Chemical engineering is one of the oldest and core fields of engineering. You might be wondering what exactly chemical engineering is all about. “Chemical engineering is a branch of engineering that applies physical sciences, physics, chemistry, life sciences, microbiology and biochemistry, together with applied mathematics and economics to produce, transform, transport, and properly use chemicals, materials and energy. “Chemical engineers work to improve the quality of people 's lives. Most items used by people every day have needed chemical engineers to produce them” (Why study Chemical Engineering at Cambridge? n.d.). Essentially, chemical engineers design large-scale processes that convert chemicals, raw materials, living cells, microorganisms …show more content…
Becoming a chemical engineer requires an education in chemical engineering at either the undergraduate or graduate level. Chemical engineers typically hold either a bachelor 's degree (which is four years, with full time courses), master 's degree (ideal for advanced or managerial vocations in chemical engineering), and/or Ph.D. in chemical engineering, for those interested in performing independent or scholarly research (“What Is the Education Required to Become a Chemical Engineer?” n.d.). Most universities require engineering students to successfully complete 36 courses over four years for graduation. These courses include the School of Engineering and Applied Science (SEAS) requirement courses such as physics, general chemistry and computer proficiency. Also needed are some advanced science and math requirements; among these courses are calculus, multivariable calculus, differential equations, linear algebra, chemistry (300 level), organic, physical, inorganic and bio-chemistry, and molecular biology. Other required courses include; mass and energy balances, thermodynamics, fluid mechanics, heat and mass transfer, reaction kinetics/reactor design, separation processes/distillation/vessel design, process control, materials and mechanical properties, and process …show more content…
Bachelor’s degree chemical engineers usually have their first job related to chemical, pharmaceutical, or biotech operations (Chemical Engineering Degrees & Careers | How to Become a Chemical Engineer. n.d.). This work may be in the field or in an office. Some young engineers work for contracting firms and may be involved in plant design, start-up, troubleshooting, or validation (“FAQs, Chemical Engineering”, n.d.). There are many career paths you can choose once you obtain a chemical engineering degree. Some fields of work for chemical engineers include: Chemical Process Industries (CPI)- Designing and operating reactors, processes, and systems to combine, transport, separate, and recycle chemicals; Biotechnology-Using living cells, cell materials and biological techniques to produce antibiotics, insulin, recombinant DNA, artificial organs, techniques for medical, environmental and nutritional improvements, among other things; Food and Drugs; Advanced Materials-employed in the Aerospace, Automotive, Electronics, Minerals and Imaging sectors to design and control production of advanced polymers, ceramics and hybrid materials for improved performance; Environment, Health and Safety- Every process involving chemicals produces some by-products, and Chemical Engineers control these variables through process monitoring and control, efficient and safe process design, waste treatment, environmental impact studies, etc.;
In order to understand the effects of chemicals in our environment, environmental chemists conduct field and laboratory work with measurements, data interpretation, and computer modeling. In order to become an environmental chemist a person has to have a graduate degree in chemistry, earth science, or another related field ("Environmental Chemist: Education and Career Information."). A less experienced environmental chemist usually makes on average $40,000 and a more experience environmental chemist can make up to $60,000 (Alana
First, of all my academic goal is to pursue a degree in Chemical Engineering. Majoring in Chemical Engineering combines my passions for science and problem solving, while helping others.
I have decided to choose this type of science degree because I love the mathematical challenges working out physical chemistry calculations such as equilibrium and lattice enthalpies. Furthermore, I know that chemists have to be f...
Where having a background knowledge of chemistry is important to understand the theoretical principles such as the chemical bonding and reaction pathways. Some biological and medical understanding is also important. Then next step is applying the mathematical methods to the scientific problems, Through the use of the analytics skills. For that Proficiency in various levels of programming languages is needed. Along with code development, software architecture skills, Computer modelling and statistical analysis methods. Other skills required are Problem-solving skills, Critical thinking, ability to work with and extract information from large datasets, adapting and integrating computer software to solve new categories of problems, as well as the skills in communication and the ability to work in teams are important.
There are various types of engineering that make the world the way it is. The engineering field is a huge necessity to the world. The field provides a sense of infrastructure and stability to anywhere and everywhere, and without engineers, the world would pretty much fall apart. Lots of people assume that engineering only has to deal with the environment and the external structures that make up where we live, but that is just the tip of the iceberg. Other types of engineering include the makeup of the body, and the function of the specific internal organs. This is when we land on the field of biomechanics. The purpose of biomechanics is to study the function and the movement of the human body. This engineering field is very important because
There are four types of chemistry courses nurses typically go through. These include: general chemistry, biochemistry, organic chemistry and pharmacology. General chemistry is the basics. In this subject you will learn about the elements and compounds on the periodic table. Many courses cover chemical equations, states of matter, and elements that make up the world. Biochemistry is a mixture of of biology and chemistry. This branch of chemistry studies the many activities that happen in the body of a
The various processes and concepts involved in industries responsible for the production of innumerable day to day goods have always captured my fascination. The production and processing of chemicals form the crux of such industries. What started as a fascination has turned into a passion, and the next step in this journey is why i am aspiring towards a Master of Science degree in CHEMICAL ENGINEERING at PENN ENGINEERING specializing in {Specialization}.
Though many people fail to realize it, chemistry is a subject essential to everyday life, due to the fact that it is the branch of science that deals with the identification of the substances of which matter is composed. But what we must understand is that everything in the universe is composed of matter, hence chemistry is necessary in learning more about the world and universe that we live in. There are many careers and fields affiliated with chemistry that people pursue to learn more about the composition of the universe, but for now, let us examine the logistics of three of these careers. These three careers involving chemistry are geochemistry, environmental chemistry, and chemical engineering.
Ever since I began studying science and mathematics at all levels of educations I have always had an interest in the production of useful materials. In the growing turmoil of today; a world full of global warming and diminishing resources, questions often arise in my mind such as, "can we make a more efficient, more durable and a renewable resource that will overshadow fossil fuels? and have less of an impact on our environment?" Up to now, I have not found a solution to these questions and answering these questions is a personal aspiration of mine which I aim to fulfil by achieving a degree in Chemical engineering and eventually I will contribute to the field in my own unique way. The debate surrounding sustainable energy fascinates me, having recently learned from personal research I have understood what an authoritative role chemists and chemical engineers play in the industry at the present time and how, by working as a team, they contribute to an improved future for the whole world. However, one of the main reasons that has single-mindedly driven me this far to want to study chemical engineering is a book I have read, “Beyond the Molecular Frontier: Challenges for Chemistry and Chemical Engineering” While reading this book, I had solidified my understandings of what chemical engineering is all about. Also, one of the main processes mentioned was polymerisation and is something I already study in A-level chemistry, it is something that not only interests me, but is a personal career aspiration of mine. Reading this book gave me a determination to be the person who helps improve the future of the industry and provide an answer to the questions I always ask myself by studying this degree.
I am currently taking Maths, Chemistry and Biology to Advanced Higher, all of which are challenging and stimulating subjects. They have all influenced me in different ways and were integral in my decision to pursue a degree in Chemical Engineering. They have also helped me obtain a foundation of core skills and extended knowledge to hopefully prepare me undertaking my desired degree. There is no doubt that Maths and chemistry have helped fine tune and advance my problem solving skills and think in a more logical manner, all of which I believe to be essential for this degree.
What exactly is a chemical engineer? Many would say that it is simply a "chemist who builds things" or an "engineer who makes chemicals. However, neither of these statements is completely true. The term "chemical engineer" is not meant to actually describe what it is a chemical engineer does, but to describe what sets it apart from the other branches of engineering: civil, mechanical, and electrical. On average, chemical engineers are numerically the smallest but also the highest paid. It is not a profession the must dwell on the past for comfort and support, for its greatest accomplishments are still yet to come.
According to dictionary.com,” Mechanical Engineering is the branch of engineering dealing with the design, construction, and use of machines.” Their job is to take an idea and actually make it happen. Doing this takes a lot of knowledge and skills. They first start off with an idea that they have. Then they try to make a small module of it. They do this so they know what the product will work without spending a lot of money on it. They have to find the right materials to do this. The materials have to be able to withstand a lot of things nature has to throw at it. Like rain, dust, lightening, and many more things. After they have to make sure the produce is safe. When all of this is done they build the real thing.
Having a degree in chemistry opens the door to a wide array of careers. These jobs include chemical engineer, analytical chemist, and pharmacologist. The job that has me most interested is a Chemical Engineer. These top of the line engineers turn raw materials into useful products. They can make petrochemicals,
Mechanical engineering is a type of engineering which applies principles of physics and material science for the purpose of analyzing, designing, manufacturing and maintaining of mechanical systems (Gorp, 2005). It is involved with the production and usage of mechanical power in the operation of various machines and tools. Mechanical engineering is considered to be the most diverse engineering and has its breadth derived from the need to design tools and manufacture products which range from small individual parts to large systems. Mechanical engineering, as thought of by scholars, is related to Aerospace engineering, Manufacturing and Mechanical engineering (Van et al, 2011).
Chemist performs laboratory and field tests to monitor the environment and investigate sources of pollutions. A job as a water purification chemist falls under the broader career category of environmental science and protections. Water purification chemists must be comfortable working in a laboratory setting as well as in the field, and they must be comfortable communicating their findings and opinions to others.