Light Chemistry Engineering
Light Chemistry Engineering is an engineering technology that uses chemicals as raw materials to prepare daily, personal and industrial additives. Compared with the traditional chemical industry, the light chemical industry is at the high end of the industrial chain, with the characteristics of no pollution, low energy consumption, and high value-added products. Therefore, it is a pillar industry in developed regions and an urban industry that can satisfy people's lives and improve the quality of the people. The light chemistry engineering major was established to meet the needs of such urban industrial development and society's demand for advanced light chemical talents.
The light chemistry engineering aims to cultivate advanced engineering and management personnel with a solid foundation in chemical engineering and to acquire knowledge about daily chemicals and additives. Students with a degree in light chemical engineering can work in industrial production, process design, scientific research, technical management and new product development. Light chemistry engineering graduates can not only serve as scientific researchers or managers for three top oil companies, but also for quality inspectors in environmental protection management, customs, quality inspection departments and other government departments.
Light chemistry engineering courses include physical science, chemistry, biochemistry, mathematics, transportation phenomena, dynamics, thermodynamics, reaction engineering, process engineering and engineering economics. The program provides state-of-the-art laboratories by providing a variety of challenging courses and problem-solving courses to help Light chemistry engineering students gain design and teamwork experience by participating in high-level design projects for research projects and to develop students to become competent. engineer.
WHAT CAN LIGHT CHEMISTRY ENGINEERING DO?
1. Chemical engineer
As a chemical engineer, you will be involved in the design and development of a wide range of products. Your work will focus on changing the chemical, biochemical, and physical state of matter, transforming it into other substances, such as making plastic from oil. You need to understand how to change raw materials to the desired product, taking into account health and safety as well as cost issues. Modern chemical engineering is also focused on developing valuable new materials and technologies such as nanotechnology, fuel cells energy, diet, oil and gas, pharmaceuticals, plastics, water treatment. Chemical engineers develop raw materials into a range of useful products. A career in light chemistry engineering gives you the opportunity to create products such as petrochemicals, pharmaceuticals, and plastics.
2. Energy engineer
If you are interested in the use of energy and the technology involved, your career as an energy engineer may be right for you. As an energy engineer, you will participate in energy production through natural resources, such as oil and gas extraction, as well as renewable or sustainable energy sources, including biofuels, hydro, wind and solar. Your focus will be on finding efficient, clean and innovative ways to supply energy.
3. Analytical chemist
You need a light chemistry engineering degree, good technical skills and attention to detail to become an analytical chemist. As an analytical chemist, you will use a variety of methods to study the chemical properties of a substance. Your goal is to identify and understand the substance and how it behaves under different conditions. The exact role may vary from setup to setup. For example, in the pharmaceutical industry, you will be involved in the entire drug development process. This will include studying the physical or chemical properties of the drug substance and formulation to determine the quality and stability of the drug.
Common skills gained from this degree
- Creativity and innovation
- Commercial and business awareness
- Analytical and problem-solving ability
- Interest in chemistry
- An understanding of engineering principles and mathematics