10% of all unplanned service outages. It is worth noting that since 2010 our use of, and dependence on, technology has expanded significantly and therefore, the cost of outages is likely to be higher.

 

Data centre roof as a platform for building services

 

As the study above suggests, air conditioning and UPSs are pivotal components of the complex data centre infrastructure. Data centre roofs are frequently used to house a considerable amount of HVAC (heating, ventilation and cooling) plant and building services. This poses multiple risks to the roof build-up during the construction and once the building is finished.

 

The weight and potential failure of the roof mounted plant and a large number of various types of service penetrations to the roof can play a role in the roof design and specification. Another factor is the intensity of roof traffic during the initial installation. The frequent roof traffic may remain once the building is finished, as the installed plant requires continuous maintenance. Dropped tools or removing equipment for servicing can pose a puncture risk to the waterproofing membrane.

 

Is the speed of the data centre roof installation critical?

 

The cost and the speed of assembly are two of the main drivers for data centre roof assembly specification. Flat or low slope roofs with a build-up of metal decks with single-ply or reinforced bituminous membranes and metal top sheets are the most specified roof types. Adhered attachment is preferred over mechanical as it reduces the number of penetrations and, with it, the risks of failure. The recent proliferation of green roofs closely follows this.

 

The sooner the data centre is weatherproofed, the sooner it can operate and create revenue. Regardless of the roof type, installation methods, and roof build-up components, products that can help expedite the weatherproofing stage can be crucial to giving the data centre business edge in an incredibly competitive sector.

 

How can gypsum core cover boards help improve roof performance in challenging weather conditions?

Cover boards can increase the dimensional stability of a roof system. Some traditional boards, such as plywood and OSB (oriented strand board), have limited moisture and moisture vapour resistance without additional weatherproofing treatment. These boards require priming and sanding to ensure compatibility with adhered and semi-adhered roof membranes.

 

Cementitious cover boards can offer improved material compatibility with roofing membranes. However, they are heavy and can be difficult to cut. This can mean more deliveries, manoeuvrability challenges on site and additional strain on labour and resources on site. Most cement cover boards can absorb moisture. This might need to be considered because of the additional weight loading this could pose on the roof structure.

 

In contrast, DensDeck® Prime Roof Boards are enhanced with the patented EONIC® Technology. The cover board offers the benefit of max 5% total water absorption resistance by weight and 1-gram nominal surface water absorption performance on both sides of the board. Data centres are particularly vulnerable to moisture and vapour ingress that could cause damage to technology within the structure. Specifiers lean toward flat roof assemblies that can help prevent moisture ingress and are robust enough to ensure a low risk of failure over long periods. It is worth noting that the performance of specific gypsum core boards may differ by manufacturer.

 

Strength and durability of gypsum core cover boards

Tests were conducted in October 2016 by Trinity ERD in Columbia, South Carolina, on three types of gypsum cover boards. A standard ½ inch (12.7mm) gypsum cover board, a glass fibre mat gypsum cover board by Georgia-Pacific - the DensDeck® Prime Roof Board with EONIC® Technology - and the third was an alternative mat facer gypsum board. The results show that the DensDeck® Prime Roof Board with EONIC® Technology is 52% stronger than alternative gypsum fibre and 57% stronger than alternative coated glass mat gypsum board.

 

After a standard 2-hour soak test, DensDeck® Prime Roof Board was 87% stronger than alternative mat face gypsum and 267% stronger than a standard gypsum board. These performance markers show the long-term structural strength and robustness of the boards when incidentally exposed to moisture.

 

What are the commercial implications of cover board specification?

According to FMI Roof Cover Board Survey 2020, roofs with coverboards were nearly twice as likely to meet the owners' expectations for roof life (86% with vs 52% without). The same survey also showed that single ply roof systems specified with DensDeck® Roof Board extend the median life of the system by four years. The operation and maintenance costs are reduced by approximately £11 per square metre.

 

A roof board can help improve moisture and wind uplift performance and add strength and durability to the low slope of a flat roof system. The roof cover board can also enhance the acoustic and fire resistance of the data centre roof build up. The low weight of the boards and the relatively easy installation that doesn’t require specialist tools are crucial. Construction efficiency is critical for the success of your data centre project.

The data centre construction market is expected to grow at 5.9%, with $350+ billion expected to be spent on their construction by 2027. Measures that protect these mission critical buildings and avoid outages and downtime are imperative. 

________________________________________

[1] Testing was done in accordance with FM approvals 4470, Appendix C: Small Scale Tests, Membrane

Delamination Tests for Roofing Membranes and Substrates Using Tensile Loading

 

With data centres now deemed as critical infrastructure, organisations must evolve beyond...
By Michael Crook, Data Center Market Development Manager, Corning Optical Communications.
By Dael Williamson, Chief Technology Officer EMEA at Databricks.
By Ramzi Charif, VP Technical Operations, EMEA, VIRTUS Data Centres.
Companies are facing a Catch 22 when it comes to the need to invest in new forms of AI, whilst...
Ben hadn’t considered a career in the Data Centre industry until he saw the advert by BCS on the...
By Marc Caiola – nVent Vice President of Global Data Solutions.