Basic Difference between Electrical and Mechanical Power Transmission
The movement of energy or power from one location to another has been a source of interest for scientists since many years. This power is utilized in performing many types of useful applications. Power is formally measures in units of energy per unit time. According to industrial mechanical engineering one watt is defined as a joule per second or Newton meter per second. Power transmission systems can be principally categorised into two types; mechanical and chemical.
Mechanical power transmission systems
Mechanical power transfer systems have still survived in places where power has to be transported between two short distances. Mechanical transmission was the standard form in the 16th century. The most famous kind of transmission system involved the usage of push rods which connects water wheels to mine drainage systems and salt pumps.
A solid structure which has a driveshaft and a few transmission gears. The amount of torque and speed can also be adjusted in mechanical transmission systems. Hydraulic systems use copious quantities of liquid at high pressure to transfer power.
Some kinds of canals and hydro-electric power systems make efficient use of natural water force to conceive electricity. Pushing huge quantities of mass in an uphill slope is also possible by a mechanical power transmission system.
Pneumatic systems are another example of electric transmission systems. Compressed gas is the main base used to run these kinds of pneumatic tools in garages and repair workshops. As a student of industrial mechanical engineering Brisbane you will get to learn about both systems of power.
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