conversion of heat into work
Conversion of heat into
work
Heat and work are forms
of energy. Work can be completely converted to heat but heat cannot be
converted fully into work. Limitations are there in converting heat into work
imposed by Second Law of Thermodynamics. The Second Law of Thermodynamics
states that “heat transfer occurs spontaneously from higher-to-lower
temperature bodies but never spontaneously in the reverse direction”. Heat can
be converted into work with the use of heat engines. It is the device
that uses heat as an input and produces work as an output. All heat cannot be
converted fully into work, some heat are lost into the environment. The heat
engine converts heat into mechanical energy which is used to do mechanical
work. It converts heat into work by working substance from higher temperature
to lower temperature. A heat engine have a source and a sink. A source can be a
hot body (high temperature) which gives heat and sink is a cold body (low
temperature) where the heat that is not converted into work is discarded. The
PV diagrams and energy reservoir model are used to explain the working of heat
engines.
Energy reservoir model
It is used to
illustrate the working of heat engines. The hot reservoir produces heat which
is converted into work but some of the heat is lost to the cold reservoir due
to the limitations imposed by the second law of thermodynamics.
PV diagram
The Pressure-Volume (PV)
diagram is used to study the heat engines. It shows the relationship between
pressure and volume. When volume changes work is done. The amount of work is
shown by the area inside the loop. It operates in cyclic way, it adds energy in
form of heat forming one half of cycle and uses the heat to do work forming
other half of cycle.


Great work with the explanations, I was able to understand more than what I know.
ReplyDeleteI was really impressed with your blog. You have written it in a simple language that make everyone understands
ReplyDeleteGreat work...with. Clear concept
ReplyDelete