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AIRCONDITIONING BASICS

AIRCONDITIONING BASICS. AIR-CONDITIONING CAPACITY TR or ton of refrigeration - unit of measure of all air conditioners. Indicates a certain quantity of heat. British thermal unit (BTU) is the quantity of heat needed to raise the temperature of 1 pound of water by 1 degree F

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AIRCONDITIONING BASICS

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  1. AIRCONDITIONING BASICS AIR-CONDITIONING CAPACITY • TR or ton of refrigeration - unit of measure of all air conditioners. • Indicates a certain quantity of heat. • British thermal unit (BTU) is the quantity of heat needed to raise the temperature of 1 pound of water by 1 degree F • Calorie is the metric unit of heat quantity. It is heat needed to raise temperature of 1 gm of water by 1 deg C. 1000 Cal = 1 kilo calorie (K Cal) • 1TR = 12000 BTU = 3000 K Cal

  2. AIR CONDITIONING IN TODAY'S CONTEXT: • In hot climate the air has to be cooled, • in cold climate the air has to be heated, • in dusty space the air has to be cleaned and • In all the above cases the air has to be properly distributed. • Here air conditioning is required mainly for human comfort. • But some times for other purposes like manufacturing goods, medicine, textiles etc the temperature and humidity control may vary. For this purpose also air conditioning is required.

  3. AIR CONDITIONING PROCESS • Controlling the quality of indoor air for the benefit of Human comfort, human health and performance of equipment /process. • Human comfort is related to the control of temperature, humidity and air movement. • A process called REFRIGERATION controls the temperature and humidity. • The human health is related to the control of dust, pollutants and other contaminants. This is achieved by filtration or by dilution of air.

  4. DEFINITIONS • process of treating air and simultaneously controlling temp, humidity, impurities and distribution for comfort and health of human being and/ or for the industrial process permitting the best product yield during manufacture and storage. • Process, which heats, cools, cleans and circulates air and controls its moisture content, simultaneously and on a year round basis. • Science, which deals with supplying and maintaining desirable internal atmospheric conditions irrespective of external conditions. Temperature control, humidity control, air movement & circulation, air filtering/ cleaning/ purification.

  5. TEMPERATURE CONTROL • Temperature most suited to majority of people • It varies in summer (20 to 23 deg C) and winter (18 to 22 deg C) due to body temperature • Office, club, lounge etc – 24.5deg C • Residence, Hotel rooms, Guest house etc – 24deg C • Shops, super markets, Cinema halls, Public places – 23.5deg C • Major operation theatre – 21deg C • Computer rooms, Laboratories etc – 22deg C

  6. HUMIDITY CONTROL • Amount of moisture present in air • Varies from place to place & time to time • Coastal areas are more humid DEHUMIDIFICATION • Removal of excess moisture from the air HUMIDIFICATION • Adding moisture to any volume

  7. RELATIVE HUMIDITY • Ratio of amount of water vapour present in air to maximum amount of vapour the air can hold in a given temperature • If the temperature increases the capacity to hold moisture also increases At 70°F, 8 grains = 100%. At 80°F, 11 grains = 100%. • To increase RH, increase actual moisture content or decrease the temperature of the air. • To decrease RH, decrease the moisture content or increase the temperature of the air. • 100% indicates the saturation level

  8. Human comfort – 55 + 5% • Pharmaceutical – 45 + 5% • Computer lab etc – 50 + 5% • Spinning & weaving – 65 + 5% • Low humidity - the air has very less moisture content. The air has tendency to absorb moisture from the surrounding. • High humidity – uncomfortable, reduces evaporation process through skin and in turn cooling of body. Our body maintain comfort by perspiration as in coastal weather

  9. AIR MOVEMENT Keeps the body comfortable during hot weather. Increase in air movement results in, • Increase of evaporation process as the moisture of skin evaporates faster • Increase of convection process as the warm air next to the body is carried up faster. • Increase of radiation process due to removal of heat from the surrounding surfaces • Decrease in air movement decreases evaporation, convection and radiation which, decreases heat removal process from our body, keeps the body comfortable in cold weather • Air movement is created by - fans or blowers, through ducts for even distribution

  10. VENTILATION IN AC AREAS • It is supply of fresh air, its circulation and distribution • Same air cannot be re-circulated again and again. After some time some fresh air may be added for human comfort. This is done through a cowl (small opening) in AHU room. • In rooms provided with window AC system always allow some fresh air when ac is not being used.

  11. DUST CONTROL DUST CONTROL IN AC AREAS • Dust enters ac areas through openings like door etc • Through occupants • Use different types of filters

  12. PURITY & FILTERS: • Air to be free from dust, dirt and other impurities • Clean air for breathing and human health • In food product manufacture place dirt, germs create harmful effects • Clean air needed in manufacturing processes • Clogging of dirt etc., may create serious hazards to machinery parts To maintain purity Air filters are used. • Filters are normally located in R.A. path • Various filters effectively reduce the above hazards

  13. FILTERS All air filters can be divided into five basic types. • Dry filters • Viscous impingement filters • Electronics filters • Chemical filters • Carbon filters • Submission particulate “absolute” filters

  14. 1 Dry filters They separate dust, pollen and bacteria by using fabrics of woven cotton, wool, felt, cellulose or fiber glass. The filter is supported in wire or angle frame located in return air path. Fiber glass media is less expensive and very widely used. Confined to smaller systems. Sizes - 450 x 450, 500 x 500, 600 x 600, etc Airflow required is up to 5-metre cube per second. Permanent dry type • Efficiency 95%. Materials – fabrics processed from plastics or brush type. • Serviced by washing or by compressed air or vacuum cleaning.

  15. Dry filters Dry replaceable media type • Efficiency 95%. Fabric media over metal frame • Serviced by replacing the media. • Used as main filter or as pre filter to high efficiency filters. Throwaway type – • Efficiency up to 95%. Used in smaller plants • Panels with filter media of fabrics, plastics, glass or metal fibre over wood or metal frame. Standard filter - • a) Metallic filter – ½”, 1”, 13/4” thick. • b) Polypropylene coir filter – ¼” thick. • These are used in simple applications of comfort A/c. • It can be used in central, packaged and window units. • Dust filteration is up to 25 to 30 microns.

  16. 2 VISCOUS IMPINGEMENT FILTERS • screen or mesh in a metal frame. • Glass fibre or other fiber filter medium covered with viscous adhesive or oil film to retain dust particles. • Metal media impingement filters are washed with hot water / steam / solvent to remove dust particles. Later it is cleaned with oil solution. • Expensive Impingement filter - available in automatic roll models Viscous impingement filter – • Efficiency 80 – 90% Used for industrial or engine air taker. • Serviced by washing and reoiling. Automatic air filters - • Efficiency up to 90%. Used for larger systems. • Operation normally time switch controlled. • Deposited dust can be removed manually.

  17. Self Cleaning Viscous Type Air Filter (Oil Wetted) For removal of coarse and abrasive dust usually used as first stage filter in industrial application. To remove fibrous dust from the main air stream. very tough and rigid Area like Cotton/ Textile/ Jute/ Mills, Steel & Cement Plants, Fertilizer Units, DG set house etc. Self cleaning in nature, easy/ low maintenance Available on various designs in multiple sizes to suit clients exact requirements .

  18. 3 ELECTRONIC FILTERS • High voltage used to attract dust particles over electrically charged plates installed in the return air path. • Impingement filters as pre-filter to remove coarse dust particles & to create constant pressure across the plates. • Removes smoke & fine particles, initial cost is high.

  19. Electrostatic cleaners Achieve optimum filtration level down to 0.1 micron. To be backed by microwave filters or pre filtersBooster fan is not necessary for this

  20. ELECTROSTATIC FILTER1. Dirt Laden Air2. Pre-Filter Screen3. Electronic Filter Cell4. Activated Carbon Filter5. Circulating Fan6. Clean Fresh Air

  21. NASAL AIR FILTERThis Indian patented product is not yet produced in India.It is available in other countries for the use of people. In India it has a large market as the dust pollution is at it's high in the Indian cities. People and Children are exposed to the pollution, dust and stink which causes severe health problems.This simple, soft, disposable, cost effective ( Rs 2/-per one day use) filter have a market of 10 million in Indian cities daily.Gives you a pleasant fragrance always when you walk through dusty smelly road sides, and while talking to others you are protected form airborne communicable diseases.I am ready to sell the patent right to the reputed company who wish to produce and market the filter in India.

  22. 4 CHEMICAL FILTERS • consists of a belt with nozzles on top. • Nozzles spray solution of glycerine, germicide and odour absorbing chemicals. • Absorbs dust, dirt, bacteria,odour etc. • Solution collected in a basin at the bottom & When saturated with contaminants, cleaned by chemicals and recirculated. • Very expensive and used in hospitals etc.

  23. 5 CARBON FILTERS • To remove objectionable odor from the air. • Useful when outside air polluted • Useful when same air is re-circulated continuously Carbon pack filter – • To remove odours, fumes, vapours, gasses, etc. • Carbon is activated and this filter quickly clogged with atmospheric dust. • As per the manufacturers recommendation throwaway type OR reusable type may be adopted

  24. CARBON FILTER

  25. ACTIVATED CARBON FILTER Activated Carbon - Odour Absorbing Filter The simple human activated carbon filter naturally absorbs odors.After extended use, the filter's odor absorbing ability can be recharged by placing it in direct sunlight. HOW TO USE simply peel off the double-sided adhesive tape on the back of the filter and attach to a clean surface area where there are odors, such as the underside of your trash can's lid or inside a cabinet door

  26. 6 ABSOLUTE FILTERS • Pleated continuous sheet of filter of glass-asbestos medium with ply wood, metal frame. The pleats are separated by corrugated paper or aluminum foil inserts. • Used to filter airborne contaminants to protect life, to recover valuable products or in clean rooms • Hospitals - to remove bacteria, Atomic reactors - to remove radioactive dust, Food and drug plants - to provide sterile air • Dry filter as pre-filter to remove coarse dust particle for better efficiency.

  27. HIGH EFFICIENCY PARTICULATE AIR (HEPA) OR ABSOLUTE FILTERS • For filtration below 5 microns. Filter particles down to 0.3 microns. Used in central A/c, package unit, etc. • Booster fans are needed for this. Microwave and metallic filters as pre-filters Microvee filter • Dust filtration up to 5 microns. • For computer rooms, operation theatre etc • Incorporated in central, packaged units

  28. HIGH EFFICIENCY PARTICULATE AIR (HEPA) OR ABSOLUTE FILTERS

  29. SELECTION FACTORS for FILTERS • Flow rate of the filter. • Face velocity of filter ( air in m/s entering the effective face of filter). • Resistance i.e., difference between static pressure upstream and downstream specified for clean and dirty conditions. • Efficiency of filter • Dust holding capacity • Economy, durability and maintenance. • Fire safety.

  30. LOCATION AND INSTALATION OF FILTERS • Before cooling coil to protect from dust • For high degree filtration two filters - Pre filters at down stream & regular filter before cooling coil or up stream. • Avoid fresh air intake through roof surface & from fume and odor. • Servicing accessibility for filter cleaning • A meter after filter to change or clean filter medium • All ducts should be clean before the filters are cleaned. • Air tight filter frame to prevent percolation of dust • Door and hatches giving access to live high voltage conductors of electrostatic precipitator should be equipped with locks.

  31. NON CENTRAL AIR-CONDITIONING UNITS 1. Window air-conditioner (unit ac) 2. Split Air-conditioners 2a) Floor mounted 2b) Wall mounted 2c) Ceiling mounted – (exposed, hidden & cassette type)

  32. WINDOW AIR CONDITIONERS • Compressor, condenser, fan, evaporator, capillary tube in a single unit • Fixed on any external wall or a window (blocks light partially) • 5 deg slope to exterior is needed for easy flow of condensate water • Fixing location should serve best possible air circulation • Hermetically sealed (air tight steel shell with compressor and motor) reciprocating, scroll or rotary type compressor is used • Precaution to be taken for hot air released by condenser • Noisy and no uniform air circulation but economical • Lower level fixing helps in easy maintenance and operation • For narrow / long room - high level installation - better air circulation • Adjustable grills are provided to direct air movement • Available from 0.5 to 2 TR suitable for 5 to 20 Sqm • Larger spaces to be handled by multiple units • ‘Filter clean reminder’ notice & sleep mode facility

  33. WINDOW AC UNIT

  34. Window Air Conditioner with Electronic ControlsIdeal for large-size rooms up to 1672 square feet, delivers a 2TR cooling capacity and an energy-efficiency rating of 9.4electronic controls - full-function remote capabilities, simple to operate, variable-speed fan, multiple air direction, energy saver and sleep modes, 24-hour on/off timer, and auto cool offer a filter-check reminder and clean-air features

  35. WINDOW AC UNIT AND COOLING CYCLEFor every sq m 200 btu (0.6 TR) is needed as a thumb rule

  36. PARTS OF WINDOW AC UNIT

  37. WINDOW AC UNIT

  38. WINDOW AC UNIT Advantages- • Each room can be controlled with required humidity & temperature. • Ducts are eliminated • No plumbing work needed. • Simple, low cost & easy to install Disadvantages- • Noisy & servicing is needed • Requires an external window • Occupies space in window • Aesthetically pleasing • Distribution not uniform

  39. WORKING PRINCIPLE OF WINDOW AC AIR CYCLE in Window AC • Evaporator with cooling coil consists of cold refrigerant • The Fan blows air in to the room through grilles • During this process the air is dehumidified to some extent and moisture is collected in tray • The used air or hot air from the room enters the unit through filter at the lower portion • This air mixes with outside air and is blown by fan through evaporator as conditioned air to room • This conditioned air is used by the occupants for comfort and the air cycle repeats

  40. REFRIGERATION CYCLE in Window AC • Evaporator - cold refrigerant with low pressure • Air blows over it - cooled - refrigerant becomes hot vapor - under low pressure • Hot vapor - to compressor - pressure - hot & high pressure vapor – to condenser coil • Out side air – blow over condenser coil - absorbs heat & become hot - vapor inside coil - liquid (under high pressure) • High pressure Liquid refrigerant - capillary tube - pressure is released - becomes cold refrigerant - passed to evaporator • Evaporator - cold refrigerant - air is blown - conditioned, circulated • Evaporator - air partially dehumidified - water collected in a tray – to another tray below condenser - evaporates - cools condenser • Compressor, condenser - outer portion - cools from outside air through fan - position - to reduce the noise to interior • control panel - controls refrigerant temp - human comfort.

  41. UNITARY SYSTEM Saves installation and labour Reqd temp of each room is met Zoning, distribution, duct eliminatd Unit run only where A/C is needed Failure restricted to particular rm. Easy to A/C the spaces in phases. Large area this works out costly Noise/vibration cannot be elimintd Maintenance disturbs the room. CENTRAL SYSTEM Installation cost is more Uniform throughout. Zoning, Ductwork is a must. Runs throughout Failures disturbs all A/C area. A/C system - worked out - including future expansion Economical for large areas Remote plant rm - eliminate noise, vibration Easy maintenance COMPARISON OF UNITARY SYSTEM WITH CENTRAL SYSTEM

  42. SPLIT AIR-CONDITIONING UNIT • Two units - indoor unit (IDU) & outdoor unit (ODU) • IDU & ODU – linked by refrigeration tubing & electrical cables • ODU can be mounted outside the room • ODU - condenser, fan, compressor -reduce noise • IDU - evaporator and blower fan • Available up to 5TR • Many advantages over window unit Non-availability of suitable window or external wall, noisy interior etc

  43. SPLIT AIR-CONDITIONING UNIT • Multiple units to cool 2 or 3 adjacent rooms • Fits well to the interior aesthetics • occupies space for ODU • Frequent operation of doors may bring fresh air but not desirable for large spaces • Best for executive cabins, show rooms, noise less commercial spaces etc • Hermetically sealed (air tight steel shell with compressor and motor) reciprocating, scroll or rotary type compressor is used

  44. SPLIT UNIT

  45. SPLIT AIR-CONDITIONING UNIT Piping between IDU & ODU Ensure right distance between the two units, if increased the disadvantages are, • The refrigerant pressure drops and decreases cooling capacity • The lubricant oil does not return to compressor & damages the compressor. (Provide oil trap at every 3m in suction line) • Extra un-evaporated refrigerant in long tube flows back & damages the compressor • Insulation cost increases for refrigerant piping ADVANTAGES • Elegant look, Add beauty to the interior • Reduces noise level, Easy maintenance • Electronic control – precise, sleek, accurate control, saves power

  46. CONDENSATE WATER IN SPLIT UNITS • Evaporator - moisture of the air accumulates as water • Collected in a pan and drained out by gravity / pump, slope needed MOUNTING OUTDOOR UNIT • Good air circulation - open space – good air movement - close to IDU • Support and structural care – servicing - railing, safety measures • locations - plinth protection, over sunshade, terrace, wall with supports Care for ODU coastal regions • Avoid - condenser fan facing sea wind – reduce speed • Avoid - close to ground - sand dust clogging the condenser coils • Supports coated with anticorrosive paint • Switch, electrical components - protected from moisture

  47. SPLIT AIR-CONDITIONING UNIT TYPES Floor mounted Wall mounted Ceiling mounted Exposed type Hidden type Cassette type

  48. FLOOR MOUNTEDon floor or a platform - elegant unit with grills Air throw is upwards - affect the furniture layout Occupies floor space - not very user friendly

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