For more information, the American Institute of Chemical Engineers offers an online database of companies that are the most productive tenants of their members. Chemical engineers at the stock site show the variety of things that chemical engineers can do. In general, chemical engineers design and design processes to produce, transform, and transport materials, beginning with laboratory experiments followed by the implementation of the technology in full production. So when I was invited to teach biopharmaceutical separation processes at the University of Massachusetts-Lowell, I promised myself that I would make this class as ‘realistic-relevant’ as possible.
Chemical engineers apply the principles of physics, mathematics, mechanical engineering, and electrical engineering, as well as chemistry. Some may specialize in a particular chemical process, such as oxidation or polymerization. Others specialize in a specific field, such as nanomaterials, or in the Elite Chemical Engineering Expert Witness development of specific products. They must know all aspects of chemical production and how the production process affects the environment and the safety of workers and consumers. The degree of chemical technology is very diverse and creates many opportunities for a global competitive labor market.
They design processes and equipment for chemical production and test methods for product manufacturing. From developing smaller, faster computer chips to innovations in recycling, disease treatment, water cleaning, and power generation, the processes and products that chemical engineers have helped create touch on every aspect of our lives. Scroll through the pages below to learn about the many important advances chemical engineers have made in our world. You will learn about the great performance of chemical technology, the daring innovators and the new limits in the fields of energy, the environment, biomedical medicine, electronics, food and material production. Graduate training is essential for teaching position design and some research and development programs, but is not required for most entry-level technical work.
In addition to traditional careers in the chemical, energy, and oil industries, chemical engineers increasingly enjoy opportunities in biotechnology, pharmaceuticals, electronic device manufacturing, and environmental engineering. The unique training of the chemical engineer becomes essential in these areas when the processes involve the chemical or physical transformation of matter. For example, a chemical engineer may work in medical care, construction, pharmaceuticals, manufacturing, petrochemicals, food processing, biotechnology, design, polymers, environmental health and safety, pulp and paper, and special chemicals.
Good communication and teamwork are essential, as are IT and relevant specialized technical knowledge. Experience in chemical technology also applies in the fields of law, education and publication, as well as in several other technical areas. With a shortage of qualified people and the potential for professional growth, the sector is very attractive to graduates. The average salary for chemical technology last year was £ 53,000, with the highest-paid chemical engineers working in the oil and gas production sector, where wages generally exceed £ 70,000. The average annual starting salary for a chemical technology graduate in the UK is £ 28,000.
Some of the major industries employing chemical engineers include chemical production, architecture and engineering, scientific research, oil and coal production, and the federal government. Typical tasks performed on jobs for chemical engineers include research and testing, equipment and process design and evaluation, and ensuring compliance with safety and environmental standards. An innovative and multidisciplinary branch of engineering, chemical technology encompasses a wide variety of industries, processes, and tasks.
With a degree in chemical technology, I am ready to take on a challenge in different areas and have the creativity to find a number of solutions. You could go to the food industry to design healthier chips or soda bottles that keep you safe forever. You could work in the oil and gas field and find ways to use energy environmentally and economically.
The design and construction industry works with all other industries to design and build facilities, specify machines and design processes, and solve problems that allow companies to operate safe and efficient factories. Chemical engineers in the design and construction sector participate in process design and project management and work closely with other technical disciplines. Chemical engineers use chemistry and engineering to convert raw materials into usable products, such as medicines, petrochemicals, and plastics, in a large-scale industrial environment. The operation of the unit is a physical step in an individual chemical engineering process.
They often work closely with technicians, technicians, scientists, and other engineers. Or they can work shifts or be on call at certain times, especially those who work in processing plants. Chemical engineers are also increasingly dependent on computer-aided design software to develop products and materials. Therefore, they often have to be experts in technology and computing, as well as in applied science.
Your work environment can be in a laboratory, factory, office building, construction site, or oil and gas location. Chemical engineers use their mathematical and scientific skills to solve and develop materials and products with chemical processing. Any chemical, ecological, biological or industrial process requires chemical engineers to create and develop the equipment, systems and materials used. Chemical engineers are also important in ensuring that chemical processes are safe, environmentally friendly, efficient, and on budget.