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Examine engineering principles

Description

Analyse the principles that need to be considered for engineering designs and projects such as functionality, replicability, costs and other principles.

Alternative labels

analyse enineering principles
research engineering principles
examine principles of engineering
explore engineering principles
examine engineering fundamentals
study engineering principles
investigate engineering principles
look into engineering principles

Skill type

skill/competence

Skill reusability level

cross-sector

Relationships with occupations

Essential skill

Examine engineering principles is an essential skill of the following occupations:

Energy systems engineer: Energy systems engineers supervise the energy conversion and distribution processes. They analyse the energy supply and consumption efficiency developing new ways to improve the existing processes, taking into account both the technical and the financial aspects. They also study the environmental impact of energy usage and combine the production of renewable energy in the current power systems.
Solar energy engineer: Solar energy engineers design systems which generate electrical energy from sunlight, such as photovoltaic systems. They design and construct systems which optimise the energy output from solar power, and the sustainability of the production process of solar systems.
Military engineer: Military engineers perform technical and scientific functions in the military, such as the development of concepts for military technical equipment, support of the manufacturing of military equipment, and technical research, maintenance, and quality assurance.
Nanoengineer: Nanoengineers combine the scientific knowledge of atomic and molecular particles with engineering principles for applications in a varied array of fields. They apply findings in chemistry, biology, and materials engineering, etc. They use technological knowledge for the improvement of existing applications or the creation of micro objects.
Aerodynamics engineer: Aerodynamics engineers perform aerodynamics analysis to make sure the designs of transport equipment meet aerodynamics and performance requirements. They contribute to designing engine and engine components, and issue technical reports for the engineering staff and customers. They coordinate with other engineering departments to check that designs perform as specified. Aerodynamics engineers conduct research to assess adaptability of equipment and materials. They also analyse proposals to evaluate production time and feasibility.
Hydropower engineer: Hydropower engineers research, design and plan the building of facilities that generate electricity from the movement of water. They search optimal locations, conduct trials and try different materials to achieve the best result. Hydropower engineers develop strategies for more efficient energy production and analyse environmental consequences.
Pharmaceutical engineer: Pharmaceutical engineers design and develop technologies used in pharmaceutical research and drugs manufacture, advising the pharmaceutical manufacturing plants to maintain and operate those technologies and ensuring the customers` and workers` safety requirements are met. They may also be involved in the conception and design of pharmaceutical manufacturing plants and research centers.
Biochemical engineer: Biochemical engineers research on the field of life science striving for new discoveries. They convert those findings into chemical solutions that can improve the wellbeing of society such as vaccines, tissue repair, crops improvement and green technologies advances such as cleaner fuels from natural resources.

Optional skill

Examine engineering principles is optional for these occupations. This means knowing this skill may be an asset for career advancement if you are in one of these occupations.

Renewable energy engineer: Renewable energy engineers research alternative sources of energy in order to design systems for renewable energy production. They strive to optimise energy production from renewable sources, and reduce production expenses and environmental strain. They design systems which focus on energy sustainability and efficiency.
Automotive designer: Automotive designers create model designs in 2D or 3D and prepare isometric drawings and graphics. They also conduct research collecting data about (new) materials, market trends and production processes.
Nitrator operator: Nitrator operators monitor and control equipment that processes chemical substances to produce explosives. They are responsible for the product storage in tanks.
Heating, ventilation, air conditioning and refrigeration engineering technician: Heating, ventilation, air conditioning and refrigeration engineering technicians aid in the design of devices which provide heating, ventilation, air conditioning and possibly refrigeration in buildings. They ensure the equipment complies with environmental standards. They handle hazardous materials used in the systems, and ensure safety precautions are in place.
Drain technician: Drain technicians install and maintain drainage equipment used in sewer systems, such as pipes and valves. They analyse the design and ensure the proper installation of the drainage system, and perform maintenance and repair duties.
Industrial engineer: Industrial engineers design a vast array of production systems aiming to present efficient and effective solutions. They integrate a varied number of variables such as workers, technology, ergonomics, production flows, and product specifications for the design and implementation of production systems. They can specify and design for microsystems as well.
Mechanical engineer: Mechanical engineers research, plan and design mechanical products and systems and supervise the fabrication, operation, application, installation and repair of systems and products. They research and analyse data.
Synthetic materials engineer: Synthetic materials engineers develop new synthetic materials processes or improve existing ones. They design and construct installations and machines for the production of synthetic materials and examine samples of raw materials in order to ensure quality.
Electromechanical engineer: Electromechanical engineers design and develop equipment and machinery that use both electrical and mechanical technology. They make draughts and prepare documents detailing the material requisitions, the assembly process and other technical specifications. Electromechanical engineers also test and evaluate the prototypes. They oversee the manufacturing process.
Robotics engineering technician: Robotics engineering technicians collaborate with engineers in the development of robotic devices and applications through a combination of mechanical engineering, electronic engineering, and computer engineering. Robotics engineering technicians build, test, install and calibrate robotic equipment.
Electrical engineer: Electrical engineers design and develop electrical systems, electrical equipment, components, motors, and equipment with the feature of energy transmission. They engage in large scale projects such as the design and maintenance of power stations, and the distribution of power to smaller applications such as household appliances.
Mechatronics engineer: Mechatronics engineers design and develop intelligent systems, such as robotic devices, smart home appliances, and aeroplanes, through combining technologies from mechanical, electronic, computer, and control engineering. They create blueprints or design documents for parts, assemblies or finished products using software programs, and also oversee and manage projects.
Acoustical engineer: Acoustical engineers study and apply the science of sound to various applications. They work in a wide range of areas including the consultation of the acoustics and elements affecting the transmission of sound in spaces for performances or recording activities. They can also consult on the levels of noise contamination for those activities that require compliance with standards on that matter.
Energy engineer: Energy engineers design new, efficient and clean ways to produce, transform, and distribute energy to improve environmental sustainability and energy efficiency. They extract energy through natural resources, such as oil or gas, or renewable and sustainable sources, such as wind or solar power. 
Automation engineer: Automation engineers research, design, and develop applications and systems for the automation of the production process. They implement technology and reduce, whenever applicable, human input to reach the full potential of industrial robotics. Automation engineers oversee the process and ensure all systems run safely and smoothly.
Civil engineer: Civil engineers design, plan, and develop technical and engineering specifications for infrastructure and construction projects. They apply engineering knowledge in a vast array of projects, from the construction of infrastructure for transportation, housing projects, and luxury buildings, to the construction of natural sites. They design plans that seek to optimise materials and integrate specifications and resource allocation within the time constraints.
Chemical engineer: Chemical engineers design and develop large-scale chemical and physical production processes and are involved in the entire industrial process required for transforming raw materials into products.
Mechatronics engineering technician: Mechatronics engineering technicians collaborate with engineers in the development of mechatronic devices and applications through a combination of mechanical engineering, electronic engineering, and computer engineering. They build, test, install, and calibrate mechatronics and solve technical problems.
Bioengineer: Bioengineers combine state of the art findings in the field of biology with engineering logics in order to develop solutions aimed at improving the well-being of society. They can develop improvement systems for natural resource conservation, agriculture, food production, genetic modification, and economic use.

 


 

References

  1. Examine engineering principles – ESCO

 

Last updated on September 20, 2022