Successful candidates will be adept at applying engineering principles to develop effective solutions. Minimum qualifications
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Health and safety engineers develop procedures and design systems to prevent people from getting sick or injured and to keep property from being damaged. They combine knowledge of systems engineering and of health or safety to make sure that chemicals, machinery, software, furniture, and other consumer products will not cause harm to people or damage to buildings.
Health and safety engineers typically do the following:
Health and safety engineers also investigate industrial accidents, injuries, or occupational diseases to determine their causes and to determine whether the incidents could have been or can be prevented in the future. They interview employers and employees to learn about work environments and incidents that lead to accidents or injuries. They also evaluate the corrections that were made to remedy violations found during health inspections.
Health and safety engineers are also active in two related fields: industrial hygiene and occupational hygiene. In industrial hygiene, they focus on the effects of chemical, physical, and biological agents. They recognize, evaluate, and control these agents to keep people from becoming sick or injured. For example, they might anticipate that a particular manufacturing process will give off a potentially harmful chemical and recommend either a change to the process or a way to contain and control the chemical.
In occupational hygiene, health and safety engineers investigate the environment in which people work, and then use science and engineering to recommend changes to keep workers from being exposed to sickness or injuries. They help employers and employees understand risks, and improve working conditions and practices. For example, they might observe that the noise level in a factory is likely to cause harm to workers’ hearing and recommend ways to reduce the noise level through changes to the building or reducing exposure time, or by having workers wear proper hearing protection.
Health and safety engineering is a broad field covering many activities. The following are examples of types of health and safety engineers:
Aerospace safety engineers work on missiles, radars, and satellites to make sure that they function safely as designed.
Fire prevention and protection engineers design fire prevention systems for all kinds of buildings. They often work for architects during the design phase of new buildings or renovations. They must be licensed and must keep up with changes in fire codes and regulations.
Product safety engineers investigate the causes of accidents or injuries that might have resulted from the use or misuse of a product. They create solutions that reduce or eliminate safety issues associated with products. They also help design new products to prevent injuries, illnesses, or property damage.
Systems safety engineers work in many fields, including aerospace, and are moving into new fields, such as software safety, medical safety, and environmental safety. These engineers take a systemic approach to identify hazards so that accidents and injuries can be avoided.
For information on health and safety engineers who work in mines, see the profile on mining and geological engineers.
Health and safety engineers hold about 25,200 jobs. The industries that employed the most health and safety engineers are as follows:
|State and local government, excluding education and hospitals||10|
|Management, scientific, and technical consulting services||4|
Health and safety engineers typically work in offices. However, they also must spend time at worksites when necessary, which sometimes requires travel.
Most health and safety engineers work full time.
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Health and safety engineers must have a bachelor’s degree, typically in an engineering discipline such as electrical, chemical, mechanical, industrial, or systems engineering. Another acceptable field of study is occupational or industrial hygiene. Employers value practical experience, so cooperative-education engineering programs at universities are valuable as well.
High school students interested in becoming health and safety engineers will benefit from taking high school courses in math and science, such as algebra, trigonometry, calculus, biology, chemistry, and physics.
Entry-level jobs as a health and safety engineer require a bachelor’s degree. Bachelor’s degree programs typically are 4-year programs and include classroom, laboratory, and field studies in applied engineering. Students interested in becoming a health and safety engineer should seek out coursework in occupational safety and health, industrial hygiene, ergonomics, or environmental safety. In addition, programs in mechanical, electrical, and industrial engineering, programs in systems engineering and fire protection engineering constitute good preparation for this occupation. ABET accredits programs in engineering.
Students interested in entering the relatively new field of software safety engineering may pursue a degree in computer science.
Many colleges and universities offer cooperative-education programs, which allow students to gain practical experience while completing their education.
A few colleges and universities offer 5-year accelerated programs through which students graduate with both a bachelor’s and a master’s degree. A master’s degree allows engineers to enter the occupation at a higher level, where they can develop and implement safety systems.
Creativity. Health and safety engineers produce designs showing potential problems and remedies for them. They must be creative to deal with situations unique to a project.
Critical-thinking skills. Health and safety engineers must be able to identify hazards to humans and property in the workplace or in the home before they cause material damage or become a health threat.
Observational skills. Health and safety engineers must observe and learn how operations function so that they can identify risks to people and property. This requires the ability to think in terms of overall processes within an organization. Health and safety engineers can then recommend systemic changes to minimize risks.
Problem-solving skills. In designing solutions for entire organizational operations, health and safety engineers must take into account processes from more than one system at the same time. In addition, they must try to anticipate a range of human reactions to the changes they recommend.
Reading skills. Health and safety engineers must be able to interpret federal and state regulations and their intent so that they can propose proper designs for specific work environments.
Licensure is not required for entry-level positions as a health and safety engineer. 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
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.
Only a few states require health and safety engineers to be licensed. Licensure is generally advised for those opting for a career in systems safety engineering. States requiring licensure usually require continuing education for engineers in order to keep their license. Most states recognize licensure from other states, if the licensing state’s requirements meet or exceed their own licensure requirements.
Health and safety engineers typically have professional certification. Certifications include the following:
Certification is generally needed to advance into management positions.
New health and safety engineers usually work under the supervision of experienced engineers. To move to more difficult projects with greater independence, a graduate degree is generally required, such as a master’s degree in engineering or a Master of Public Health (MPH) degree.
An advanced degree allows an engineer to develop and implement safety programs. Certification as a safety professional or as an industrial hygienist is generally required for entry into management positions. For more information, see the profile on architectural and engineering managers.
The median annual wage for health and safety engineers is $81,830. 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 $48,260, and the highest 10 percent earned more than $126,850.
The median annual wages for health and safety engineers in the top industries in which they worked are as follows:
|State and local government, excluding education and hospitals||76,140|
|Management, scientific, and technical consulting services||74,960|
Most health and safety engineers work full time.
Employment of health and safety engineers is projected to grow 6 percent through 2024, about as fast as the average for all occupations.
Health and safety engineers have long been employed in manufacturing industries to cut costs, save lives, and produce safe consumer products. The same principles are being applied in new areas, such as healthcare. Recent studies have documented the high costs of accidents in hospitals. Accident prevention, particularly with regard to radiation safety, is likely to become increasingly important for the healthcare industry as a way of cutting costs. As a result, strong demand is expected for health and safety engineers in consulting firms. Demand is also expected to be strong in construction.
The emerging field of software safety engineering will likely help drive employment as well. Software must work exactly as intended, especially when it controls, for example, elevators or automobiles, where a glitch in the software could cause serious injury to people and damage to equipment. The need to apply the principles of systems safety engineering to software is likely to grow as more machines and mechanical devices are controlled by software.
|Occupational Title||Employment, 2014||Projected Employment, 2024||Change, 2014-24|
|Health and safety engineers, except mining safety engineers and inspectors||25,200||26,800||6||1,600|