- Plan layout of electric power generating plants or distribution lines or stations.
Occupations with related tasks Save Table: XLSX CSV
- Develop active control algorithms, electronics, software, electromechanical, or electrohydraulic systems for wind turbines.
- Design underground or overhead wind farm collector systems.
- Create or maintain wind farm layouts, schematics, or other visual documentation for wind farms.
- Recommend process or infrastructure changes to improve wind turbine performance, reduce operational costs, or comply with regulations.
- Create models to optimize the layout of wind farm access roads, crane pads, crane paths, collection systems, substations, switchyards, or transmission lines.
- Provide engineering technical support to designers of prototype wind turbines.
- Investigate experimental wind turbines or wind turbine technologies for properties such as aerodynamics, production, noise, and load.
- Develop specifications for wind technology components, such as gearboxes, blades, generators, frequency converters, or pad transformers.
- Test wind turbine components, using mechanical or electronic testing equipment.
- Oversee the work activities of wind farm consultants or subcontractors.
- Test wind turbine equipment to determine effects of stress or fatigue.
- Monitor wind farm construction to ensure compliance with regulatory standards or environmental requirements.
- Direct balance of plant (BOP) construction, generator installation, testing, commissioning, or supervisory control and data acquisition (SCADA) to ensure compliance with specifications.
- Analyze operation of wind farms or wind farm components to determine reliability, performance, and compliance with specifications.
- Perform root cause analysis on wind turbine tower component failures.
- Write reports to document wind farm collector system test results.
- Develop active control algorithms, electronics, software, electromechanical, or electrohydraulic systems for wind turbines.
- Design underground or overhead wind farm collector systems.
- Design or develop energy products using nanomaterials or nanoprocesses, such as micro-nano machining.
- Devise microelectromechanical systems (MEMS) production methods, such as integrated circuit fabrication, lithographic electroform modeling, or micromachining.
- Develop or implement microelectromechanical systems (MEMS) processing tools, fixtures, gages, dies, molds, or trays.
- Create schematics and physical layouts of integrated microelectromechanical systems (MEMS) components or packaged assemblies consistent with process, functional, or package constraints.
- Investigate characteristics such as cost, performance, or process capability of potential microelectromechanical systems (MEMS) device designs, using simulation or modeling software.
- Create or maintain formal engineering documents, such as schematics, bills of materials, components or materials specifications, or packaging requirements.
- Conduct analyses addressing issues such as failure, reliability, or yield improvement.
- Plan or schedule engineering research or development projects involving microelectromechanical systems (MEMS) technology.
- Propose product designs involving microelectromechanical systems (MEMS) technology, considering market data or customer requirements.
- Develop formal documentation for microelectromechanical systems (MEMS) devices, including quality assurance guidance, quality control protocols, process control checklists, data collection, or reporting.
- Communicate operating characteristics or performance experience to other engineers or designers for training or new product development purposes.
- Evaluate materials, fabrication methods, joining methods, surface treatments, or packaging to ensure acceptable processing, performance, cost, sustainability, or availability.
- Refine final microelectromechanical systems (MEMS) design to optimize design for target dimensions, physical tolerances, or processing constraints.
- Conduct harsh environmental testing, accelerated aging, device characterization, or field trials to validate devices, using inspection tools, testing protocols, peripheral instrumentation, or modeling and simulation software.
- Develop or file intellectual property and patent disclosure or application documents related to microelectromechanical systems (MEMS) devices, products, or systems.
- Conduct or oversee the conduct of prototype development or microfabrication activities to ensure compliance to specifications and promote effective production processes.
- Conduct experimental or virtual studies to investigate characteristics and processing principles of potential microelectromechanical systems (MEMS) technology.
- Develop or validate specialized materials characterization procedures, such as thermal withstand, fatigue, notch sensitivity, abrasion, or hardness tests.
- Validate fabrication processes for microelectromechanical systems (MEMS), using statistical process control implementation, virtual process simulations, data mining, or life testing.
- Demonstrate miniaturized systems that contain components, such as microsensors, microactuators, or integrated electronic circuits, fabricated on silicon or silicon carbide wafers.
- Manage new product introduction projects to ensure effective deployment of microelectromechanical systems (MEMS) devices or applications.
- Conduct acceptance tests, vendor-qualification protocols, surveys, audits, corrective-action reviews, or performance monitoring of incoming materials or components to ensure conformance to specifications.
- Develop customer documentation, such as performance specifications, training manuals, or operating instructions.
- Identify, procure, or develop test equipment, instrumentation, or facilities for characterization of microelectromechanical systems (MEMS) applications.
- Develop or validate product-specific test protocols, acceptance thresholds, or inspection tools for quality control testing or performance measurement.
- Oversee operation of microelectromechanical systems (MEMS) fabrication or assembly equipment, such as handling, singulation, assembly, wire-bonding, soldering, or package sealing.
- Consider environmental issues when proposing product designs involving microelectromechanical systems (MEMS) technology.
- Design or develop industrial air quality microsystems, such as carbon dioxide fixing devices.
- Design or develop sensors to reduce the energy or resource requirements to operate appliances, such as washing machines or dishwashing machines.
- Design sensors or switches that require little or no power to operate for environmental monitoring or industrial metering applications.
- Research or develop emerging microelectromechanical (MEMS) systems to convert nontraditional energy sources into power, such as ambient energy harvesters that convert environmental vibrations into usable energy.
- Design or develop energy products using nanomaterials or nanoprocesses, such as micro-nano machining.
- Devise microelectromechanical systems (MEMS) production methods, such as integrated circuit fabrication, lithographic electroform modeling, or micromachining.
- Develop or implement microelectromechanical systems (MEMS) processing tools, fixtures, gages, dies, molds, or trays.
- Design solar energy photonics or other materials or devices to generate energy.
- Develop photonics sensing or manufacturing technologies to improve the efficiency of manufacturing or related processes.
- Analyze system performance or operational requirements.
- Develop optical or imaging systems, such as optical imaging products, optical components, image processes, signal process technologies, or optical systems.
- Develop or test photonic prototypes or models.
- Design, integrate, or test photonics systems or components.
- Assist in the transition of photonic prototypes to production.
- Read current literature, talk with colleagues, continue education, or participate in professional organizations or conferences to keep abreast of developments in the field.
- Write reports or proposals related to photonics research or development projects.
- Conduct testing to determine functionality or optimization or to establish limits of photonics systems or components.
- Determine applications of photonics appropriate to meet product objectives or features.
- Conduct research on new photonics technologies.
- Design electro-optical sensing or imaging systems.
- Document photonics system or component design processes, including objectives, issues, or outcomes.
- Design photonics products, such as light sources, displays, or photovoltaics, to achieve increased energy efficiency.
- Train operators, engineers, or other personnel.
- Analyze, fabricate, or test fiber-optic links.
- Design gas lasers, solid state lasers, infrared, or other light emitting or light sensitive devices.
- Create or maintain photonic design histories.
- Oversee or provide expertise on manufacturing, assembly, or fabrication processes.
- Determine commercial, industrial, scientific, or other uses for electro-optical applications or devices.
- Design or redesign optical fibers to minimize energy loss.
- Develop laser-processed designs, such as laser-cut medical devices.
- Design or develop new crystals for photonics applications.
- Design laser machining equipment for purposes such as high-speed ablation.
- Select, purchase, set up, operate, or troubleshoot state-of-the-art laser cutting equipment.
- Design solar energy photonics or other materials or devices to generate energy.
- Develop photonics sensing or manufacturing technologies to improve the efficiency of manufacturing or related processes.
- Design well pumping systems.
- Create and lay out designs for drill and blast patterns.
- Operate controls to stabilize machines and to position and align drills.
- Start, stop, and control drilling speed of machines and insertion of casings into holes.
- Regulate air pressure, rotary speed, and downward pressure, according to the type of rock or concrete being drilled.
- Select and attach drill bits and drill rods, adding more rods as hole depths increase, and changing drill bits as needed.
- Drive or guide truck-mounted equipment into position, level and stabilize rigs, and extend telescoping derricks.
- Operate machines to flush earth cuttings or to blow dust from holes.
- Verify depths and alignments of boring positions.
- Perform routine maintenance and upgrade work on machines and equipment, such as replacing parts, building up drill bits, and lubricating machinery.
- Select the appropriate drill for the job, using knowledge of rock or soil conditions.
- Document geological formations encountered during work.
- Drive trucks, tractors, or truck-mounted drills to and from work sites.
- Assemble and position machines, augers, casing pipes, and other equipment, using hand and power tools.
- Record drilling progress and geological data.
- Retrieve lost equipment from bore holes, using retrieval tools and equipment.
- Fabricate well casings.
- Pour water into wells, or pump water or slush into wells to cool drill bits and to remove drillings.
- Place and install screens, casings, pumps, and other well fixtures to develop wells.
- Operate water-well drilling rigs and other equipment to drill, bore, and dig for water wells or for environmental assessment purposes.
- Review client requirements and proposed locations for drilling operations to determine feasibility, and to determine cost estimates.
- Drill or bore holes in rock for blasting, grouting, anchoring, or building foundations.
- Perform pumping tests to assess well performance.
- Disinfect, reconstruct, and redevelop contaminated wells and water pumping systems, and clean and disinfect new wells in preparation for use.
- Signal crane operators to move equipment.
- Withdraw drill rods from holes, and extract core samples.
- Inspect core samples to determine nature of strata, or take samples to laboratories for analysis.
- Retract augers to force discharge dirt from holes.
- Observe electronic graph recorders and flow meters that monitor the water used to flush debris from holes.
- Monitor drilling operations, by checking gauges and listening to equipment to assess drilling conditions and to determine the need to adjust drilling or alter equipment.
- Design well pumping systems.
- Create and lay out designs for drill and blast patterns.
- Design or develop nuclear equipment, such as reactor cores, radiation shielding, or associated instrumentation or control mechanisms.
- Initiate corrective actions or order plant shutdowns in emergency situations.
- Monitor nuclear facility operations to identify any design, construction, or operation practices that violate safety regulations and laws or could jeopardize safe operations.
- Examine accidents to obtain data for use in design of preventive measures.
- Direct operating or maintenance activities of nuclear power plants to ensure efficiency and conformity to safety standards.
- Recommend preventive measures to be taken in the handling of nuclear technology, based on data obtained from operations monitoring or from evaluation of test results.
- Write operational instructions to be used in nuclear plant operation or nuclear fuel or waste handling and disposal.
- Conduct environmental studies on topics such as nuclear power generation, nuclear waste disposal, or nuclear weapon deployment.
- Direct environmental compliance activities associated with nuclear plant operations or maintenance.
- Prepare environmental impact statements, reports, or presentations for regulatory or other agencies.
- Prepare technical reports of findings or recommendations, based on synthesized analyses of test results.
- Develop or contribute to the development of plans to remediate or restore environments affected by nuclear radiation, such as waste disposal sites.
- Conduct tests of nuclear fuel behavior and cycles or performance of nuclear machinery and equipment to optimize performance of existing plants.
- Design or oversee construction or operation of nuclear reactors, power plants, or nuclear fuels reprocessing and reclamation systems.
- Design or direct nuclear research projects to develop, test, modify, or discover new uses for theoretical models.
- Design fuel cycle models or processes to reduce the quantity of radioactive waste generated from nuclear activities.
- Consult with other scientists to determine parameters of experimentation or suitability of analytical models.
- Perform experiments that will provide information about acceptable methods of nuclear material usage, nuclear fuel reclamation, or waste disposal.
- Discuss construction project proposals with interested parties, such as vendors, contractors, or nuclear facility review boards.
- Keep abreast of developments and changes in the nuclear field by reading technical journals or by independent study and research.
- Design or develop nuclear equipment, such as reactor cores, radiation shielding, or associated instrumentation or control mechanisms.