Description
Design production control systems which involve all processes from pharmaceutical production process to pharmaceutical stocks with the purpose of providing the correct input for the development of pharmaceutica manufacturing plant software packages.
Alternative labels
pharmaceutical manufacturing systems designing
pharmaceutical production systems design
pharmaceutical production systems designing
designing pharmaceutical manufacturing systems
pharmaceutical manufacturing systems design
designing pharmaceutical production systems
Skill type
skill/competence
Skill reusability level
cross-sector
Relationships with occupations
Essential skill
Design pharmaceutical manufacturing systems is an essential skill of the following occupations:
Optional skill
Design pharmaceutical manufacturing systems is optional for these occupations. This means knowing this skill may be an asset for career advancement if you are in one of these occupations.
Nanoengineer: Nanoengineers combine the scientific knowledge of atomic and molecular particles with engineering principles for applications in a varied array of fields. They apply findings in chemistry, biology, and materials engineering, etc. They use technological knowledge for the improvement of existing applications or the creation of micro objects.
Pharmaceutical engineer: Pharmaceutical engineers design and develop technologies used in pharmaceutical research and drugs manufacture, advising the pharmaceutical manufacturing plants to maintain and operate those technologies and ensuring the customers` and workers` safety requirements are met. They may also be involved in the conception and design of pharmaceutical manufacturing plants and research centers.
Chemical engineer: Chemical engineers design and develop large-scale chemical and physical production processes and are involved in the entire industrial process required for transforming raw materials into products.
Biochemical engineer: Biochemical engineers research on the field of life science striving for new discoveries. They convert those findings into chemical solutions that can improve the wellbeing of society such as vaccines, tissue repair, crops improvement and green technologies advances such as cleaner fuels from natural resources.
Bioengineer: Bioengineers combine state of the art findings in the field of biology with engineering logics in order to develop solutions aimed at improving the well-being of society. They can develop improvement systems for natural resource conservation, agriculture, food production, genetic modification, and economic use.
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