Load banks are the testing devices that are employed for different electronic appliances that are designed and constructed to generate surplus amount of energy. The use of load banks is primarily done for the technical optimization, troubleshooting, and evaluation of power sources like generators, transformers, etc. by subjecting them under varying electrical load conditions. There are different types of load banks which introduce different versions of power, voltage, and current limits to electrical appliances. One such important one to mention is the reactive load bank which is electrical testing equipment that runs his evaluation by supplying reactive and real (active) power to power sources which need to be assessed and maintained for their performance reliability and efficiency. On the other hand, a customized electrical testing device for generators in specific is the generator load bank. This type of load bank put the machines under the load simulations of real world operating conditions. A generator is a technical device that runs on his stability and mechanically efficiency, all such functional parameters need to be timely assessed to ensure that the machine is able to serve in a longer run.
Reactive load bank
There are many load banks which technically, electrically, and structurally assess different electronic appliances under different load conditions. One such effective testing tool is the reactive load bank which has the main testing conditions by the supply of reactive and real powers to the electrical system. The varying power loads assesses how the machine like generators, engines, turbines, transformers, UPS, etc. react and customize their reaction efficiency under such technical input settings.
The purpose of employing reactive load bank is achievable only with the appliances that operate functioning with respect to the technical management of such load banks. The common evaluations include reactive power capacity, power factor correction, power stability, equipment efficiency, voltage regulation, transformer and generator loading, etc. Reactive power conditions are of two types, i.e. inductive and capacitive powers, both of them oscillates between the sources and the load on them. Reactive powered load banks are associated with magnetizing and demagnetizing stages involved in the inductive and capacitive load phases.
Generator load bank
Each of the electrical appliances that is operating and running to produce electricity from the main circuit in absence of the original power source connection needs technical monitoring and evaluation of functions. For such managements, load banks are available that are standardized and customized in accordance to the electrical system these are going to be used. Generator load bank is the perfect example to quote in this respect where these testing devices are particularly designed and constructed to be involved in the technical evaluation of generators.
Generator load bank validates technical aspects of generators like capacity to produce electric power, efficiency of cooling units, stability under different load conditions, installation and functional standards of generator, fuel efficiency testing, etc. Such regular load banks are also used as preventive measures for generators to avoid overheating, voltage irregularities and power fluctuations, etc.
Conclusion
Reactive load bank are the electrical testing tools that carries the optimizations by supplying reactive and real power conditions to electronic machines. Whereas, generator load bank is specified to be use with generators to test the efficiency, stability, and performance reliability of the power source.