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Modes of Work Transfer
P M V SubbaraoProfessor
Mechanical Engineering Department
I I T Delhi
ManyMore Needs/Happenings are Equivalent to Displacement Work!!!
Generalized Process in A Control Mass
• p = p0 + k (V-V0)
• p2 = p02 + k (V-V0)2
• Polytropic Nature of Fluid Process:
pVn = Constant– n: Polytropic constant.
– n=0 : Constant Pressure Process.
– n=: Constant Volume Process.
The Polytropic Process by A Control Mass
• One in which the pressure-volume relation is given as pVn=constant
• “n” may have any value from minus to plus infinity.• Work transfer during a polytropic process.
Evolution of Wind Turbines
• Wind is a clean, safe, renewable form of energy.• Although the use of wind power in sailing vessels appeared in
antiquity, the widespread use of wind power for grinding grain and pumping water was delayed until – the 7th century in Persia, – the 12th century in England, and – the 15th century in Holland.
• 17th century, Leibniz proposed using windmills and waterwheels together to pump water from mines in the Harz Mountains.
• Dutch settlers brought Dutch mills to America in the 18th century. • This led to the development of a multiblade wind turbine that was
used to pump water for livestock.• Wind turbines were used in Denmark in 1890 to generate electric
power. • Early in the 20th century American farms began to use wind
turbines to drive electricity generators for charging storage batteries.
Outlet : po, To, Vo
Continuous flow system
Pressure at inlet is pi and pressure at exist is po
always.
Fluid with Vi,Ti enters and leaves with Vo and To.
The volume is subjected to a changing pressure field..
p
How to define the infinitesimal work?
Inlet : pi, Ti, Vi
V
Wind generation for developing countries
• Unlike the trend toward large-scale grid connected wind turbines seen in the West.
• The more immediate demand for rural energy supply in developing countries is for smaller machines in the 5 - 100 kW range.
• These can be connected to small, localized micro-grid systems and used in conjunction with diesel generating sets and/or solar photovoltaic systems.
• The main area of growth being for very small battery charging wind turbines (50 - 150 Watts).
• In Inner Mongolia there are over 30,000 such machines used by herders for providing power for lighting, televisions, radios, etc.
• Other applications for small wind machines include water pumping, telecommunications power supply and irrigation.
Shaft WorkEnergy transmission with a rotating shaft is very common in engineering practice.
A force F acting through a moment arm r generates a torque T of
psp rFT ,
drFdTW psp .. ,
dt
drF
dt
dTP psp
.. ,
Work Done on Elastic Solid Bars
For linear elastic springs, the displacement x is proportional to the force applied
The Role of Surface Tension in Engineering
• When splitting a solid, the amount of energy required is 2A, where 2A is the area created (one A on each side).
• This energy is less than that needed just to break the bonds, since there is atomic and electronic relaxation.
• The surface energy is always positive because the atoms are less bound at the surface.
• The surface tension can be defined as the reversible work of formation of a unit area of surface at constant T, V, m.
• The surface tension is the two-dimensional analog to the pressure.
mVTA
E
,,
The tendency to minimize surface energy is a defining
factor in the morphology and composition of surfaces and
interfaces. This Is important for Solids &
Liquids.
The relative change in internal energy of a control mass w.r.t. change in surface area at constant temperature, volume.
Law of a Nature:
Thermodynamic Definition of Surface Tension
Material g J/m2
Tungsten (solid) 2.9
Iron (solid) 2.2
Iron (liquid) 1.9
MgO 1.2
Mercury (liquid) 0.5
Water 0.07
Acetic acid 0.03
Nitrogen (liquid) 0.01
Helium (liquid) 0.0003
Values of Surface Tension for Selected Materials
The Faraday’s Work : An Amazing form of Work Transfer
•Consider a conducting rod PQ moving at a steady speed V perpendicular to a field with a flux densityB.•An electron (negative charge e) in the rod will experience a force (= Bev) that will push it towards the end P.
Description of Work done by A Conductor
• The same is true for other electrons in the rod, so the end P will become negatively charged, leaving Q with a positive charge.
• As a result, an electric field E builds up until the force on electrons in the rod (unit length) due to this electric field (= Ee) balances the force due to the magnetic field
BeVEe
Force per unit charge on Rod of unit length:
BVE
For a rod of length L, define the EMF as :
BLVEMF
What happens when the EMF drives a current in an external circuit?
To do this, imagine that the rod moves along a pair of parallel conductors that are connected to an external circuit
Electrical Loading of Conductor
The EMF will now cause a current to flow in the external resistor R. This means that a similar current flows through the rod itself giving a magnetic force, BIL to the left.
Quantification of the Faraday’s Work
L is now the separation of the two conductors along which the rod PQ moves. An equal and opposite force (to the right) is needed to keep PQ moving at a steady speed.
In a time t, the rod moves a distance x = Vt
Work done on the rod
tVLIBW 21
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