What Is The Use Of Diesel Power Plants In The Commercial Sector?
As the prices of fuel rise every day, it is crucial to choose a cost-effective approach. In terms of supply power for commercial use, the best way out is diesel power plants. A diesel engine has proven to be very profitable and efficient.
When compared with gasoline, diesel may be costlier. However, the density of energy produced is higher. More power can be drawn from a diesel engine when compared to the same amount of gasoline. A diesel engine provides higher mileage to an automobile, and its effect on power plants is similar. For the very same reason, diesel power plants are attracting more attention due to its higher efficiency and cost-effectiveness.
Diesel Power Plants for Commercial Use
Diesel Power Generators are in use over a countless range of industries and commercial establishments. They are useful for small loads, like in the case of homes and larger loads, like industrial plants, hospitals, and commercial buildings. Diesel power generators make an excellent choice as both prime sources and secondary or backup sources.
Diesel Power plants find widespread use in countless industrial applications. Their use extends to almost all industries and with a possibility of using it daily. These generators also find applications in forestry, telecommunications, underground work, and agricultural applications.
It is available in various specifications and sizes. The power plant rating lies from 30 kW to 6 megawatts. For home use, single-phase power generators are sufficient whereas, for industrial use, a three-phase power generator is a primary choice
Some benefits of Diesel Power Plants are:
● Diesel power plants are easier to install
● The layout of these plants is simple
● A lot of cooling water is not necessary
● Fuel cost for operation is low
● No problem of ash handling
● Small fuel storage
● Less time for monitoring is required
● It can be started quickly and put on load.
Working Principle of A Diesel Power Plant
The working principle of a diesel power plant is ingenuous. As we compress the air into the cylinder to raise the temperature, we burn the diesel inside the engine. The combustion produces the working fluid at a high temperature. The high pressure and temperature convert heat energy into mechanical energy.
As the engine acts as a prime mover, it rotates the rotor of the electrical generator and converts this mechanical energy into electrical energy. In simple words, the working cycle involves intake, compression, expansion, and exhaustion.
