Return to site

What Is Chemical and Biological Engineering?

By EssayCorp

Chemical and biological engineering involve the implementation of the theories and principles of biological science in creating and innovating pharmaceuticals and biomaterials. This field of expertise is dominantly proving itself as an engineering domain with unarguably bright future prospects. This is due to the fact that scientists and researchers are always facing new challenges in both the medical and chemical sciences.

broken image

The core principles of chemical engineering are intertwined with the theories and observations of biological engineering,thus making this branch of engineering a ray of hope to decipher the biological challenges that could surround the life on the earth and the entire humanity in the future.

The medical field has witnessed many key developments over the past decade including and not limited to human genome studies, artificial limbs, stem cell research, and targeted cancer therapies. Graduates who have pursued this branch of engineering have also grown into professionals in various allied domains such as renewable energy, and food security research and development.

Objectives of Chemical and Biological Engineering

The course is targeted to imbibe the following abilities in the students:

  1. Solid understanding of chemical and biological phenomena and the ability to apply it.
  2. The potential to identify and solve the pressing issues underlying in the global chemical and biological fields.
  3. Deeper coverage on mathematical aspects, software, and computer programming techniques.
  4. Adaptability to new technologies in the field and challenging work cultures and environments.
  5. Thrive as an inspiring entrepreneur addressing the challenges that emerge constantly in this field.
Scope of Chemical and Biological Engineering

The scope of this field of engineering is vast. This specialization leads to design many chemical and biological solutions and inventions that were never heard of decades ago. There is also a need for working towards formulating cost-effective biological inventions that would answer the concerns that may arise out of increased longevity and thus old age, surmounting population and new viruses that keep challenging the mankind from time to time.

The following are the fields of study from a bigger gamut of this engineering:

  1. Artificial body parts
  2. Biodegradable solutions design
  3. Bioenergy studies
  4. Bionanotechnology
  5. Biopharmaceuticals
  6. Biopolymer research
  7. Cell culture and tissue engineering
  8. Drug design and inventions
  9. Food processing
  10. Gene studies and therapies
  11. Microbial Studies
  12. Sustainable energy solutions
What would a student of Chemical and Biological Engineering study?

Various aspects of mathematics, physics, biology, chemistry, and computer courses are inherent subjects of this field.

  1. In-depth coverage on thermodynamics, heat transfer and chemical reactions at the molecular level, biomedical engineering, energy technologies, environmental studies, and sustainable energy design will also be present in the syllabus.
  2. Specifically, students will learn and understand and be able to apply microbiology, biochemistry and enzyme engineering.
  3. Students will also have options to pursue various electives that suit their interests. Some of them are polymer engineering, business and marketing, and petroleum engineering.
Scope for Further Studies and Research
broken image

Graduates in chemical and biological engineering have a wide range of specializations to choose either for pursuing post-graduation or research and Ph.D.

Specializations

Most post-graduation courses have at least one course related to technology management and business studies to boost their entrepreneur skills. Interesting and rewarding opportunities await students who have done their specialization in the following fields of study:

  1. Nanotechnology
  2. Polymer Science and Advanced Material Design
  3. Renewable Energy for Sustainable Growth and Development
  4. Biotechnology and Bioprocessing
  5. Molecular Studies and Designing
Areas of Research

It is preferable that a student opting for research in chemical and biological engineering has a graduate degree in core chemical engineering, besides elective courses in biological engineering. This would ease working on various research areas such as biomaterials, polymer studies, and Continue Reading.....