Ambient Air Monitoring
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Ambient Monitoring is the systematic, long-term assessment of pollutant levels by measuring the quantity and types of certain pollutants in the surrounding, outdoor air. Air quality monitoring is carried out to assess the extent of pollution, ensure compliance with national legislation, evaluate control options, and provide data for air quality modeling.
The locations for monitoring stations depend on the purpose of the monitoring. Most monitoring networks are designed with human health objectives in mind. Once data are collected from a monitoring system, they must be stored in data management systems and databases. Subsequently, the data must be retrieved and analyzed to see what they reveal about the effectiveness of regulatory standards, the accuracy of modeling, impacts on health endpoints, and as an overall way of assessing
Stack Monitoring
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Emissions Testing, otherwise referred to as Stack Sampling or Stack Monitoring, is the experimental process for evaluating the characteristics of industrial waste gas stream emissions into the atmosphere. Materials emitted to the air from these sources can be solid, liquid, or gas; organic or inorganic.
The effluent pollutants emitted to the atmosphere from a source may contain many different pollutant materials. Effluent measurements and sampling procedures follow specific test methods and protocols to ensure representative and accurate emission data. Test methods are pollutant specific, sometimes industry specific and originate from a variety of source.
There are several reasons for obtaining source emission data on the type and amounts of materials being emitted from industrial stacks:
to determine if a process unit is in compliance with existing or proposed emission regulations;
to ascertain the economics of materials or product losses from a source;
to obtain relevant data which can facilitate the selection and design of control equipment;
to test the efficiency of installed control equipment;
to allow control of a process by continuous or frequent observation of one or more constituents in the stack gas stream;
to provide more accurate data to develop air resources management programs, control regulations and inventories;
to calibrate continuous monitors.
Indoor Air Monitoring
Common issues associated with IAQ include:
Improper or inadequately maintained heating and ventilation systems
Contamination by construction materials, glues, fibreglass, particle boards, paints, chemicals, etc.
Increase in number of building occupants and time spent indoors
Causes
IAQ problems result from interactions between building materials and furnishing, activities within the building, climate, and building occupants. IAQ problems may arise from one or more of the following causes:
Indoor environment - inadequate temperature, humidity, lighting, excessive noise
Indoor air contaminants - chemicals, dusts, moulds or fungi, bacteria, gases, vapours, odours
Insufficient outdoor air intake
Contaminants
Carbon dioxide (CO2), tobacco smoke, perfume, body odours – from building occupants
Dust, fibreglass, asbestos, gases, including formaldehyde – from building materials
Toxic vapours, volatile organic compounds (VOCs) – from workplace cleansers, solvents, pesticides, disinfectants, glues
Gases, vapours, odours – off-gas emissions from furniture, carpets, and paints
Dust mites – from carpets, fabric, foam chair cushions
Microbial contaminants, fungi, moulds, bacteria, – from damp areas, stagnant water and condensate pans
Ozone – from photocopiers, electric motors, electrostatic air cleaners
Noise level monitoring
Purpose:This revised amendment requires that employees be placed in a hearing conservation program if they are exposed to average noise levels of 85 dB or greater during an 8 hour workday. In order to determine if exposures are at or above this level, it may be necessary to measure or monitor the actual noise levels in the workplace and to estimate the noise exposure or "dose" received by employees during the workday.
When it is necessary:
Noise monitoring or measuring must be conducted only when exposures are at or above 85 dB. Factors which suggest that noise exposures in the workplace may be at this level include employee complaints about the loudness of noise, indications that employees are losing their hearing, or noisy conditions which make normal conversation difficult. The employer should also consider any information available regarding noise emitted from specific machines. In addition, actual workplace noise measurements can suggest whether or not a monitoring program should be initiated.
How noise is Measured ?
Basically, there are two different instruments to measure noise exposures: the sound level meter and the dosimeter.
A sound level meter is a device that measures the intensity of sound at a given moment whereas a dosimeter is like a sound level meter except that it stores sound level measurements and integrates these measurements over time, providing an average noise exposure reading for a given period of time, such as an 8-hour workday.
Clean room validation
A clean room is a modular environment in which the following environmental factors are kept under control; temperature, airborne particulates, microbes, relative humidity, differential pressure, and air flow.
Clean room Validation is performed for a variety of reasons. To ensure that the design of the facility is fit for its intended purpose; to ensure that the facility, equipment, and environment meets User Requirement Specifications (URS); to ensure that the facility, equipment, and environment meet defined regulatory requirements; to ensure that the facility, equipment, and its environment function together as a system to meet defined standards.
Food handler’s hygiene
A food handler is anyone who works in a food business and who either handles food or surfaces that are likely to be in contact with food such as cutlery, plates and bowls. A food handler may do many different things for a food business. Examples include making, cooking, preparing, serving, packing, displaying and storing food. Food handlers can also be involved in manufacturing, producing, collecting, extracting, processing, transporting, delivering, thawing or preserving food.
What If a food handler has a food-borne illness?
What If a food handler has skin injuries or sores or is otherwise unwell?
What If a food handler knows or suspects he or she might have contaminated some food?
So, Hygiene Practices of food handlers is of really high importance
Microbiological tests for working surfaces, processing equipment and utensils
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Surface contamination monitoring
Evaluating spray drift
Understanding the nature of particulate deposition
Monitoring cleaning efficiency
Answering a range of other monitoring questions
Analysis is routinely performed on a range of organic and inorganic air contaminants and a wide variety of microbiological contaminants