Notesale: Turn your study into money

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Contents
Chapter​ ​1​ :
Introduction

page 5

Types of Energy

page 8

First Law of Thermodynamics

page 10

Limitation of First law of Thermodynamics

page 13

Second Law of Thermodynamics

page 15

Chapter 2 :
Methods of Refrigeration

page 16

Introduction

page 16

Applications of Refrigeration

page 16

Applications of Nitrogen

page 17

Applications of Oxygen

page 17

Applications of Argon

page 18

Refrigeration systems

page 18

Ice Refrigeration

page 19

Evaporative Refrigeration

page 19

Chapter 3

​

page 21

Air Refrigeration systems

page 21

Introduction

page 21

Refrigeration Load

page 22
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Heating Load

page 22

Concept of Heat Engine, Heat Pump, & Refrigerator
23

Heat Engine

page 23

Heat pump

page 23

Refrigerator

page 24

Air Refrigeration system

page 24

Carnot Refrigeration Cycle

page 25

Application of Aircraft system Refrigeration

page 25

External & Internal Heat Source

page 26

Methods of Air Refrigeration system

page 27

References

page 28

page

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Preface
This a brief course was done by me Hani Tbaishat
about Refrigeration & Air Conditioning system for
Chemical & Mechanical Engineering , it was include
basis of Thermodynamic science which is the core of
Refrigeration & Air conditioning Engineering
science
...
And when we say removing
heat energy from a space or from a body this means that there is drop
in temperature so we reduce temperature from high to low
...

At begining we should remember some basic and fundamental
quantities such as :
Density, specific gravity, specific volume , mass & mass flow rate,
volume & volume flow rate, velocity and acceleration , Length, time
,current, Temperature, force & pressure, work, energy, & power,
enthalpy, specific heat, & entropy
...

And all in SI units
...

▪ Specific gravity is ratio between density of a substance to its
density in standard state , but for liquid specific gravity is ratio
between density of liquid to density of water
...
& this is vice versa with density , specific
volume=1/density
...

▪ Volume & volume flow rate :SI units for volume is Litre L,
same as mass flow rate , if unit time is in seconds then unit for
volume flow rate is L/sec
...

▪ Acceleration is a vector quantity same as velocity, its velocity
of fluid moving in unit time , acceleration unit is m/sec2
...

▪ Time can measured in min, hr , but SI units for time is sec
...

▪ Temperature is measured in kelvin
▪ Force & pressure , force is the ability to move an object with
mass in kg to accelerate it by m/sec2, while pressure is how
much force N can exerted on a unit area m2
...
In piston cylinder device heat energy is transfer from
system to surrounding when there is work done on the system &
transfer from surrounding to system work done by the system
...


● First law of thermodynamics
First law of thermodynamics is energy conservation law and its state
that energy in any system can not be created nor be destroyed , but it
could be changed from phase to phase , examples : Heat engine,
pump, compressor , all change electrical energy to mechanical energy
...

Total energy of any system is constant, and its equal to: internal
energy + potential energy + kinetic energy
...

Note : Change in internal energy of system is equal to difference
between heat & work
...

▪ processes for ideal gases
A gas is said to undergo a process when it changing from condition to
condition or from initial state to final state , and for non flow process
is that fluid still inside boundaries not cross outside boundary, the non
flow processes are :
1- Constant volume or isochoric process ( volume=constant)
...

3- Constant temperature or isothermal process
(temperature=constant)
...

5- Polytropic process
...

1- Isochoric process (V=C): this process is done at constant
volume like rigid container, so this container volume does not
changing when physical properties such as pressure, temperature
change
...

dw = p
...
cv
...
cv
...
cv
...


2- Isobaric process (P=C) : this process is done at constant
pressure , consider piston cylinder device system, if we transfer
heat energy into the system with no change in pressure, pressure
remains constant during the process , internal energy for system
will increase, and this cause temperature rise and increase then
work done from surrounding to system to move piston upward
(frictionless)
...
dq=dw Q= ( P1
...
ln(p1/p2)
...
But here physical
prosperities pressure, temperature, volume are not constant those
are vary, in isentropic process entropy = constant
...

5-polytropic process : it can be defined by the comparison of
isothermal and adiabatic processes
...


▪ Control volume or open system is a system that it can be
transfer mass & energy from It to surrounding or from
surrounding to It, here some important equations for open
system :
Ei + (dq/dt ) = Ef + (dE/dt)cv + (dw/dt)
...

Ef : final energy in joule
...

(dE/dt) : rate of change of energy in watt
...

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dq/dt=Q

dw/dt = W

dE/dt = 0

Ei = mi
...
(Uf + KE + PE)
Equation becomes :
mi
...

But here there is some exception that there is a device PMM1 that can
create work energy by producing or consuming without requiring any
energy, so its violates first law of thermodynamics
...

Second law of thermodynamics states that it is impossible for any
device or heat engine to convert all thermal energy that system accept
to work energy as same quantity without loss of some energy, means
efficiency for heat engine not reach 100%
...

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Perpetual motion machine PMM2 is violates first law & kelvin
statement that it is convert all thermal energy into mechanical work
...

But there is PMM2 machine that violets clausius statement that it
could be transfer heat energy from low temperature reservoir to high
temperature reservoir without any mechanical work
...
Water is a pure
substance
...


Chapter 2 : Methods of refrigeration
● Introduction :
▪ Refrigeration is that process where is cooling of confined
(closed) space is taking place by remove heat energy from
high temperature reservoir to reduce temperature lower than
surroundings temperature , fluid that use in cooling is water,
where is using in cooling of air in air conditioning system
...

-In refrigeration system water is used to Chill to 5-7 degrees Celsius
,for air conditioning system water is using for cooling air
...

-refrigeration is using in food processing & storage units
...

B-Soft drinks , most of soft drinks are carbonated , it

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