1) A reciprocating compressor takes in air or gas at low pressure and compresses it using pistons moving back and forth in cylinders.
2) Reciprocating compressors are widely used for compressing air and can handle all pressure ranges. They are driven by electric motors or internal combustion engines.
3) The key components are pistons, cylinders, valves, connecting rods and a crankshaft. As the piston moves back and forth, air is drawn in, compressed, and expelled through intake and exhaust valves.
This powerpint presentation includes all the detail of various types of AIR COPMPRESSSORS,with its real and schematic diagram
- Parth Patel
1st Year Electrical
Compressors complete description and a well arranged slides for the topic. That's too the point and relevant slide share you are looking for! Hope you will find it easy to understand
Thank you!
This compressor works on the principle of centrifugal action. It finds wide variety of applications in engineering field. It is available in market from low to high capacities.
This powerpint presentation includes all the detail of various types of AIR COPMPRESSSORS,with its real and schematic diagram
- Parth Patel
1st Year Electrical
Compressors complete description and a well arranged slides for the topic. That's too the point and relevant slide share you are looking for! Hope you will find it easy to understand
Thank you!
This compressor works on the principle of centrifugal action. It finds wide variety of applications in engineering field. It is available in market from low to high capacities.
In the hydrocarbon processing and production industry, gas is compressed for transportation to consuming markets and for use in processing operations. This presentation is about the construction and operation of compressors.
In this presentation you will learn about the construction and operation of centrifugal compressors.
Air compressors:- One of the important device used to compress air at high pressure.
The presentation contains a detailed information about air compressors, classification of air compressors, reciprocating air compressors, rotary type, multistage/ single stage compressors. advantages and lastly application/ uses of air compressors.
Hope You like the presentation.
A steam turbine is a prime mover in which the potential energy of the steam is transformed into kinetic energy and later in its turn is transformed into the mechanical energy of rotation of the turbine shaft
In the hydrocarbon processing and production industry, gas is compressed for transportation to consuming markets and for use in processing operations. This presentation is about the construction and operation of compressors.
In this presentation you will learn about the construction and operation of centrifugal compressors.
Air compressors:- One of the important device used to compress air at high pressure.
The presentation contains a detailed information about air compressors, classification of air compressors, reciprocating air compressors, rotary type, multistage/ single stage compressors. advantages and lastly application/ uses of air compressors.
Hope You like the presentation.
A steam turbine is a prime mover in which the potential energy of the steam is transformed into kinetic energy and later in its turn is transformed into the mechanical energy of rotation of the turbine shaft
DETAIL STUDY ON TYPES OF AIR COMPRESSOR (POSITIVE & DYNAMIC ) WITH ITS WORKING PRINCIPLE AND MAINTENANCE PROCEDURE. ADVANTAGE OF DYNAMIC COMPRESSURE, ADVANTAGE OF POSITIVE DISPLACEMENT COMPRESSOR,DRAWBACK OF SINGLE STAGE AIR COMPRESSOR OVER MULTISTAGE COMPRESSOR
A compressor is a type of machine that increases the pressure of a gas by reducing its volume. An air compressor is a specific type of gas compressor. Compressors helps to transport the fluid through a pipe maintaining the high pressure conditions. It is convers power (using and electrical motor, diesel or gasoline engine, etc.) into potential energy stored in pressurized air. The main and important types of gas compressors are illustrated and discussed below.
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When the automobile is sold to the customer, stock will be reduced automatically. When a new purchase is made, stock will be increased automatically. While selecting automobiles for sale, the proposed software will automatically check for total number of available stock of that particular item, if the total stock of that particular item is less than 5, software will notify the user to purchase the particular item.
Also when the user tries to sale items which are not in stock, the system will prompt the user that the stock is not enough. Customers of this system can search for a automobile; can purchase a automobile easily by selecting fast. On the other hand the stock of automobiles can be maintained perfectly by the automobile shop manager overcoming the drawbacks of existing system.
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In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
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Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
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The College Bus Management system is completely developed by Visual Basic .NET Version. The application is connect with most secured database language MS SQL Server. The application is develop by using best combination of front-end and back-end languages. The application is totally design like flat user interface. This flat user interface is more attractive user interface in 2017. The application is gives more important to the system functionality. The application is to manage the student’s details, driver’s details, bus details, bus route details, bus fees details and more. The application has only one unit for admin. The admin can manage the entire application. The admin can login into the application by using username and password of the admin. The application is develop for big and small colleges. It is more user friendly for non-computer person. Even they can easily learn how to manage the application within hours. The application is more secure by the admin. The system will give an effective output for the VB.Net and SQL Server given as input to the system. The compiled java program given as input to the system, after scanning the program will generate different reports. The application generates the report for users. The admin can view and download the report of the data. The application deliver the excel format reports. Because, excel formatted reports is very easy to understand the income and expense of the college bus. This application is mainly develop for windows operating system users. In 2017, 73% of people enterprises are using windows operating system. So the application will easily install for all the windows operating system users. The application-developed size is very low. The application consumes very low space in disk. Therefore, the user can allocate very minimum local disk space for this application.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
3. Introduction to
compressors
The machine which takes in air or any
other gas at low pressure and
compresses it to high pressure is
called compressor. The compressor is
power consuming machine in which
mechanical work is converted into
pressure energy of fluid. They are also
considered as reversed heat engine.
4. Uses of compressed air
To compress the refrigerant and to
create pressure difference in system.
Operating pneumatic tools.
To operate air motor in mines where fire
risks are more.
To compress air in gas turbine power
plant.
Spray painting.
For sand blasting.
Operating blast furnaces.
5. Classification of compressors
The compressors are classified as
follows:
According to design and principle
of operation:
Positive displacement type
compressor: In this type, air/gas is
compressed by positive displacement
of air by piston or rotating elements.
Examples: Reciprocating compressor
, Rotary compressor, etc.
7. Roto dynamic compressors: In this type,
compression is carried out by a rotating
element imparting velocity to the flowing
gas and develops desired pressure, and
compression is achieved by dynamic
action of rotor.
Examples: Centrifugal compressor
9. According to number of stages:
Single stage compressor – Low delivery
pressure(≤10 bar)
Multi stage compressor – High delivery
pressure(≥10 bar)
According to final(delivery) pressure of gas
Low pressure compressors : final pressure < 10 bar
Medium pressure compressors : final pressure
between 10 bar to 80 bar
High pressure compressors : final pressure between
80 bar to 1000 bar
According to pressure ratio:
Fan : pressure ratio <1.1
Blower : pressure ratio >1.1 and <2.3
Compressors : pressure ratio >2.3
10. According to quantity of air delivered
(capacity):
Low capacity : volume flow rate<10
Medium capacity : volume flow rate between
10 to 300
High capacity : volume flow rate >300
According to number of cylinders:
Single cylinder
12. According to action of piston:
Single acting compressors: They are the
reciprocating compressor which has piston
working only in one direction. There is one
suction and delivery stroke per revolution of
crank.
13. Double acting compressors: As from its name it uses
its both sides to compress the air. These types of
compressors have two sets of suction/intake and
delivery/exhaust valve on both sides of the piston .As the
piston moves up and down, both sides of the piston is
utilized in compressing the air. The intake and exhaust
valve operates corresponding to the movement of the
piston or with the stroke of the compressor. The air is
compressed accordingly and delivered continuously as
compared to single-acting air compressor. Here both of
sides are effectively used for compressing the air.
14. According to methods of cooling:
Water cooled air compressors
Air cooled air compressors
According to arrangements of cylinders:
Vertical
Horizontal
V – type
17. Reciprocating compressor
Reciprocating compressors are widely
used for compressing air and it is
satisfactory for all ranges of pressures.
The number of cylinders may be more
than one. In single stage reciprocating
compressor pressure ratio is kept 5 to
8, and the speed varies from 100 to
1500 rpm.
18. Reciprocating compressors are driven
by electric motors, or I.C. engine. It is
not driven by gas turbines because
turbines have high rotational speed. The
air/gas coming from reciprocating
compressor is not continuous but
intermittent. So the air/gas is stored in
receiver from where continuous flow of
air/gas can be supplied.
Reciprocating compressor generally
seen where there is requirement of high
pressure and low flow. Mostly where the
air is used for hand-tools, cleaning dust,
19. Construction and working
The single stage, single cylinder, single
acting compressors consists of piston,
cylinder, cylinder head, connecting rod,
crank shaft, flywheel, crank case, water
jacket, suction valve and delivery valve as
20. The compressor takes inside
successive amount of volume of air
from intake valve and confined it in
closed surface at that time piston
moves downward with the closure of
intake valve. Then there
is compression of air by reducing its
volume .Now the piston moves
upward and compress the air and
then displace the compressed air
through exhaust valve. And then again
intake take place and cycle repeat
21. These types of compressor also called
positive displacement machines. They are
available in both as lubricated and oil-free.
The reciprocating compressor is single
acting when the compressing is
accomplished using only one side of piston
and double acting when both the sides of
piston used.
22. Advantages:
Relatively Cheap.
Easy maintenance
Suitable for high pressure
Disadvantages:
Sounds too much. One has to arrange a
room for it or put it into isolating box.
High outlet temperature of compressed air.
High oil content in air piping.
23. Single stage reciprocating compressor :
Let us consider piston to be at top
dead centre (TDC) and move towards
bottom dead centre (BDC). Air gets into
cylinder during this stroke and is
subsequently compressed in next
stroke with both inlet valve and exit
valve closed. After piston reaching
BDC it reverses its motion and
compresses the air inducted in
previous stroke. Compression is
continued till the pressure of air inside
becomes sufficient to cause deflection
24. At the moment when exit valve plate gets lifted the
exhaust of compressed air takes place. This
piston again reaches TDC from where downward
piston movement is again accompanied by
suction. This is how reciprocating compressor
keeps on working as flow device. Reciprocating
compressor described above has suction,
compression and discharge as three prominent
processes getting completed in two strokes of
piston or one revolution of crank shaft.
25. Work done:
Compression of air in compressor may be
carried out following number of
thermodynamic processes such as
isothermal compression, polytropic
compressor or adiabatic compressor. Fig.
shows the thermodynamic cycle involved
in compressor. Theoretical cycle is shown
neglecting clearance volume but in actual
cycle clearance volume cannot be
negligible.
Clearance volume is necessary in order to
prevent collision of piston with cylinder
head, accommodating valve mechanism
26. The compressor is work consuming machine,
hence work done is negative.
Let,
pressure of air at inlet of compressor
pressure of air at outlet of compressor
volume of air before compression
volume of air after compression
absolute temperature of air before
compression
absolute temperature of air after compression
27. Isentropic Compression
,
1
2
1 1
1
1
1
p
W p V
p
polytropic compression
1
2
1 1
1
1
1
n
n
pn
W p V
n p
28. Isothermal compression
2
1
1 ln
p
W RT
p
If compression process is isothermal, pV = C,
temperature remains constant, the change of internal
energy during compression process is zero. Thus as per
law of conservation of energy the entire work of
compression is related to the cooling medium
(surroundings). It is clear from for p-V, the area 1-2”-3-
4 is less than area 1-2-3-4 and area 1-2’-3-4. It means
that in isothermal compression no energy is wasted in
heating the air or increasing the internal energy. It has
been found that work required for compression is
minimum when the process is isothermal.
29. Methods of cooling:
Faster heat dissipation from inside of
compressor to outside by use of fins over
cylinder. Fins facilitate quick heat transfer
from air being compressed to atmosphere
so that temperature rises during
compression can be minimized.
Water jacket may be provided around
compressor cylinder so that heat can be
picked by cooling water circulating through
water jacket. Cooling water circulation
around compressor regulates rise in
temperature to great extent.
30. The water may also be injected at the end of
compression process in order to cool the air
being compressed. This water injection near
the end of compression process requires
special arrangement in compressor and also
the air gets mixed with water and needs to be
separated out before being used.
In case of multistage compression in different
compressors operating serially, the air leaving
one compressor may be cooled up to ambient
state or somewhat high temperature before
being injected into subsequent compressor.
This cooling of fluid being compressed
between two consecutive compressors is
called intercooling and is frequently used in
case of multistage compressors.
31. Single stage reciprocating
compressor with clearance:
With clearance volume the cycle is
represented on Fig. The work done for
compression of air polytropically can be
given by the area enclosed in cycle 1-2-3-4.
Clearance volume in compressors varies
from 1.5% to 35% depending upon type of
compressor. In the cylinder of reciprocating
compressor (V1-V4) shall be the actual
volume of air delivered per cycle. Vd = V1 –
V4. This (V1 – V4) is actually the volume of
air in hated in the cycle and delivered
32.
33. Work done for polytropic :
1
2
1 1 4
1
1
1
n
n
pn
W p V V
n p
3 4
1 3 3
1 1v
V V
V V V
Volumetric efficiency:
34. The volumetric efficiency decreases with
increase pressure ratio . At r = 1 ∴ p2 = p1 and
efficiency = 100%. It means that no compression
takes place. For given value of C and the delivery
pressure is limited due to decrease in in single
stage reciprocating compressor. Hence it is
necessary to go for multistage compressor to get
desired pressure with satisfactory value of
.However higher pressure ratio up to 8 in a single
stage refrigerating compressor is used as
compared to air compressor because n in
refrigeration system is lower than that of air.
35. The efficiency decreases with
increase in the clearance ratio C.
At C = 0, clearance volume= 0,
efficiency= 100%, no clearance is
provided.
When the value of C and r are
constant, efficiency increases with
n.
1
2
1
1
n
v
p
C C
p
36. Free Air Delivery (FAD):
The free air delivery is the actual volume
of air delivered by the compressor when it
reduced to ambient pressure and
temperature conditions. It is expressed in
and represents the capacity of compressor.
Following factors reduce the FAD less than
swept volume and volumetric eff.
The presence of clearance volume.
The throttling of the air when it passes
through the inlet and outlet valves.
Heating of incoming air and
Leakage.
38. Mean effective pressure
The area of indicated diagram represents the
work done per cycle. The average height of the
indicator diagram in proper unit of pressure is
called the indicated mean effective pressure ( )mp
Area of indicator diagram X spring constant
Length of indicator diagram
mp
workdone / cycle
swept volume / cycle
mp
1
2
1
1
1
1
n
n
m v
pn
p p
n p
39. Indicated power
The power consumed inside the cylinder, as mea
sured from the indicator diagram is termed as the
indicated power.
Wo
In
rk
dica
done
ted powe
/ min
r(IP) = kW
60X1000
But, work done = mL.A.N(xp ×i), Nm
m .L.A.N
60X10
p
IP = (x ×i), i
0
W
0
n k
x = no. of cylinders per stage
i = 1 for single acting
i = 2 for double acting
40. Compressor efficiencies
•Mechanical efficiency( ): It is ratio of
Indicated power (IP) to the Brake power (BP) of
compressor.
m
The power required to drive the compressor is
called the brake power or shaft power of the
compressor. 2
. ,
60000
NT
B P kW
. .
.
m
I P
B P
It varies from .85 to .96.
41. iso
iso
isothermal work input
actual work input
•Isothermal efficiency( ) : It is the ratio of
isothermal work input (minimum work input) to
actual work input(polytropic work input).
2
1 1
1
n-1
n
2
1 1
1
p
p V ln
p
pn
p V - 1
n - 1 p
It is 100% when compression process is
isothermal (best because compressor needs
minimum work).
42. •Adiabatic efficiency( ): It is the ratio of
actual work input to adiabatic work input.
adη
ad
Actual work input
Adiabatic work input
n-1
n
2
1 1
1
γ-1
γ
2
1 1
1
pn
p V - 1
n - 1 p
=
pγ
p V - 1
γ - 1 p
43. Multi-stage reciprocating air
compressor
There are several disadvantages to compress the air at
high pressure in single stage reciprocating compressor.
To eliminate the limitations of single stage, the air is
compressed by more than one stage. As we know, if
pressure ratio is increased in single stage reciprocating
compressor the volumetric efficiency decrease. The
temperature of the air after compression is so high as to
cause mechanical problems and the amount of heat is
actually the energy loss. so compressor has to handle
more volume of air at high temperature.
44. The increase in temperature needs heavy
working parts. With this reasons, in multi-
stage compression the overall
compression ratio is divided into two or
more stages to have lower compression
ratios. An intercooler is used between two
stages so that the compressed air from the
first stage cools down before it enters
second stage with low temperature.
45. Advantages of multi-stage
compression
The work done in compressing the air is
reduced, thus power can be saved.
Prevents mechanical problems as the air
temperature is controlled.
The suction and delivery valves remain in
cleaner condition as the temperature and
vaporization of lubricating oil is less
The machine is smaller and better balanced
Effects from moisture can be handled better, by
draining at each stage
Compression approaches near isothermal
46. Disadvantages:
A multi-stage compressor is more expensive in
initial cost than same capacity single stage
reciprocating compressor. This is due to multi-
stage compressor needs more than one cylinder,
intercoolers with water supply system.
49. Condition for minimum work or
maximum efficiency
The work required per cycle for the above two
stage reciprocating compressor without
clearance and perfect intercooling is given by:
n-1 n-1
n n
32
1 1
1 2
ppn
W = p V
p p
+
n -1
- 2
The work input will be minimum when
2
0
dW
dp
3 2
2 1
, pressure ratio per stage is equal
p p
p p
2 3 1p p p
50. Minimum work required for two
stage compressor
n-
3
1
2n
min 1 1
1
-
p2n
W = p V
n - 1 p
1
If there are N numbers of stages, then condition o
minimum work required is
3 N+12 4
1 2 3 N
p pp p
= = = _ _ _ _ = = z say
p p p p
1
N 1
N+1
N
1
2
1
pressure ratio through compressor= =
pp
z =
p p
1
1
1 1
1
1
1
n
Nn
N
min
pNn
W p V
n p
51. Following conditions are necessary
for compressing air with minimum
work input in a multi-stage
compressor with intercooler:
•Compression ratio in each stage is equal.
•Air is cooled to initial temperature after
each stage of compression.
•Work required in all stages is equal.
Due to this piston movement from TDC to BDC suction pressure is created causing opening of inlet valve. With this opening of inlet valve and suction pressure the atmospheric air enters the cylinder. Both inlet valve and exit valves are of plate type and spring loaded so as to operate automatically as and when sufficient pressure difference is available to cause deflection in spring of valve plates to open them
The isothermal efficiency of a compressor should be close to 100% which means that actual compression should occur following a process close to isothermal process.
For this the mechanism is derived to maintain constant temperature during compression process.