INDUSTRIAL HYGIENE ENGINEERING 523
whenever possible, some extracted air is recirculated and
only that amount is discarded which is sufficient to balance
the amount of fresh air brought in. The ratio of fresh air to be
recirculated can be fixed the same all the year round or vari-
able to take advantage of outside conditions. Programmed
outside thermostats controlling motorized dampers achieve
this. Some partial air conditioning systems use 100% recir-
culation and rely on natural infiltration of air to provide the
necessary refreshment.
Processes The air conditioning processes for which
items of plant are required are as follows:1) sensible heating, requiring a heater battery sup-
plied with either hot water, steam or refrigerant or
electrically powered,
2) humidification requiring either a water spray or a
controlled jet of steam,
3) cooling and dehumidification requiring a cooler
battery supplied with either chilled water or refrig-
erant, the process involving cooling the air to
below its dew point so that water condenses out.Plant items are assembled in the correct combination to
suit the particular design problem. The systems divide them-
selves into three basic types:
—The air systems where the required supply conditions
are generated centrally, the air being ducted to the rooms. Hot
water is supplied from a central boiler plant and air cooling is
provided directly from the evaporator of a refrigeration plant or
by means of chilled water from a center refrigeration plant.
—The air and water systems in which only sufficient
air required for ventilation purposes is handled centrally
and ducted to the rooms, the remaining heat transfer being
achieved in room units containing finned coils supplied with
heated or chilled water over which some room air is continu-
ally being passed. Heated and chilled water is provided from
a central boiler and water chilling plant.
—The unitary of self-contained systems where the com-
plete air handling and heat transfer plant is sited in the room,
the necessary ventilation air being drawn from outside local
to the room usually via a hole in the wall or window.
There are many variations of these basic types of systems.
Possible Problems Faults in air conditioning systems
usually result in discomfort for the room occupants and give
rise to vociferous complaints, which take one or more of
the following forms: too hot, too cold, cold draughts, dry
throats, too humid, a feeling of stuffiness, unpleasant odours,
too noisy. Most of these can be measured or sensed by the
investigator. Faults can be divided into: inherent design
faults, installation deficiencies, maintenance deficiencies
and malfunction of components.
Inherent design faults include:1) badly sited air inlets and outlets
2) undersized heat transfer components
3) omission of humidification or de-humidification
facilities4) bad siting of thermostats
5) insufficient provision of fresh air supply.Installation deficiencies include:1) badly or wrongly connected ducts
2) air leakage
3) badly sited thermostats
4) control dampers and valves functioning incorrectly.Maintenance deficiencies include:1) blocked filters
2) no filters
3) dirty heat transfer surfaces and fan blades
4) control dampers and valves out of adjustment
5) thermostats and their associated controlling
mechanisms and circuits out of adjustment
6) heating or cooling plant in poor condition.The breakdown or malfunction of any item of plant or
control systems will lead to the creation of an unsatisfactory
environment.
An air-conditioning system operates as an integrated
design, an alteration of any one item will unbalance the
others thus plant should not be tampered with by inexperi-
enced or unqualified personnel. In most cases the identifica-
tion of faults and the provision of remedial action should
be left to a qualified and experienced environmental/heating
and ventilation/air-conditioning engineer.SOFTWARE CONSIDERATIONSThe range of options available for the control of the work-
ing environment is diverse and it is all too easy to make
a choice based upon what is the easiest to install and
implement, but the control must be capable of providing
protection over the operational life of the process. Thus
monitoring and maintenance must be built in to the opera-
tional side of the system. Continued effectiveness depends
upon the awareness of the workforce and their supervisors
and managers. Regular checks on the working environment
and the performance of the control measure must be made
and a procedure laid down and adhered to to record the
results of the checks and to implement remedial measures
if the system is failing in any way. This can be made easier
if the control system is seen as an integral part of the pro-
duction process warranting the same attention as a produc-
tion machine.
A planned education and training programme may be
required to introduce the operators and management to the
importance of the control measure and to explain how it
works and what could go wrong and what the consequences
are of a malfunction.C009_003_r03.indd 523C009_003_r03.indd 523 11/18/2005 10:31:26 AM11/18/2005 10:31:26 AM