Jacksonville Masters in Chemical Engineering on Campus Degrees and Programs

Masters in Chemical Engineering on Campus Degree Programs

Graduate students with a strong foundation in mathematics, physics and chemistry, might find that enrolling in a Masters in Chemical Engineering on Campus​ Program may prepare them to pursue a variety of career paths in a broad ranging field. The application of chemical engineering to so many different industries might offer graduates opportunities to pursue career paths in almost any field of interest from pharmaceuticals to fuel!

Chemical Engineering Masters Campus degree programsChemical Engineering is a section of engineering that relates physics and chemistry (physical sciences) and microbiology and biochemistry (life sciences) with applied mathematics and economics to produce, transform, transport, and properly use chemicals, materials and energy. Essentially, chemical engineers design large-scale processes that convert chemicals, raw materials, living cells, microorganisms and energy into useful forms and products[i].

How To Search For a Masters in Chemical Engineering on Campus Program

GradSchools.com makes it easy to search for Accredited Chemical Engineering Schools that offer Masters in Chemical Engineering Degree programs. You can start with a location search to determine where you can study; use the city, state or country tabs then review the different campus programs.  One of the things to bear in mind is that Masters in Chemical Engineering programs, such as the MS Chemical Engineering should, according to the BLS, be accredited by ABET. ABET-accredited programs in chemical engineering include courses in chemistry, physics, and biology. These programs also include applying the sciences to the design, analysis, and control of chemical, physical, and biological processes[ii].

What Skills Might I need to Pursue a Career as a Chemical Engineering?

Some of the Skills That Chemical Engineers need to possess


  • Using science and scientific rules to problem-solve
  • Complex problem-solving that includes identification of problems and effective options
  • Critical Thinking using logic and reasoning
  • Judgment and Decision-making as applies to costs
  • Systems Analysis

Potential Career Paths For Graduates in Chemical Engineering

Earning a Master’s Degree in Chemical Engineering might prepare students to jumpstart a potential career as a Chemical Engineer. Chemical engineers apply the principles of chemistry, biology, physics, and math to solve problems that involve the production or use of chemicals, fuel, drugs, food, and many other products. They also design processes and equipment for large-scale safe and sustainable manufacturing, plan and test methods of manufacturing products and treating byproducts, and supervise production. Chemical Engineers are employed in a variety of industries such as Architectural, Engineering and related services, Chemical manufacturing, Scientific research, and Manufacturing of diverse products[iv]:.

There are different types of professionals in this field. For example, some chemical engineers specialize in a particular process, such as oxidation, polymerization, or in a certain field, such as nanomaterials, biological engineering, or in the development of specific products. Others might work in producing electricity, electronics, food, clothing and paper. Research in life sciences, biotechnology, and business services is another direction that some chemical engineers might pursue[v]. For those who are hoping to puruse a career in research or academia at the post-secondary level, advanced studies such as a PhD in Chemical Engineering is generally required

  • The 2015 median pay for Chemical Engineers was $97,360[vi]
  • Employment is projected to grow 2% from 2014 to 2024, a statistic that may be because chemical engineering is also migrating into new fields, such as nanotechnology, alternative energies, and biotechnology[vii]

Biomedical Engineers: Analyze and design solutions to problems in biology and medicine, with the goal of improving the quality and effectiveness of patient care. Biomedical engineers can earn a bachelor’s degree in a different field of engineering and then either earn a graduate degree in biomedical engineering or puruse on-the-job training in biomedical engineering[viii]

  • The 2015 median Annual Pay For Biomedical Engineers was $86,220[viii]
  • Employment if Biomedical Engineers is projected to grow 23% between 2014 and 2024[viii]

Agricultural Engineers: Also referred to as biological and agricultural engineers, professionals in this field, work on a variety of activities. These range from aquaculture (raising food, such as fish, that thrive in water) to land farming to forestry; from developing biofuels to improving conservation; from planning animal environments to finding better ways to process food[ix].

  • The 2015 median Annual Pay For Agricultural Engineers was $75,090[ix]
  • Employment of Agricultural Engineers is projected to grow 4% between 2014 and 2024[ix]

Environmental Engineers: use the principles of engineering, soil science, biology, and chemistry to develop solutions to environmental problems. They are involved in efforts to improve recycling, waste disposal, public health, and water and air pollution control[x].

  • The 2015 median Annual Pay For Environmental Engineers was $84,560[x]
  • Employment of Environmental Engineers is projected to grow 12% from 2014 to 2024[x]

Ready to Pursue a Masters in Chemical Engineering on Campus Degree?

Whether you are interested in keeping the environment free of chemical toxins, developing pharmaceuticals, manufacturing new and improved rubber products, research and development, or teaching, earning a Master’s in Chemical Engineering may be the start to a fascinating career. Use the search tools on GradSchools.com to determine which program matches your academic and professional goals! 

Sources: [i] http://www.bls.gov/ooh/architecture-and-engineering/chemical-engineers.htm#tab-2 [ii] bls.gov/ooh/architecture-and-engineering/chemical-engineers.htm#tab-4 | [iii] onetonline.org/link/summary/17-2041.00#Knowledge | [iv] bls.gov/ooh/architecture-and-engineering/chemical-engineers.htm | [v] bls.gov/ooh/architecture-and-engineering/chemical-engineers.htm#tab-2 | [vi] bls.gov/ooh/architecture-and-engineering/chemical-engineers.htm#tab-1 | [vii] bls.gov/ooh/architecture-and-engineering/chemical-engineers.htm#tab-6 | [viii] bls.gov/ooh/architecture-and-engineering/biomedical-engineers.htm#tab-1 | [ix] bls.gov/ooh/architecture-and-engineering/agricultural-engineers.htm | [x] bls.gov/ooh/architecture-and-engineering/environmental-engineers.htm

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