Green Job Series: Careers in Green Construction [Second Installment]

This installment of The Daily Leap's green job series describes some of the most common green design jobs with a focus on commercial and office sites.

Design Occupations

Designers of green buildings work together to make their projects as environmentally friendly as possible. These workers are required to evaluate both standard construction issues, such as the number of load-bearing columns required in a structure, and new ones, such as a building's orientation to the sun.

To make buildings that appeal to the masses, designers have to strike the correct balance between being attractive and being environmentally friendly.

Job Duties

The work of architects is critical to determining how green a building is. For example, architects designing a green building might devise ways to maximize the building's energy efficiency. To accomplish this, they might apply daylighting principles and design a building with large banks of windows that face the sun. Or because buildings consume significantly more energy as they grow in size, the architects might design a building with little extra space.

The knowledge of civil engineers possess allows them to be involved in just about every part of green building design. They might work on issues as diverse as erosion control and traffic flow patterns. By adopting green practices in every piece of a building, civil engineers can ensure that the final product is environmentally friendly.

Electrical engineers frequently design the lighting systems of buildings. The importance of energy efficiency in green buildings places a premium on well-trained electrical engineers. For example, electrical engineers might work closely with architects to plan areas of a building where daylighting is the primary source of light. They may use sensors that automatically trigger traditional lighting only when the daylight is insufficient, thereby helping to reduce energy usage.

Landscape architects who work on green building sites apply their expertise to plan attractive scenery while also conserving water. To do this, they practice xeriscaping, or using local plants that require less water. Landscape architects working on green buildings also might plan drainage channels to diffuse rainwater throughout planting beds.

When designing green buildings, mechanical engineers are consulted on any proposed equipment. Mechanical engineers specializing in air-conditioning systems, for example, would be able to provide valuable input on the strengths and weaknesses of different setups. They also might install systems to record and measure energy savings.

Urban planners specializing in green development work with local authorities to develop zoning areas in which new buildings are required to meet standards of environmental efficiency. They also help guide infrastructure additions, such as new roads, to benefit the maximum number of people possible. When determining the ideal location for a green building, urban planners work closely with the rest of the building design staff.

Some planners might help make decisions about protecting ecologically sensitive regions. They are involved in environmental issues, including pollution control, wetland preservation, forest conservation, and the location of new landfills.

Education and Training

Architects, engineers, and urban planners who work in green building design usually have at least a bachelor's degree in a relevant discipline. However, many jobs require more education, such as a master's degree or professional degree, and many architects, engineers, and urban planners who work in green construction have the LEED Accredited Professional (AP) credential.

Architects need to complete the requirements for either a bachelor of architecture—frequently a 5-year program—or master of architecture degree. A master's degree in architecture usually takes 2 or 3 years and requires the previous completion of a bachelor's degree (bachelor of arts or bachelor of science). Licensure is a requirement for all architects working in the United States. Becoming licensed usually requires earning a professional degree from an accredited school, completing a 3-year internship, and passing a national exam.

Engineers typically are licensed and are expected to complete continuing education to keep current with rapidly changing technology. Most companies prefer to hire engineers with 3–5 years of experience in their respective fields and who have knowledge of commonly used building techniques. Entry-level engineers may be hired as interns or junior team members and work under the close supervision of more senior engineers. As they gain experience and knowledge, they are assigned more difficult tasks and given greater independence.

Earnings

The U.S. Bureau of Labor Statistics (BLS) does not currently have wage data specific to the green construction industry. However, BLS does have wage data for the nonresidential building construction industry group, which includes construction of commercial and office buildings. The table shows BLS data for design occupations in this industry group for May 2010. The wages shown are median annual wages for the United States as a whole; wages vary by employer and location.

Occupation	Median annual wage
Architects, except landscape and naval	$77,210
Civil engineers	$76,120
Electrical engineers	$84,350
Landscape architects	$62,090
Mechanical engineers	$80,400
Urban and regional planners	$63,040

For more detailed information on design occupations in the green construction industry, follow the Occupational Outlook Handbook link.

Next week's green construction industry series installment: Specialty Trade Occupations.

Green Jobs Series: Careers in Electric Vehicles [Installment Four]

All vehicles need to be occasionally maintained and repaired. However, special skills and knowledge are required of automotive service technicians and mechanics to work on electric vehicles. This installment of The Daily Leap's green job series describes some of the most common jobs in electric vehicle maintenance.

Occupations in Electric Vehicle Maintenance

Much of the routine maintenance and repair work can be done by normal repair workers, but the electrical systems and drivetrain will often need skilled workers familiar with electric vehicles. Repairing or installing electric vehicle batteries requires workers who are trained to work with specific types of batteries. Batteries need to be replaced every few years depending on usage and type of battery.

Job Duties

Automotive service technicians and mechanics inspect, maintain, and repair automobiles that run on gasoline, electricity, or a combination of the two. They plan and perform basic car maintenance and vehicle repairs. The job of automotive service technicians and mechanics has evolved from simple mechanical repairs to high-level technology-related work. Integrated electronic systems and complex computers regulate vehicles and their performance on the road. Fixing problems with these systems requires workers to use computerized shop equipment and work with electronic components as well as traditional hand tools.

Education and Training

Automotive service technicians and mechanics are increasingly required to have formal training because of the rapidly growing sophistication of automotive technology. Training typically begins in high school or a postsecondary vocational school or community college. Certification from the National Institute for Automotive Service Excellence (ASE) is usually required to work for larger repair shops or at dealerships. Formal education programs can last from a few weeks of on-the-job training to a 2-year associate’s degree. On-the-job training is necessary before a worker can begin to work independently. It typically takes 2 to 5 years of experience to become a fully qualified automotive service technician through ASE.

Electric vehicles use new and unique technologies, so technicians generally are trained to work on a particular type of vehicle and often specialize in vehicles made by a single manufacturer. Auto manufacturers typically provide this specialized training to technicians and mechanics. Workers are usually sent by their employers to formal training courses to gain certification on a particular vehicle type.

Programs, such as the National Alternative Fuels Training Consortium (NAFTC), have been developed to train workers on a wide variety of skills needed to work on electric or alternative fuel vehicles. NAFTC provides curricula and training to secondary and postsecondary students studying automotive technology as well as automotive technicians who are already working in the field.

Earnings

The U.S. Bureau of Labor Statistics does not have wage data specific to the electric vehicle industry. The median annual wage for automotive service technicians and mechanics in the automotive repair and maintenance industry group was $33,010 for May 2010. The wage is for the United States as a whole; wages vary by employer and location.

For more detailed information on vehicle maintenance occupations in the electric vehicle industry, follow the Occupational Outlook Handbook link.

Tomorrow’s final electric vehicle industry series installment: Occupations in Infrastructure Development

Green Jobs Series: Careers in Electric Vehicles [Installment Two]

Workers who design and develop electric automobile technology include engineers, engineering technicians, and drafters; software developers; and industrial designers. This installment of The Daily Leap's green job series describes some of the most common jobs in design and development.

Occupations in Design and Development

Design and develop work is the link between scientific research and commercial applications. It takes place in offices, laboratories, or industrial plants, where teams of engineers, designers, scientists, and industrial production managers collaborate to create new processes or devices for the manufacture of electric vehicles—or to improve existing ones.

Job Duties

Chemical engineers apply the principles of chemistry to design or improve equipment or to devise processes for manufacturing chemicals and products. Because the batteries of electric vehicles store power through chemical processes, chemical engineers are responsible for developing new battery designs and improving current battery technologies. They are also vital in designing equipment and processes for large-scale manufacturing and in planning and testing the methods of battery manufacturing.

Electrical engineers design, develop, test, and supervise the manufacture of electrical components. They are responsible for designing the electrical circuitry that allows a gas engine to charge the battery and distribute the electricity from the battery to the electric motor. Electrical engineers also might work on the heating and air-conditioning systems, vehicle lighting, and visual displays.

Electronics engineers design, develop, and test electronic components and systems for vehicles. These engineers are primarily focused on the control systems and additional electronic components for the vehicle.

Industrial engineers determine the most effective ways to use the basic factors of production—people, machines, materials, information, and energy—to manufacture vehicles. Because many electric vehicles require original manufacturing plans, industrial engineers design innovative manufacturing processes and retool plants that formerly made different models of cars.

Materials engineers are involved in the development, processing, and testing of materials used in electric vehicles. Materials engineers may also incorporate environmentally friendly materials that are derived from plant-based materials or recycled materials.

Mechanical engineers design, develop, and test the tools, engines, machines, and other mechanical devices in electric vehicles. These devices may be components of electric vehicles, or machines that are used in the manufacture or repair of these vehicles. These engineers may focus on engines, electric motors, or other mechanical devices, such as transmissions, drivetrains, or steering systems.

Mechanical engineering technicians assist engineers with solving technical problems in research, development, manufacturing, construction, inspection, and maintenance. They may also help engineers or scientists to make prototypes of newly designed equipment or assist with computer-aided design and drafting (CADD) equipment.

Mechanical drafters prepare detailed drawings, or visual guidelines, that show how to assemble machinery and mechanical devices. Most drafters use CADD systems to prepare drawings.

Software developers design and create software that controls the on-board computers in hybrid and electric vehicles, which produce and distribute the proper amount of electricity or gasoline to power the vehicle in given conditions, as well as when to use the engine to recharge the battery.

Commercial and industrial designers are responsible for the style, function, quality, and safety of vehicles. The designers prepare sketches or diagrams, usually with the aid of computers, and work with engineers and other designers to improve a design.

Education and Training

Engineers typically enter the electric vehicle industry with a bachelor’s degree or higher in engineering. However, some positions require previous experience or an advanced degree. Entry-level engineers may begin their career as an assistant to a more senior engineer until they develop the skills needed to work independently. Engineers are also expected to complete continuing education courses to keep up with rapidly changing technology.

Engineers are usually required to be certified in specific systems and technologies, depending on the systems used by a particular manufacturer. Licensure as a professional engineer (PE) is highly desired by employers and is often required for anything higher than an entry-level position.

Engineering technicians and drafters usually have an associate’s degree or certification from a community college or a technical school. Technicians and drafters participate in on-the-job training and are closely supervised by engineers.

Software developers typically need at least a bachelor’s degree in computer science or a related discipline, combined with experience in computer programming and software design.

Commercial and industrial designers also typically have at least a bachelor’s degree in engineering or industrial design, and they usually receive some on-the-job training.

Earnings

The U.S. Bureau of Labor Statistics does not have wage data specific to the electric vehicle industry. The table shows wages for selected engineers, mechanical engineering technicians, drafters, software developers, and commercial and industrial designers in the transportation equipment manufacturing industry group for May 2010. The wages shown are median annual wages for the United States as a whole; wages vary by employer and location.

Occupation	Median annual wage
Chemical engineers	$97,480
Electrical engineers	$87,580
Electronics engineers, except computer	$100,450
Industrial engineers	$77,160
Materials engineers	$89,000
Mechanical engineers	$81,290
Mechanical engineering technicians	$52,950
Mechanical drafters	$53,840
Software developers, applications	$94,680
Commercial and industrial designers	$67,790

For more detailed information on design and development occupations in the electric vehicle industry, follow the Occupational Outlook Handbook link.

Thursday's electric vehicle industry series installment: Occupations in Manufacturing