Chemical engineers design and oversee chemical processes in various industries such as manufacturing, pharmaceuticals, energy production, and more. Their job involves developing new methods for the production of chemicals, monitoring and optimizing production processes, ensuring safety and environmental regulations are met, and troubleshooting any issues that arise during production. They also work on improving existing processes, researching new technologies, and collaborating with other engineers and professionals to ensure efficient and cost-effective production.
This income data is sourced from the May 2023 Occupational Employment and Wage Statistics (OEWS) survey. The dataset is updated annually.
Annual Pay Distribution | Salary |
|---|---|
10th percentile | $101,190.00 |
25th percentile | $105,830.00 |
median (50th percentile) | $123,020.00 |
75th percentile | $158,990.00 |
90th percentile | $218,740.00 |
Hourly Pay Distribution | Hourly Rate |
|---|---|
10th percentile | $48.65 |
25th percentile | $50.88 |
median (50th percentile) | $59.14 |
75th percentile | $76.44 |
90th percentile | $105.17 |
Chemical Engineers typically need a bachelor's degree in chemical engineering or a related field for entry-level positions, while some advanced roles may require a master's or doctoral degree. High school education is a prerequisite for pursuing a degree in this field, meaning that completing high school is necessary before starting college to become a Chemical Engineer. The coursework for Chemical Engineering degrees includes mathematics, chemistry, physics, biology, and engineering principles. Internships and co-op programs are common for gaining practical experience. Professional licensure is not mandatory but can enhance job prospects, especially for those offering services directly to the public. Continuous learning through workshops, seminars, and staying updated on advancements in the field ensures that Chemical Engineers remain competitive and knowledgeable throughout their careers.