The most important equipment in the realm of power generation is the load bank. It is referred to as a self-contained device, which applies electrical loads to a power source and then converts the resulting power. Hence, while a real load is served by actual power sources, a load bank uses its energy in order to test the source. The device is particularly applicable to the oil and gas, shipping and many other industries where it can be put to various uses. The topmost usage is the power system testing.
There are many companies that want the testing of the entire electrical systems for maintenance purposes. The proper testing of the electrical systems can prevent the risk of costly power failures and this result to the maximum production. Thus, load bank is the valuable tool in the reduction of wet stacking problem, battery testing and also in the removal of carbon build up on power generation equipment.
Types of load banks
There are several types of load banks, but the most common being reactive and resistive load bank are described below:
Reactive load bank: It monitors the lagging power factor, which is known as inductive or even monitors the leading power factor, known as capacitive. Among these two, the inductive power factor is the most common. This device is usually used for industrial purposes. In addition, it is also used by many hospitals, oil and gas refineries, military and many other sectors.
Resistive load bank: This equipment follows the behavior of the electrical system. It is used for testing AC supplies or for DC batteries. Moreover, it is also used for UPS testing.
Testing your generator on a regular basis is an important work that cannot be avoided because generators are not in constant use. Proper and regular testing ensures that your generator is in a good position of producing enough power to do the job. When it comes to the testing of generator, you need to attach the generator or engine to the load bank with cables. In addition, you also need to observe the