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Sunday, February 10

AIR CONDITIONING IN AUTO MOBILES


INTRODUCTION

 

                             Twenty five years ago air conditioning in cars was rare and driving in summer was nothing short of sweaty experience.  There was only a handful technicians who could install AC units on Indian car and also maintain imported car A.C. One opening the bonnet of car one could recognise who has installed that particular unit as good as recognising a friends handwriting.

                             The use of refrigeration and air conditioning for transporting purpose proves to be very advantageous. Air conditioning is very much used in cars i.e. Automobiles, railways, aeroplanes, and ships.  The use of air conditioning in automobiles is a luxury in India but it is commonly used in western countries to provide better human comfort.

                             Today automobile air conditioning has acquired a growing market.   The AC in automobiles is a need of persons who are suffering from the hot climate in India which may be carry about 8 to 10 months per year. The new cars are so designed as to accommodate A.C. in its cabin. Maruti 800,  Maruti 1000, Premier 118NE Contessa Classic, Tata  Instat.,  Tata Siera , Opel Astra, Ford  and  Mercedes Bens are some of the models which are having A.C. system.

                             Automobile air conditioning system works on the principle of vapour compression refrigeration cycle and employees R12 as refrigerant to run the system

                             The following factors are controlled by A.C.  which leads to human comfort.

 

1) Heating of cabin,

2) Cooling,

3) Circulation of air,

4) Cleaning and filtering,

5) Humidity control.

 

                             As  per  the standards the temperature at  250 C  and humility  of  50% R.H. is  maintained  to  provide  better comfort.  This can be achieved very easily in a  room  or office  but  it  is  very  difficult  to  maintain   such temperature and R.H. factor because of different  sources of  heat  addition to the automobile system.  This  heat sources are stated later.

 

#     MULTI FLOW  SYSTEM  :-

                             All  modern  cars are equipped with  multiflow  A.C. systems whereby we can channel the airflow to your face, feet or the wind screen. It is recommended that the  face position  only be used. This channels the air trough  the front vent in the facia to occupants seating in the  rare seat most effectively. vehicle  is  owner  driven or when there are only two occupants  in the car;, both seating in the  front.  Since the feet are the most sensitive to the temperature,  when the  airflow  is set in this position  it  provides  very effective    cooling   to   the   occupant.,   The  wind screen position  should be used only when the A.C. is  off and the heater is on This  position enables, the hot  air from the heater to strike the windscreen on the  outside.

                             The  feet  only position should be  used  when  the heater is on. When hot air is let out, in this position ,it  rises  and heats the car  compartment  evenly.  Another control lever is a multiflow system is the  adjustment  for fresh air intake and the recycling of air. The fresh  air-intake  and the recycling of air. The fresh air  position allows  outside air to enter the  passenger  compartment, including exhaust fumes.

                             The persons seating in a car can adjust the position of knob, which controls the cooling effect to be provided. If more cooling is desired. He can adjust the knob and he will  get the more cool., If less cooling is needed he  can minimises the cooling effect. If he is unintrested to run AC  he can stop the A.C. unit.

                             The major components like evaporator compressor and expansion valve are the same as are utilise in common room AC system such as power source, types of controls, component design capacity, etc.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Chapter 2

CYCLE

 

                             Vapour (fairly dry vapour) leaves the evaporator and enters  the  compressor  at  point  1.  The  vapour   is compressed is entropically to point 2. During compression, the  pressure and temperature increases. The  temperature at point 2 should be greater than the temperature of  the Condenser cooling medium. The vapour leaves the  compressor   in  dry  saturated  state  and  enters   the condenser  at 2. The vapour is condensed and latent  heat of  condensation  is  removed  in  condenser.   The   high pressure saturated liquid leaves the condenser and enters the  throttle  valve at 3. Thus the  flow  through  valve causes   decrease   in  pressure   and   temperature   of refrigerant  and  causes  it to  evaporate  partly.  This refrigerant  liquid at every low temperature  enters  the evaporator  where  it absorbs heat from the space  to  be cooled   thus   producing  refrigerating   effect.   This increases   its   pressure  and   temperature   and   the refrigerant   is  now  dry vapour , which  is  supplied  to compressor.  This completes the cycle.

 

 

 

 

 

 

 

 

Chapter  3

WORKING

                             Cool  refrigerant gas is drawn into  the  compressor from the evaporator and pumped  from the compressor to the condenser  under  high pressure and  temperature  due  to compression,  As this gas passes through  the  condenser, high pressure, high temperature gas rejects etc. Heat  to the  outside  air as the air passes over the  surface  of condenser. The coding of the gas causes it to condense  into a liquid refrigerant.   The  liquid  refrigerant  still  in  high pressure passes to receiver drier (dehydrator), The  receiver acts as a reservoir  for  refrigerant  The liquid refrigerant  flows from the receiver dehydrator to the thermostat  expansion valve  refrigerant  will looses its   pressure  and  temperature. This  low  pressure  low temperature liquid enters the evaporator. The  evaporator coil   is  mounted  below  front  dash  board.   As   the temperature of refrigerant passing through evaporator  is low„ it absorbs heat and continues to boil, drawing  heat from  the  surface of the evaporator core warmed  by  the rush  of air passing over the surface of  the  evaporator core.

                             In  addition to the warm air passing over- the  evaporator rejecting  its  heat  to  the  cooler  surfaces  of   the evaporator core, any moisture in the air condenses on the cool  surface of the core resulting in  cool  dehydrated air passing into the compartment of the car. By the time the gas leaves the evaporator, it gets completely vapourised and is slightly superheated.  The pressure in evaporator is controlled   by   suction      throttle valve.  R12  vapour passing through the  evaporator  flows through  the  suction throttle valve and is  returned  to compressor where refrigeration cycle is repeated.

Chapter 4

SOURCES OF HEAT TO THE SYSTEM

 

                             The cooling load is affected by many factors. Some of them are listed below

1)   Faster   the   car moves,  the   greater   amount  of infiltration  into  the  car  and  better  rate  of  heat transfer .

2) The sun baking down on the blank road will   raise the temp. up to 500 to 600 C and thus  increases  the amount  of  heat  transferred into the  car  through  the floor.

3)   Because  of the relatively   large  glass  areas, metal construction and the flow of air around the  moving vehicle   (automobile)   is  very  large,  so   the   air conditioning  capacity is also large in  comparison  with A. C. installed at home.

4) Quantity of fresh air in.

5) Number of    occupants.

6) Quantity of heat directly rejected by sun on car.

                             For  all  the above sources, it  is  necessary  that capacity  of automobile A.C. should be large, be  capable to  take  ovealoads  and  operate  for  relatively    long

periods. 

                             The cooling capacity of automobile A.C. system ranges from 1 to 4 tones, which is the amount of refrigeration needed to cool a small house

 

 

 

Chapter 5

COMPONENTS

 

1)   COMPRESSOR :-

                             Compressor is a driver of the system. The construction is much rigid and the unit is semisealed. i.e. the power to drive the compressor is directly taken from the crank shaft by means of v-belt pulley and electromagnetic clutch. The heavy-duty gaskets are provided at joints to prevent vibration, noise and leakage. A typical value arrangement is provided to suit the requirements. The high and high pressure   refrigerant  enters  in  compressor  which  further  gets compressed  causing hot vapour exit from  the  compressor unit,   The  compressor   can   start or   stop   by   means  of thermostat arrangements which engages or disengagtes the electromagnetic  clutch  so as to run compressor  as  per requirements.    Lubrication  oil  is  placed  inside   the chamber.   The   noise   of   compressor   is   very   least as compared  to that of engine. The vibration of  compressor creats problem in Diesel air conditioning system.

 

2] ELECTROMAGNETIC CLUTCH

                             The   pulley   assembly contains   an   electrically controlled magnetic: clutch, permitting the compressor  to operate  only when air conditioning is actually  desired. All automobile A.C. systems employs the clutch to drive the compressor  on demand from the thermostat inside the  car (i.e. the knob).

                             When the compressor clutch is not engaged, the   compressor shaft does not rotate, although the pulley  is being   rotated   by   belt   from   the  engine.   The  clutch armature  plate,  which is movable member  of  the  drive plate  assembly   is attached to the  thrive  hub  through drive springs and is riveted to both driver and armature plate.  The  hub  of  this  assembly  is  pressed  over  the compressor  shaft  is  aligned with a  square  drive  key located  in  the  key way on the  compressor  shaft.  The pulley  assembly. Consist of pulley rim , pulley hub  and power element ring.

 

3]  CONDENSER   -

                             A  condenser  is similar to an  ordinary  automobile radiator   but  are  designed  to  withstand  much   high pressure,    It   contains  a  fan  to   provide   forced circulation of air. This whole assembly is fitted infront of the car radiator. So that it  receives high  volume of air.  The high temperature and high pressure  refrigerant vapour  looses its heat to forced air flowing through  it causing change of this phase into high pressure liquid. The  fan  and electromagnetic  clutch  are  electrically coupled. Rapid condensation of refrigerant can be done by fan. This  high  pressure liquid refrigerant  then  passed  to receiver drier.

 

4) Receiver Drier :-

                             The purpose of receiver drier is to ensure a solid column of liquid refrigerant to the thermostatic expansion valve. Automobile A.C. units      are   more susceptible   to  leaks  than   units  because   of vibration. Over a period of time, small leaks will  occur, which  may  requires addition of  refrigerant,,  Also  the evaporator requirements vary because of the changing heat load.   A   small   receiver   is   used   in   the   system    to compensate  all  the  above  variables,  Refrigerant   is stored     in   the   unit   untitled   it   is   needed   by    the evaporator.   A   liquid   indicator  or  slight  glass   is provided  at outlook pipe of receiver unit. The appearance of  bubbles  or foam in the slight  glass  indicates  the shortage of refrigerant in the system. Drier part of this unit consists of sillica gel to absorb moisture if any in the system, also it traps foreign material which may have entered the system during assembly. It is  temporary storage and purifying unit.

 

5) EXPANSION  VALVE: 

                             The  expansion  valve  fulfils  the  following   two functions.

1)   The temperature and pressure of   refrigerant   is reduced  to such a low-level due to sudden  expansion  by throttling   process.  This is  helpful  to  create   low temperature  than  the evaporator .

2) According to cooling load, the quantity of refrigerant supplied to evaporator can be controlled.

                              It  automatically  regulates the  flow  of    liquid refrigerant.  The  valve  is  located  at  the  inlet  to evaporator core. It consists of a (capillary bulb and tube, which  are  connected to an  operating  diaphragm (sealed within the valve).

                             When  the  cooling load increases,  the  refrigerant evaporates  at  a  faster rate  in  evaporator  than  the compressor can suck. As a result., the degree of superheat and  pressure  in evaporator increases  which  cause  the valve  to  open more allowing more refrigerant  to  enter into  the evaporator. At, the same time the  increases  in suction  pressure also enables the compressor to  deliver increased refrigerating capacity.

                             When  cooling load decreases;, the refrigerant  evaporates

at  a  slower  rate than the compressor can  suck,  As  a result  the evaporator pressure drops and the  degree  of superheat will decrease., The valve tenets to close and the compressor   delivers    less   refrigerant   capacity .

                             Thus  this valve is capable of meeting  the  varying  load  requirements,, This valve keeps the evaporator  full of refrigerant, thus ensures safety to compressor

 

6)Evaporator:-

                             Evaporator is a place where the refrigerant evaporates and absorbs heat from the air passed over it. Air  is forced to flow over the evaporator with the  help of  blower, which is installed in the  evaporator  itself and cooled before distributing in seating compartment.

                             The  design  of evaporator is more critical  as  the space limitations are very severe and worse than  compact room conditioners.

                             The evaporator is placed under dashboard of car, We can  provide  more ducts if the car seating  capacity  is more. The purpose of evaporator is to cool and dehumidity the air passing over it into passenger's cabin.

                             The refrigerant in cooled liquid state boils immediately  in evaporator when air looses its  heat  and moisture  to  it. Heat from the core surface is  lost  to boiling and vapourising refrigerant, which is cooler  than the core, thereby cooling the core. The moisture collected  is then drained of as it may reduce the cooling effect.

                             Dirt or other foreign matter on the core surface  or in  evaporator  housing  will restrict the  airflow.   A cracked or broken housing can result in insufficient  air-or  warm air supply to passenger's compartment. The  dirt can be removed by forcing dry air on it under pressure.

7) Suction throttle valve:-

                             The device which is used to regulate the refrigerant  flow  from evaporator to compressor is termed as  suction throttle valve. It is       located in the suction throttle valve. It  is located in the suction  line  between  the outlet of evaporator and  inlet to compressor.

                             It  controls the evaporator pressure and  evaporator out temperature. It also prevents the foreign materials to enter  the  compressor.

 

8) FAST  IDLING  CONTROL  DEVICE :-

                             This  is a speed raising device, Specially when  in city  operation  when the vehicle is moving at  very  low speed  or is stationary, the idle rpm of moving  at  very low speed or is stationary , the  idle rpm of the engine is raised  to  the rated value in order  to  get  sufficient coiling  and  air draft on condenser and  radiator. When A.C. is on,   the  vaccum  solenoid  valve  , which   is electrically operated , directs vaccum to actuator  installed  on  the  injection  pump.  With  the  help  of actuator,   the accelerator lever is pushed to get  higher idling rpm.

9) CONTROLS:- 

                             These   units   ensures  safe   operation   of   air conditioner.  The  thermostat  is  used  to  prevent  the formation of frost on the evaporator coil. The cabin  air temperature is  also controlled to the desired level. Once the evaporator fins temperature approaches near freezing point, the   thermister sends   signals    to    the thermoamplifier   which  in turn cuts all power  supply  to electromagnetic  clutch,  thereby  A.C.  operation   stops temporarily.

Chapter 6

INSULATION

 

                             It is absolutely essential to provide sufficient insulation to the car to reduce the refrigeration capacity required. The glass or fiberglass is used for  the car insulation, Insulation is provided over  the back  of  the  rear  seat of the car  to  avoid  the  air-conditioning of   the trunk space.  The tinted  glass   are preferred  instead  of plain glass for  windows  as  large areas  of windows allows a considerable heat leakage  and allows high sun load. The insulation also reduces the noise level.

                             Another insulation should must provided at the floor to  reduce heat admitted through floor. Also  the  tubing surrounding the engine containing refrigerant should also be  properly insulated.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Chapter 7

ADVANTAGES

 

                             The main advantage of this system is to travel  with comfort   for a long distance.  In any type of   atmospheric conditions without tired. During summer the temp. inside the car can he maintained low and this is very  necessary for  comfort  conditions. There may  be  more  advantages rather than this.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Chapter 8

DISADVANTAGES

1) Engine speed,  average  and  power  will  reduce due to power  supplied

     to run A.C. system.

2)   Maintenance and  initial  cost of unit  is high.

3)   Proper   attention   should be given   to   all   the components.

4)   Very complicated assembly for repair work.

5)   Leakage  due  to  vibration  is  the  major  problem, which can be       reduced .

6)   Separate  electrical   fuse   is    required    for compressor.

7)   Cleaning and servicing should be on time.

8)   It can be used mostly for luxurious purpose.

9)   "Sunstroke"

                             This  is  the major problem.  But it  can  be minimised by allowing  the  A.C . to stop for certain  time till the temperature  inside   the  cabinet reaches the atmospheric  temperature , which will not  provide  to  be danger.

                             Though  there are lot of disadvantages,  the automobiles  having A.C. built in  has  captured  the market.

 

 

 

 

 

 

 

Chapter 9

TIPS FOR MAINTAINANCE

 

1)  Keep   The   interior  of   the  car  clean   in     order to prevent drawing dust from the mats and clogging the A.C.

2)   If the vehicle is parked outside during the  day, the  interior temperature will be on the high side.  Keep the  blower on maximum, lower the windows and drive  some distance to ventilate the hot air tapped inside.

3)    Have the A.C. system examined before the onset  of summer  as all A..C.  installers are over loaded with work during this season. Have the has levels  examined every eight  months to year and also have the A.C. serviced  or  charged  once every 30,000 km. Avoid using the fresh  air intake over since it will clog your evaporator  with dust or leaves that have accumulated under the bonnet grille.

4)    Whenever you hear a screech under the bonnet when the  compressor  is  switched  on,  have  the  A.C.  belt examined by a service technician.

 

 

 

 

 

 

 

 

 

 

 

References

 

1)   Auto India Magazine

2)  Refrigeration and Air conditioning

By Domkundwar

3)   Refrigeration and air conditioning.

By Arora

4)   Refrigeration and Air conditioning.

By R.S. Khurmi

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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