Refining, combining, handling, and otherwise manipulating fluids to profitably produce end products can be a
precise, demanding, and potentially hazardous process. Small changes in a process can have a large impact
on the end result. Variations in proportions, temperature, flow, turbulence, and many other factors must be
carefully and consistently controlled to produce the desired end product with a minimum of raw materials and
energy. Process control technology is the tool that enables manufacturers to keep their operations running
within specified limits and to set more precise limits to maximize profitability, ensure quality and safety.
Process as used in the terms process control and process industry,
refers to the methods of changing or refining raw materials to create
end products. The raw materials, which either pass through or remain
in a liquid, gaseous, or slurry (a mix of solids and liquids) state
during the process, are transferred, measured, mixed, heated or
cooled, filtered, stored, or handled in some other way to produce the
end product.
Process industries include the chemical industry, the oil and gas
industry, the food and beverage industry, the pharmaceutical industry,
the water treatment industry, and the power industry.
Reducing variability can also save money by reducing the need for Activities
product padding to meet required product specifications. Padding
refers to the process of making a product of higher-quality than it
needs to be to meet specifications. When there is variability in the end
product (i.e., when process control is poor), manufacturers are forced
to pad the product to ensure that specifications are met, which adds
to the cost. With accurate, dependable process control, the setpoint
(desired or optimal point) can be moved closer to the actual product
specification and thus save the manufacturer money.
Manufacturers control the production process for
three reasons:
Process control can reduce variability in the end product, which
ensures a consistently high-quality product. Manufacturers can also
save money by reducing variability. For example, in a gasoline
blending process, as many as 12 or more different components
may be blended to make a specific grade of gasoline. If the refinery
does not have precise control over the flow of the separate
components, the gasoline may get too much of the high-octane
components. As a result, customers would receive a higher grade
and more expensive gasoline than they paid for, and the refinery
would lose money. The opposite situation would be customers
receiving a lower grade at a higher price.
Some processes need to be maintained at a specific point to maximize
efficiency. For example, a control point might be the temperature at
which a chemical reaction takes place. Accurate control of temperature
ensures process efficiency. Manufacturers save money by minimizing
the resources required to produce the end product.
A run-away process, such as an out-of-control nuclear or chemical
reaction, may result if manufacturers do not maintain precise control
of all of the processg variables. The consequences of a run-away
process can be catastrophic.
Precise process control may also be required to ensure safety. For
example, maintaining proper boiler pressure by controlling the inflow
of air used in combustion and the outflow of exhaust gases is crucial
in preventing boiler implosions that can clearly threaten the safety of
workers.
precise, demanding, and potentially hazardous process. Small changes in a process can have a large impact
on the end result. Variations in proportions, temperature, flow, turbulence, and many other factors must be
carefully and consistently controlled to produce the desired end product with a minimum of raw materials and
energy. Process control technology is the tool that enables manufacturers to keep their operations running
within specified limits and to set more precise limits to maximize profitability, ensure quality and safety.
Process as used in the terms process control and process industry,
refers to the methods of changing or refining raw materials to create
end products. The raw materials, which either pass through or remain
in a liquid, gaseous, or slurry (a mix of solids and liquids) state
during the process, are transferred, measured, mixed, heated or
cooled, filtered, stored, or handled in some other way to produce the
end product.
Process industries include the chemical industry, the oil and gas
industry, the food and beverage industry, the pharmaceutical industry,
the water treatment industry, and the power industry.
Reducing variability can also save money by reducing the need for Activities
product padding to meet required product specifications. Padding
refers to the process of making a product of higher-quality than it
needs to be to meet specifications. When there is variability in the end
product (i.e., when process control is poor), manufacturers are forced
to pad the product to ensure that specifications are met, which adds
to the cost. With accurate, dependable process control, the setpoint
(desired or optimal point) can be moved closer to the actual product
specification and thus save the manufacturer money.
Manufacturers control the production process for
three reasons:
- Reduce variability
- Increase efficiency
- Ensure safety
- Reduce Variability
Process control can reduce variability in the end product, which
ensures a consistently high-quality product. Manufacturers can also
save money by reducing variability. For example, in a gasoline
blending process, as many as 12 or more different components
may be blended to make a specific grade of gasoline. If the refinery
does not have precise control over the flow of the separate
components, the gasoline may get too much of the high-octane
components. As a result, customers would receive a higher grade
and more expensive gasoline than they paid for, and the refinery
would lose money. The opposite situation would be customers
receiving a lower grade at a higher price.
- Increase Efficiency
Some processes need to be maintained at a specific point to maximize
efficiency. For example, a control point might be the temperature at
which a chemical reaction takes place. Accurate control of temperature
ensures process efficiency. Manufacturers save money by minimizing
the resources required to produce the end product.
- Ensure Safety
A run-away process, such as an out-of-control nuclear or chemical
reaction, may result if manufacturers do not maintain precise control
of all of the processg variables. The consequences of a run-away
process can be catastrophic.
Precise process control may also be required to ensure safety. For
example, maintaining proper boiler pressure by controlling the inflow
of air used in combustion and the outflow of exhaust gases is crucial
in preventing boiler implosions that can clearly threaten the safety of
workers.
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