Room level airflow management in the data center is fraught with misconceptions and half-truths, making it among the least understood aspects of airflow management. Ironically, it’s also among the most important. While it’s fairly well understood that the first three levels — or R’s — of airflow management refer to implementing solutions, such as brush grommets, blanking panels, and containment for the raised floor, rack, and row levels, respectively, the room level isn’t quite as simple. This is primarily because the necessary changes are invisible (except for the occasional displays on cooling units).
For clarity, room-level airflow management is better defined as cooling optimization, referring to the process of making adjustments to data center cooling system controls. If done well, this process will improve energy efficiency (resulting in reduced operating costs), cooling capacity, IT equipment reliability, and defer capital expenditures. It’s important to note here that without cooling optimization (i.e., room-level airflow management), any other airflow management solution that has or will be implemented, including the products previously mentioned, is an expense. While these solutions may have improved IT intake air temperatures, the financial and capacity benefits are left on the table. The only way to realize energy savings from airflow management improvements made at the raised floor, rack, and row levels is through cooling optimization.
And while the process of data center cooling optimization is typically a manual and iterative process, utilizing solutions such as infrared (IR) thermometers or environmental monitoring will ensure IT intake temperatures do not exceed their recommended or allowable thresholds. Some monitoring solutions can even provide advisement on specific optimization steps that can be taken.
MATCHING COOLING CAPACITY WITH IT LOAD
Airflow management alone doesn’t save a data center’s facility manager money on cooling energy costs; instead, it improves IT equipment intake air temperatures and creates the conditions where changes to the cooling infrastructure are possible. Reason being, if the appropriate airflow management solutions have
been correctly implemented at the raised floor, rack, and row levels, there should now be an excess of conditioned supply air in the cold aisles, and all IT equipment intake air temperatures will be excessively low. This is because exhaust air is no longer being mixed with conditioned air and vice versa.
The next step is to match the flow rate of conditioned air as closely as possible with the demand flow rate required by the IT equipment. This is done by lowering fan speeds, raising cooling unit temperature set points, or turning cooling units off altogether. This is often an iterative process of making adjustments to the controls, allowing the system to equalize before making additional adjustments if needed. Since data centers are dynamic environments, this will be an ongoing process — not a one-time event. Each time additional airflow management improvements are implemented or significant IT equipment changes occur offers an opportunity to optimize the cooling infrastructure.
ROOM-LEVEL AIRFLOW MANAGEMENT (COOLING OPTIMIZATION) BEST PRACTICES
The typical steps that need to be taken to properly match the cooling capacity of your data center with the IT load (i.e., optimize the cooling infrastructure) are:
- Reduce fan speeds for units with variable frequency drives (VFDs) as much as possible without exceeding the maximum allowable IT equipment intake air temperature.
- Raise cooling unit temperature set points as high as possible without exceeding the maximum allowable IT equipment intake air temperature.
- Expand the allowable relative humidity (RH) band to prevent cooling units from “fighting” with each other (wasting energy because one unit is trying to dehumidify while another is trying to humidify).
- Turn off excess cooling if cooling units don’t have VFDs. If they are equipped with VFDs, energy savings are greater with 10 cooling units running at 50% fan speed than five cooling units running at 100% fan speed.
After any significant airflow management improvement or IT load installation/removal, there’s an opportunity to evaluate these room level controls to ensure efficient operation and sufficient redundant capacity.
DATA CENTER EFFICIENCY CAN’T BE PURCHASED; IT MUST BE MANAGED
Room level airflow management is not actually airflow management in the literal sense but instead cooling optimization. Nonetheless, room-level airflow management is a necessary step and the only way for your data center to realize energy savings from airflow management improvements made at the raised floor, rack, and row levels. Don’t forget that every solution that has been implemented up until the room level is an expense. It’s only when one checks in at the room level and makes cooling infrastructure changes that the benefits may be reaped in the form of cooling energy savings, improved cooling capacity, improved IT equipment reliability, and deferred capital expenditures. Efficiency cannot be purchased; it must be managed.
Cooling Optimization is an iterative and ongoing process, boiling down to matching cooling capacity with the IT load of the computer room. Although this will be a manual process in most cases, utilizing monitoring solutions that give you a look at the power, cooling, and thermal performance of the data center will help guide optimization decisions and, in some cases, advise on specific steps that can be taken.
What Cooling Optimization Best Practices have been most effective in your facility? What do you wish you’d done when trying to improve room-level airflow management? Share your stories and ideas with us below!