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Career and Education Opportunities for Fire Prevention Research Engineers in Cary, North Carolina

Fire prevention research engineer career and educational opportunities abound in Cary, North Carolina. There are currently 690 working fire prevention research engineers in North Carolina; this should grow by 10% to 750 working fire prevention research engineers in the state by 2016. This is not quite as good as the national trend for fire prevention research engineers, which sees this job pool growing by about 10.3% over the next eight years. In general, fire prevention research engineers research causes of fires, determine fire protection methods, and design or recommend materials or equipment such as structural components or fire-detection equipment to assist organizations in safeguarding life and property against fire, explosion, and related hazards.

Fire prevention research engineers earn approximately $31 hourly or $65,150 annually on average in North Carolina. Nationally they average about $34 per hour or $72,490 annually. Earnings for fire prevention research engineers are not quite as good as earnings in the general category of Engineering in North Carolina and not quite as good as general Engineering category earnings nationally. People working as fire prevention research engineers can fill a number of jobs, such as: fire protection engineer, loss control manager, and design director.

There is one school within twenty-five miles of Cary where you can study to be a fire prevention research engineer, among twenty-seven schools of higher education total in the Cary area. Given that the most common education level for fire prevention research engineers is a Bachelor's degree, you can expect to spend about four years training to become a fire prevention research engineer if you already have a high school diploma.

CAREER DESCRIPTION: Fire Prevention Research Engineer

Fire Prevention Research Engineer video from the State of New Jersey Dept. of Labor and Workforce Development

In general, fire prevention research engineers research causes of fires, determine fire protection methods, and design or recommend materials or equipment such as structural components or fire-detection equipment to assist organizations in safeguarding life and property against fire, explosion, and related hazards.

Fire prevention research engineers attend workshops or conferences to present or obtain data regarding fire prevention and protection. They also layout fire detection equipment and fire extinguishing devices and systems. Equally important, fire prevention research engineers have to inspect buildings or building designs to establish fire protection system requirements and potential problems in areas such as water supplies and construction materials. They are often called upon to advise architects and other construction personnel on fire prevention equipment and techniques, and on fire code and standard interpretation and compliance. They are expected to ready and write reports detailing specific fire prevention and protection issues such as work performed and proposed review schedules. Finally, fire prevention research engineers design plans for the prevention of destruction by fire and water.

Every day, fire prevention research engineers are expected to be able to articulate ideas and problems. They need to think through problems and come up with general rules. It is also important that they listen to and understand others in meetings.

It is important for fire prevention research engineers to design training materials and conduct training sessions on fire protection. They are often called upon to study the relationships between ignition sources and materials to establish how fires start. They also decide on causes of fires and ways in which they could have been prevented. They are sometimes expected to evaluate fire department performance and the laws and regulations affecting fire prevention or fire safety. Somewhat less frequently, fire prevention research engineers are also expected to evaluate fire department performance and the laws and regulations affecting fire prevention or fire safety.

They also have to be able to conduct research on fire retardants and the fire safety of materials and devices And finally, they sometimes have to conduct research on fire retardants and the fire safety of materials and devices.

Like many other jobs, fire prevention research engineers must have exceptional integrity and be thorough and dependable.

Similar jobs with educational opportunities in Cary include:

  • Aerodynamics Engineer. Perform a variety of engineering work in designing, constructing, and testing aircraft, missiles, and spacecraft. May conduct basic and applied research to evaluate adaptability of materials and equipment to aircraft design and manufacture. May recommend improvements in testing equipment and techniques.
  • Agricultural Engineer. Apply knowledge of engineering technology and biological science to agricultural problems concerned with power and machinery, electrification, structures, soil and water conservation, and processing of agricultural products.
  • Biomedical Engineer. Apply knowledge of engineering, biology, and biomechanical principles to the design, development, and evaluation of biological and health systems and products, such as artificial organs, prostheses, instrumentation, medical information systems, and health management and care delivery systems.
  • Chemical Engineer. Design chemical plant equipment and devise processes for manufacturing chemicals and products, such as gasoline, synthetic rubber, and pulp, by applying principles and technology of chemistry, physics, and engineering.
  • Civil Engineer. Perform engineering duties in planning, designing, and overseeing construction and maintenance of building structures, and facilities, such as roads, railroads, airports, bridges, harbors, channels, dams, irrigation projects, pipelines, power plants, water and sewage systems, and waste disposal units. Includes architectural, structural, and geo-technical engineers.
  • Computer Engineer. Research, design, and test computer or computer-related equipment for commercial, industrial, or scientific use. May supervise the manufacturing and installation of computer or computer-related equipment and components.
  • Electrical Engineer. Design, develop, or supervise the manufacturing and installation of electrical equipment, components, or systems for commercial, industrial, or scientific use.
  • Electronics Engineer. Research, design, and test electronic components and systems for commercial, industrial, or scientific use utilizing knowledge of electronic theory and materials properties. Design electronic circuits and components for use in fields such as telecommunications, aerospace guidance and propulsion control, acoustics, or instruments and controls.
  • Health, Safety, and Environment Manager. Plan, implement, and coordinate safety programs, requiring application of engineering principles and technology, to prevent or correct unsafe environmental working conditions.
  • Industrial Engineer. Design, develop, and evaluate integrated systems for managing industrial production processes including human work factors, quality control, inventory control, logistics and material flow, cost analysis, and production coordination.
  • Manufacturing Engineer. Apply knowledge of materials and engineering theory and methods to design, integrate, and improve manufacturing systems or related processes. May work with commercial or industrial designers to refine product designs to increase producibility and decrease costs.
  • Materials Engineer. Evaluate materials and develop machinery and processes to manufacture materials for use in products that must meet specialized design and performance specifications. Develop new uses for known materials. Includes those working with composite materials or specializing in one type of material, such as graphite, metal and metal alloys, ceramics and glass, plastics and polymers, and naturally occurring materials.
  • Mechanical Engineer. Perform engineering duties in planning and designing tools, engines, and other mechanically functioning equipment. Oversee installation, operation, and repair of such equipment as centralized heat, gas, and steam systems.
  • Nuclear Engineer. Conduct research on nuclear engineering problems or apply principles and theory of nuclear science to problems concerned with release, control, and utilization of nuclear energy and nuclear waste disposal.
  • Product Safety Engineer. Develop and conduct tests to evaluate product safety levels and recommend measures to reduce or eliminate hazards.

EDUCATIONAL OPPORTUNITIES: Fire Prevention Research Engineer Training

North Carolina State University at Raleigh - Raleigh, NC

North Carolina State University at Raleigh, 2101 Hillsborough Street, Raleigh, NC 27695-7001. North Carolina State University at Raleigh is a large university located in Raleigh, North Carolina. It is a public school with primarily 4-year or above programs. It has 32,871 students and an admission rate of 60%. North Carolina State University at Raleigh has a bachelor's degree program in Environmental/Environmental Health Engineering which graduated twelve students in 2008.

CERTIFICATIONS

Risk Management for Public Entities: Understand the unique nature of the public sector.

For more information, see the American Institute for CPCU and Insurance Institute of America website.

Certified Energy Manager: Since its inception in 1981, the Certified Energy Manager (CEM®) credential has become widely accepted and used as a measure of professional accomplishment within the energy management field.

For more information, see the Association of Energy Engineers website.

Certified Water Technologist: The Certified Water Technologist (CWT) program represents the highest professional credential in the industrial and commercial water treatment field.

For more information, see the Association of Water Technologies website.

Certified Professional Ergonomist: The BCPE was established to provide a formal process for recognizing practitioners of human factors/ergonomics.

For more information, see the Board of Certification in Professional Ergonomics website.

Certified Environmental Health Technician: CEHT is for individuals who are interested in field intensive environmental health activities--such as testing, sampling, and inspections, and who are required to provide information on safe environmental health practices and to eliminate environmental health hazards.

For more information, see the National Environmental Health Association website.

Inspection and Testing of Water-Based Systems: This certification program was designed for engineering technicians in the automatic fire sprinkler industry who are engaged in the physical and mechanical aspects of inspection, testing, and maintenance of water-based systems including foam and foam-water systems.

For more information, see the National Institute for Certification in Engineering Technologies website.

Registered Radiation Protection Technologist: A Radiation Protection Technologist is a person engaged in providing radiation protection to the radiation worker, the general public, and the environment from the effects of ionizing radiation.

For more information, see the National Registry of Radiation Protection Technologists website.

Municipal Solid Waste Management Systems - Technical Associate: By earning this certification, you will demonstrate knowledge and proficiency that only the top in a field can show.

For more information, see the Solid Waste Association of North America website.

Bioreactor Landfill - Technical Associate: By earning this certification, you will demonstrate knowledge and proficiency in this new technology.

For more information, see the Solid Waste Association of North America website.

LOCATION INFORMATION: Cary, North Carolina

Cary, North Carolina
Cary, North Carolina photo by Erich_Fabricius

Cary is situated in Wake County, North Carolina. It has a population of over 129,545, which has grown by 37.0% in the past ten years. The cost of living index in Cary, 86, is well below the national average. New single-family homes in Cary are priced at $204,400 on average, which is well above the state average. In 2008, 1,313 new homes were built in Cary, down from 2,326 the previous year.

The three big industries for women in Cary are professional, scientific, and technical services, educational services, and health care. For men, it is professional, scientific, and technical services, computer and electronic products, and construction. The average commute to work is about 23 minutes. More than 60.7% of Cary residents have a bachelor's degree, which is higher than the state average. The percentage of residents with a graduate degree, 23.0%, is higher than the state average.

The unemployment rate in Cary is 6.2%, which is less than North Carolina's average of 10.6%.

The percentage of Cary residents that are affiliated with a religious congregation, 43.8%, is less than both the national and state average. The largest religious groups are the Southern Baptist Convention, the Catholic Church and the United Methodist Church.

Cary is home to Hemlock Bluffs State Natural Area and Regency Park. Visitors to Cary can choose from Hampton Inn Cary, Embassy Suites Hotel Raleigh-Durham and Hampton Inn & Suites for temporary stays in the area.