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Chemical Engineers
Career, Salary and Education Information
Following is everything you need to know about a career as a chemical engineer with lots of details. As a first step, take a look at some of the following jobs, which are real jobs with real employers. You will be able to see the very real job career requirements for employers who are actively hiring. The link will open in a new tab so that you can come back to this page to continue reading about the career:
Top 3 Chemical Engineer Jobs
Metallurgy Lab Technician - EWI - Columbus, OH
The customer support level in this role is important as a need for quickness and precision in executing work and delivering results in a timely
Optics Production Cleanroom Operator - Moxtek - Orem, UT
Essential Functions: 1. Processes parts at floor stations. 2. Responsible for basic processes of manufacturing. Depending on stations this includes
Engineering Technician (Crystals) - PCB Piezotronics - Depew, NY
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 design processes and equipment for large-scale manufacturing, plan and test production methods and byproducts treatment, and direct facility operations.
Duties of Chemical Engineers
Chemical engineers typically do the following:
Conduct research to develop new and improved manufacturing processes
Establish safety procedures for those working with dangerous chemicals
Develop processes for separating components of liquids and gases, or for generating electrical currents, by using controlled chemical processes
Design and plan the layout of equipment
Conduct tests and monitor the performance of processes throughout production
Troubleshoot problems with manufacturing processes
Evaluate equipment and processes to ensure compliance with safety and environmental regulations
Estimate production costs for management
Some chemical engineers, known as process engineers, specialize in a particular process, such as oxidation (a reaction of oxygen with chemicals to make other chemicals) or polymerization (making plastics and resins).
Others specialize in a particular field, such as nanomaterials (extremely small substances) or biological engineering. Still others specialize in developing specific products.
In addition, chemical engineers work in the production of energy, electronics, food, clothing, and paper. They must understand how the manufacturing process affects the environment and the safety of workers and consumers.
Chemical engineers also conduct research in the life sciences, biotechnology, and business services.
Work Environment for Chemical Engineers[
Chemical engineers hold about 32,700 jobs. The largest employers of chemical engineers are as follows:
Basic chemical manufacturing
15%
Engineering services
13
Research and development in the physical, engineering, and life sciences
9
Resin, synthetic rubber, and artificial synthetic fibers and filaments manufacturing
8
Petroleum and coal products manufacturing
6
Chemical engineers work mostly in offices or laboratories. They may spend time at industrial plants, refineries, and other locations, where they monitor or direct operations or solve onsite problems. Chemical engineers must be able to work with those who design other systems and with the technicians and mechanics who put the designs into practice.
Some engineers travel extensively to plants or worksites, both domestically and abroad.
Injuries and Illnesses
Chemical engineers can be exposed to health or safety hazards when handling certain chemicals and plant equipment, but such exposure can be avoided if proper procedures are followed.
Chemical Engineer Work Schedules
Nearly all chemical engineers work full time. Occasionally, they may have to work additional hours to meet production targets and design standards or to troubleshoot problems with manufacturing processes. About 2 out of 5 chemical engineers work more than 40 hours per week.
Chemical engineers must have a bachelor's degree in chemical engineering or a related field. Employers also value practical experience, so internships and cooperative engineering programs, in which students earn college credit and experience, can be helpful.
Education for Chemical Engineers
Chemical engineers must have a bachelor's degree in chemical engineering or a related field. Programs in chemical engineering usually take 4 years to complete and include classroom, laboratory, and field studies. High school students interested in studying chemical engineering will benefit from taking science courses, such as chemistry, physics, and biology. They also should take math courses, including algebra, trigonometry, and calculus.
At some universities, students can opt to enroll in 5-year engineering programs that lead to both a bachelor's degree and a master's degree. A graduate degree, which may include a degree up to the Ph.D. level, allows an engineer to work in research and development or as a postsecondary teacher.
Some colleges and universities offer internships and/or cooperative programs in partnership with industry. In these programs, students gain practical experience while completing their education.
ABET accredits engineering programs. 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.
Important Qualities for Chemical Engineers
Analytical skills. Chemical engineers must troubleshoot designs that do not work as planned. They must ask the right questions and then find answers that work.
Creativity. Chemical engineers must explore new ways of applying engineering principles. They work to invent new materials, advanced manufacturing techniques, and new applications in chemical and biomedical engineering.
Ingenuity. Chemical engineers learn the broad concepts of chemical engineering, but their work requires them to apply those concepts to specific production problems.
Interpersonal skills. Because their role is to put scientific principles into practice in manufacturing industries, chemical engineers must develop good working relationships with other workers involved in production processes.
Math skills. Chemical engineers use the principles of advanced math topics such as calculus for analysis, design, and troubleshooting in their work.
Problem-solving skills. In designing equipment and processes for manufacturing, these engineers must be able to anticipate and identify problems, including such issues as workers' safety and problems related to manufacturing and environmental protection.
Licenses, Certifications, and Registrations for Chemical Engineers
Licensure for chemical engineers is not as common as it is for other engineering occupations, nor is it required for entry-level positions. A Professional Engineering (PE) license, which allows for higher levels of leadership and independence, can be acquired later in one's career. Licensed engineers are called professional engineers (PEs). A PE can oversee the work of other engineers, sign off on projects, and provide services directly to the public. State licensure generally requires
A degree from an ABET-accredited engineering program
A passing score on the Fundamentals of Engineering (FE) exam
Relevant work experience, typically at least 4 years
A passing score on the Professional Engineering (PE) exam
The initial FE exam can be taken after one earns a bachelor's degree. Engineers who pass this exam are commonly called engineers in training (EITs) or engineer interns (EIs). After meeting work experience requirements, EITs and EIs can take the second exam, called the Principles and Practice of Engineering (PE).
Each state issues its own licenses. Most states recognize licensure from other states, as long as the licensing state's requirements meet or exceed their own licensure requirements. Several states require engineers to take continuing education to keep their licenses.
Other Experience for Chemical Engineers
During high school, students can attend engineering summer camps to see what these and other engineers do. Attending these camps can help students plan their coursework for the remainder of their time in high school.
Advancement for Chemical Engineers
Entry-level engineers usually work under the supervision of experienced engineers. In large companies, new engineers also may receive formal training in classrooms or seminars. As junior engineers gain knowledge and experience, they move to more difficult projects with greater independence to develop designs, solve problems, and make decisions.
Eventually, chemical engineers may advance to supervise a team of engineers and technicians. Some may become architectural and engineering managers. Preparing for management positions usually requires working under the guidance of a more experienced chemical engineer.
An engineering background enables chemical engineers to discuss a product's technical aspects and assist in product planning and use. For more information, see the profile onsales engineers.
Chemical Engineer Salaries
Salary Calculator
Entry Level Experienced
The average salary for entry level Chemical Engineer in Bloomington, IN is $69,043 per year
The median annual wage for chemical engineers is $98,340. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $60,770, and the highest 10 percent earned more than $158,800.
The median annual wages for chemical engineers in the top industries in which they work are as follows:
Petroleum and coal products manufacturing
$104,610
Engineering services
103,270
Basic chemical manufacturing
102,100
Resin, synthetic rubber, and artificial synthetic fibers and filaments manufacturing
99,550
Research and development in the physical, engineering, and life sciences
98,210
A 2015 survey report by the American Institute of Chemical Engineers indicated that the median yearly salary of those with no supervisory responsibility was $106,300.
Nearly all chemical engineers work full time. Occasionally, they may have to work additional hours to meet production targets and design standards or to troubleshoot problems with manufacturing processes. About 2 out of 5 chemical engineers work more than 40 hours per week.
Job Outlook for Chemical Engineers
Employment of chemical engineers is projected to grow 8 percent over the next ten years, about as fast as the average for all occupations. Demand for chemical engineers' services depends largely on demand for the products of various manufacturing industries. The ability of these engineers to stay on the forefront of new emerging technologies will sustain employment growth.
Many chemical engineers work in industries whose products are sought by many manufacturing firms. For instance, they work for firms that manufacture plastic resins, which are used to increase fuel efficiency in automobiles. Increased availability of domestically produced natural gas should increase manufacturing potential in the industries employing these engineers.
In addition, chemical engineering will continue to migrate into dynamic fields, such as nanotechnology, alternative energies, and biotechnology, and thereby help to sustain demand for engineering services in many manufacturing industries.
However, overall growth of employment will be tempered by a declines in employment in some manufacturing sectors.
Job Prospects for Chemical Engineers
The need to find alternative fuels to meet increasing energy demand while maintaining environmental sustainability will continue to require the expertise of chemical engineers in oil- and gas-related industries. In addition, the integration of chemical and biological sciences and rapid advances in innovation will create new areas in biotechnology and in medical and pharmaceutical fields for them to work in. Thus, those with a background in biology will have better chances to gain employment.
Employment projections data for Chemical Engineers, 2016-26
Occupational Title
Employment, 2016
Projected Employment, 2026
Change, 2016-26
Percent
Numeric
Chemical engineers
32,700
35,200
8
2,500
Careers Related to Chemical Engineers[About this section] [To Top]
Architectural and Engineering Managers
Architectural and engineering managers plan, direct, and coordinate activities in architectural and engineering companies.
Biomedical Engineers
Biomedical engineers combine engineering principles with medical sciences to design and create equipment, devices, computer systems, and software used in healthcare.
Chemical Technicians
Chemical technicians use special instruments and techniques to help chemists and chemical engineers research, develop, produce, and test chemical products and processes.
Chemists and Materials Scientists
Chemists and materials scientists study substances at the atomic and molecular levels and analyze the ways in which the substances interact with one another. They use their knowledge to develop new and improved products and to test the quality of manufactured goods.
Nuclear Engineers
Nuclear engineers research and develop the processes, instruments, and systems used to derive benefits from nuclear energy and radiation. Many of these engineers find industrial and medical uses for radioactive materials—for example, in equipment used in medical diagnosis and treatment.
Occupational Health and Safety Specialists and Technicians
Occupational health and safety specialists and technicians collect data on and analyze many types of work environments and work procedures. Specialists inspect workplaces for adherence to regulations on safety, health, and the environment. Technicians work with specialists in conducting tests and measuring hazards to help prevent harm to workers, property, the environment, and the general public.
Learn About Being a Design Engineer
What Does a Design Engineer Do?
Design engineers are mechanical engineering professionals who use computer-aided design (CAD) software to develop, launch and improve an organization’s manufacturing process and product designs. Design engineers work collaboratively with teams to ensure products and systems perform to their desired purpose. Additional responsibilities include:
Use specialized software to create models and drawings of products.
Research new materials and methods of development.
Organize and maintain existing engineering records.
Construct prototypes and confirm designs with design/purchasing team.
Perform physical testing on engineering prototypes.
Ensure components and assemblies adhere to applicable industry and business standards.
Typical Salary
Common salary in US: $78,391 yearly
Typical salaries range from $48,227 – $127,423 yearly
Find more information on Indeed Salary
Common Skills and Requirements
Bachelor’s Degree in Industrial Design, Mechanical Engineering or related field
3+ years’ experience in mechanical design
In-depth knowledge of SolidWorks 3D CAD software
Extensive knowledge of metal fabrication processes
Understanding of current cutting tool technology
Impeccable attention to detail
Ability to plan, schedule, coordinate and problem solve effectively
How to Become a Design Engineer
Gain the necessary education
While there is no national requirement to become a design engineer, most employers require applicants to have a bachelor’s degree in mechanical engineering, product design, engineering technology or another related field. Employers may require you to have a master’s degree for more advanced design engineer positions.
Familiarize yourself with industry requirements
In addition to obtaining a bachelor’s or master’s degree, some employers also require design engineers to complete an industry-specific certification program. For example, you may need to earn a certificate from the American Society of Mechanical Engineers or a complete your Certificate in Engineering Design (CED).
Seek internships
Successful design engineers are team-oriented professionals with skills in both design and engineering. Because many employers require at least some experience in the field, it can be helpful to develop your expertise through an internship role. This will allow you to gain real-world experience and expand your knowledge-base, which will help increase your value to future employers.
Build your soft skills
To become a successful design engineer, you’ll need to build relevant soft skills such as problem-solving, creativity, active listening, time management, interpersonal communication, analytical skills, research and written and verbal communication.
Develop the appropriate technical skills
To prepare for a career in design engineering, you should develop your skills in CAD software, project management, industrial control, production processes, advanced mathematics, and building and reading blueprints. You should also improve your familiarity with tools such as micrometers and calipers.
In addition to the above steps, you may also want to develop your skills and experience within a specific vertical. For example, if you’re applying to work as a design engineer in metal fabrication, you’ll likely need experience using metal cutting tools and applying metal fabrication processes.
Example Design Engineer Job Description
Our technology-driven firm’s engineering department currently has an immediate opening for a Design Engineer. The Design Engineer will be responsible for carrying out the duties of the Engineering department, including design, research, prototyping, engineering documentation, estimating and process improvement. The successful candidate will report directly to the Lead Designer, and collaborate with design/purchasing and shop/assembly teams on design projects. This an excellent opportunity to work in a friendly work environment with a team that is dedicated and passionate about craftsmanship and innovation.
Tips From Design Engineers
Learn more about the responsibilities, challenges and expectations you’ll encounter as a design engineer with Indeed reviews.
“The most enjoyable part is getting deep into a design project with other engineers who are also passionate in finding the next best way to tackle the new technology constraints and opportunities.” – Intel Analog Design Engineer, Hudson, MA
“I understand users and determine key aspects of user experience and interaction in all platform context… Drive all aspects of interaction design for a complex product… Design flows and visual experiences that are as user friendly as they are beautiful… Creates and maintain a library of interaction patterns and design elements along with icons and logo or other stuff…” – Design Engineer at Apple, Sunnyvale, CA
“Typical day was always out of the gate… Internal customers were appreciative with the tool installs as well as the safety and industrial hygiene groups. The hardest part was to satisfy all parties involved with the tool and ownership.” – IBM Contractor Design Engineer, Yorktown, NY
FUTURE SCOPE IN MECHANICAL ENGINEER
Future Scope of Mechanical Engineering
Recently, a report by Deloitte Touche Tohmatsu Limited’s (Deloitte Global), which is a reputed multinational professional services network, on Global Manufacturing Competitiveness Index rankings expected India to capture the top 5 most competitive manufacturing nation position by 2020. Owing to this fact, the future prospects of Mechanical Engineering (MEC E) are considered quite bright in the country. Nevertheless, there are many who get perplexed when it comes to selecting Mechanical Engineering as there is no deficiency of other alluring choices. This makes it requisite to take a glance at the different angles of this stream. Before trying to fathom the scope of Mechanical Engineering, it will be good to throw some light on this field of education and how it can unravel the roads to amazing career options.
What is Mechanical Engineering?
One of the most popular and the oldest disciplines of engineering,
Mechanical Engineering is the stream where an individual gets a chance to create mechanical systems that can bring substantial change in the life of all humankind. Technically, this field involves different principles of physics, mathematics, apart from engineering.
Who should opt for Mechanical Engineering?
Choosing any field of engineering must be done on the basis of its demand in the industry and the interest of the individual. If someone is more into applying the knowledge in the designing, analyzing, manufacturing, and maintenance of mechanical systems, then they must straight away select mechanical stream as an engineering student. Having said that, if anyone is not having the zeal to unfold the skills in Mechanical Engineering field then, they have many other potent alternatives, such as computer science engineering, electronics and communication engineering, Information and Technology Engineering, etc.
What makes Mechanical Engineering popular choice?
The career scope of mechanical engineers is quite broad as this field includes umpteen types of work. Whether it is designing of power-using machines like a refrigerator or power-producing machines, like electric-based generators, the engineers with the mechanical background can execute all these works in an efficient way. In addition to this, the engineers with MEC E degree also get the chance to show their skills in designing other machines that are used in building construction industry, such as elevators, escalators and even conveyor systems. Interestingly, mechanical engineers also execute their work by using computers extensively, thereby applying the latest computer technology in developing and analyzing designs, running simulations and testing the interaction of connected systems in a machine. Furthermore, engineers with mechanical background are routinely responsible for the integration of sensors, controllers, and machinery.
Job Prospects for Mechanical Engineer
The job options are in abundance for graduates in Mechanical Engineering and so one can expect good remuneration after completing the course. Despite saying this, it is important to stress on the reality that without proper skills and relevant knowledge in the field in, getting absorbed in the industry is not possible. One needs to ensure that they attain the desired skill set, which meets the industry requirement. Designation of the individual also plays a crucial role in determining their pay scale. Technically, a passed out Mechanical Engineering student gets the following types of job profiles to serve in a company:
Engineering Product Tester
A person who holds the position of Engineering Product Tester keeps a regular check on all the devices and tools used in the industry. This job is always in demand and after becoming a mechanical engineer, anyone with knowledge can serve this profile.
Project Engineer
Project Engineer is a highly responsible job profile and the main thing needed here is an absolute sense of innovation. The main work is to lead the project and ensure its development in an impeccable way. The professionals serving this position also need to keep a regular check on the progress of the project as well as look into the concealed problems.
Manufacturing Engineer
Mechanical Engineers working on this profile have to look for the ways to improve the overall process of manufacturing for optimal utilization of the resources. Precisely, the person on this position analyses the quality and safety of the product manufacturing unit.
Design Engineer
A Mechanical Engineering graduate can also hold the position of a design engineer. The only thing they need to do is to opt for two courses on designing, as this job is profusely about designing the shapes and sizes of automobiles. Anyone with a touch of creativity can look forward to this post after completing their Mechanical Engineering course.
Development Engineer
The job of a development engineer is to develop a product design meeting the strategic goals of the client or the company working for. Further, the professionals also look after the working procedures of lead testing as well as outlining the specifications for manufacturing.
Conclusion
Mechanical Engineering is a stream that requires a passion for analytical thinking and anyone possessing this skill can choose B-tech in ME confidently. The perfect way to attain knowledge, skills, and exposure in this field is to join a college of engineering which offers best career opportunities.
SCOPE IN ENGINEER
Mechanical engineering is the evergreen branch among all other branches of engineering. They deal with the concepts of mechanics, thermodynamics, robotics, kinematics, structural mechanics, fluid mechanics, power sector, refrigeration, air conditioning sector and aerospace. There is a great scope of mechanical engineering now-a-days. It is expanding beyond its boundaries and more of interdisciplinary in nature. It is one of the oldest branches of engineering. This field of engineering is the broadest of all engineering fields, job prospects on offer for skilled engineer are plenty and unending. They can find employment in both government as well as private sector. Mechanical engineers are required to design, test, manufacture, install, operate and maintain a wide array of machines and mechanical systems that are used in industries. There is a great scope of job avenues for mechanical engineers in India. Few of them are listed below:
Aerospace industry- In aerospace industry mechanical engineers are used to do resarch, design, manufacture, operate and maintain the aircrafts.
AEROSPACE ENGINEER
Automotive industry- In automotive industry mechanical engineers are used to do designing, manufacturing, distributes and perform marketing of motor vehicles.
AUTOMOBILE
Chemical industry- In chemical industry, they covers the oil companies, chemical manufactures and the business to build new chemical plants or to develop new process technologies.
CHEMICAL ENGINEER
Construction industry - In this field of industry the role of mechanical engineer is to design and build the infrastructure and buildings and its services like heating and ventilation.
Defence industry- in defence industry, they provide the equipments and provide support and services to the armed forces.
Electronics industry- In this field of industry,the role of mechanical engineers is to design and manufacture components and complete equipments for sectors from automotive and the military.
Marine industry- In this field of industry, the role of mechanical engineer is to develop the vessels and help to operate them.
Material and metal industry- In this field of industry, mechanical engineer performs the activities which include developing new material and manufacturing components or end products.
Rail industry- In rail industry, the role of mechanical engineer is to design, construct, manage and maintain the rail system component from train and tracks to electrical power system and train control system.
Utilites industry- In this field of industry, they help to supply the power, water, waste material and telecom.
Design engineers are mechanical engineering professionals who use computer-aided design (CAD) software to develop, launch and improve an organization’s manufacturing process and product designs. Design engineers work collaboratively with teams to ensure products and systems perform to their desired purpose. Additional responsibilities include:
