This program enables the application of scientific principles and technical skills to the operation of chemical processing. It covers the design, operation, analysis, optimization, and troubleshooting processes in chemical engineering.
Industries such as petroleum refining, pharmaceutical manufacturing, and wastewater treatment use chemical process technology in carrying out their operations.
Why is chemical process technology necessary?
Advancement in chemical process technology is crucial in both general and industrial ways. The application of this technology has proven to be immensely profitable to the chemical engineering field.
It reduces the cost of energy which in turn lowers carbon emissions in the atmosphere. Capital and operating costs are decreased, thus increasing a company’s return on investment. A competitive advantage is created in the market as this technology provides alternative avenues.
The tasks of chemical process technology
The various technologies in chemical processing perform multiple tasks that improve and speed up industrial operations. These tasks differ depending on the technological tool used by the organization.
They analyze and monitor data from processes and experiments and rectify problems with the chemical manufacturing process. These systems also employ the development of safety procedures to improve working conditions around chemical reactions. This helps keep the workers who are in close proximity to these reactions safe.
These systems also carry out the development of processes to separate components of liquids or gases using controlled chemical procedures. The most important task is the evaluation of chemical equipment to identify optimal ways of performance.
Technological tools used in chemical processing
These are tools that aid chemical process engineers in performing lab operations and chemical experiments.
Catalytic combustion analyzers
They measure and analyze various parameters such as stack temperature, and gas levels. This analysis is very important in calculating the efficiency of various heaters, and furnaces.
The Bacharach Fyrite analyzer, MRU Nova Plus, Testo300, and Rosemount analytical are examples of catalytic combustion analyzers.
Chromatographic scanners
These scanners are designed to detect radiation of the type and energy level in question and cut electrophoretic strips into multiple segments. They also individually count these strips.
The Matter and Form Quick scan 3D, WASP Barcode Scanner, and Zebra Barcode Scanner are examples of chromatographic scanners.
Laboratory mixers
These mixers are instruments that help in forming a homogeneous mixture from more than one ingredient. They are used in the food and beverage, cosmetic, pharmaceutical, and electronics industries.
They basically shake the mixtures that are placed on them. The High Shear Lab mixing machine, Vortex mixer, Magnetic Stirrers, and Ribbon mixer are types of lab mixers.
Automated liquid handling robotics
They are a class of devices that dispense and sample liquids in tubes or wells and are often integrated as automated injection modules. They offer precision sample preparation for high throughput screening, HTC. They handle a volume of up to five liters!
The Biomek 4000 Lab Automation Workstation, Echo 525 Acoustic Liquid Handler, Aliqut STARlet, and epMotion 5070 are examples of lab mixers.
Conclusion
Chemical process technology positions the industry at a cutting-edge level of academic research while retaining a high standard of innovation.
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