Why Are Load Banks Essential For Hospitals And Healthcare Facilities?
Regardless of the market, consistent strength is a must in industry. It goes without saying that an uninterruptible power supply is necessary to ensure seamless continued operation. When we talk about the healthcare industry, the use of reactive and resistive load banks is even more important due to the wide range of services they perform. For example, mechanical ventilators and other powered life support equipment are some of the critical pieces of equipment that require uninterrupted power to save lives. Additionally, other non-life support and non-critical support systems, such as overhead infrastructure including air conditioning and lighting, must be powered without interruption for a clinic or hospital to function successfully.
These reactive load banks, like their reactive load counterparts, ensure that these healthcare facilities are not caught off guard by a power outage in the event of any utility outage. These facilities require backup generators that need to function in the event of a power outage. This is where these load banks will come into play. Virtually every main generator benefits from load bank testing as well as load increases to ensure optimum performance.
Why is load bank utilization critical in healthcare facilities?
Understandably, generators in healthcare facilities are critical to sustaining life-saving work. However, to ensure that these backup power sources work when needed, they require maintenance, and it remains to be seen if they can handle the maximum load and still function properly. With the help of a load bank, the best step an expert can take.
The age of backup power equipment is another reason why load bank testing is mandatory. In addition, changes in power requirements are another reason why backup power equipment requires load bank testing.
In these medical facilities, where the well-being and protection of patients is of paramount importance, the failure of backup generators is not an option! That's why load bank tests are important because they measure the health and capability of backup power equipment.
Hospitals and medical facilities often permanently install a variety of fixed resistive load banks for periodic testing, which is a very economical method.
Types of load banks also vary, depending on the type of testing expected. The main types of load banks used include:
Resistive: This type of load bank can be tested with a power factor of 1.0. They are often used to test generator rated kilowatt capacity.
Reactive: This type of load bank uses capacitors as inductors and presents a lagging or leading power factor load.
Combination: In addition to reactive and reactive load bank , resistive-reactive load banks are another of the most common types of load banks that use a combination of resistive and inductive to achieve a 0.80 power factor.
