- Engineer production processes for specific nanotechnology applications, such as electroplating, nanofabrication, or epoxy.
Occupations with related tasks Save Table: XLSX CSV
- Assist engineers in developing, building, or testing prototypes or new products, processes, or procedures.
- Develop or implement programs to address problems related to production, materials, safety, or quality.
- Develop production, inventory, or quality assurance programs.
- Test selected products at specified stages in the production process for performance characteristics or adherence to specifications.
- Compile and evaluate statistical data to determine and maintain quality and reliability of products.
- Study time, motion, methods, or speed involved in maintenance, production, or other operations to establish standard production rate or improve efficiency.
- Read worker logs, product processing sheets, or specification sheets to verify that records adhere to quality assurance specifications.
- Verify that equipment is being operated and maintained according to quality assurance standards by observing worker performance.
- Aid in planning work assignments in accordance with worker performance, machine capacity, production schedules, or anticipated delays.
- Evaluate industrial operations for compliance with permits or regulations related to the generation, storage, treatment, transportation, or disposal of hazardous materials or waste.
- Adhere to all applicable regulations, policies, and procedures for health, safety, and environmental compliance.
- Analyze, estimate, or report production costs.
- Calibrate or adjust equipment to ensure quality production, using tools such as calipers, micrometers, height gauges, protractors, or ring gauges.
- Conduct statistical studies to analyze or compare production costs for sustainable and nonsustainable designs.
- Coordinate equipment purchases, installations, or transfers.
- Create or interpret engineering drawings, schematic diagrams, formulas, or blueprints for management or engineering staff.
- Design plant layouts or production facilities.
- Develop manufacturing infrastructure to integrate or deploy new manufacturing processes.
- Develop sustainable manufacturing technologies to reduce greenhouse gas emissions, minimize raw material use, replace toxic materials with non-toxic materials, replace non-renewable materials with renewable materials, or reduce waste.
- Identify opportunities for improvements in quality, cost, or efficiency of automation equipment.
- Monitor and adjust production processes or equipment for quality and productivity.
- Oversee equipment start-up, characterization, qualification, or release.
- Oversee or inspect production processes.
- Prepare layouts, drawings, or sketches of machinery or equipment, such as shop tooling, scale layouts, or new equipment design, using drafting equipment or computer-aided design (CAD) software.
- Prepare production documents, such as standard operating procedures, manufacturing batch records, inventory reports, or productivity reports.
- Provide advice or training to other technicians.
- Recommend corrective or preventive actions to assure or improve product quality or reliability.
- Select cleaning materials, tools, or equipment.
- Select material quantities or processing methods needed to achieve efficient production.
- Set up and operate production equipment in accordance with current good manufacturing practices and standard operating procedures.
- Assist engineers in developing, building, or testing prototypes or new products, processes, or procedures.
- Develop or implement programs to address problems related to production, materials, safety, or quality.
- Develop production, inventory, or quality assurance programs.
- Identify environmental risks and develop risk management strategies for civil engineering projects.
- Develop or implement engineering solutions to clean up industrial accidents or other contaminated sites.
- Direct engineering activities, ensuring compliance with environmental, safety, or other governmental regulations.
- Manage and direct the construction, operations, or maintenance activities at project site.
- Inspect project sites to monitor progress and ensure conformance to design specifications and safety or sanitation standards.
- Compute load and grade requirements, water flow rates, or material stress factors to determine design specifications.
- Plan and design transportation or hydraulic systems or structures, using computer-assisted design or drawing tools.
- Provide technical advice to industrial or managerial personnel regarding design, construction, program modifications, or structural repairs.
- Analyze survey reports, maps, drawings, blueprints, aerial photography, or other topographical or geologic data.
- Direct or participate in surveying to lay out installations or establish reference points, grades, or elevations to guide construction.
- Estimate quantities and cost of materials, equipment, or labor to determine project feasibility.
- Prepare or present public reports on topics such as bid proposals, deeds, environmental impact statements, or property and right-of-way descriptions.
- Design energy-efficient or environmentally sound civil structures.
- Test soils or materials to determine the adequacy and strength of foundations, concrete, asphalt, or steel.
- Conduct studies of traffic patterns or environmental conditions to identify engineering problems and assess potential project impact.
- Design or engineer systems to efficiently dispose of chemical, biological, or other toxic wastes.
- Identify environmental risks and develop risk management strategies for civil engineering projects.
- Develop or implement engineering solutions to clean up industrial accidents or other contaminated sites.
- Develop processes to separate components of liquids or gases or generate electrical currents, using controlled chemical processes.
- Monitor and analyze data from processes and experiments.
- Develop safety procedures to be employed by workers operating equipment or working in close proximity to ongoing chemical reactions.
- Troubleshoot problems with chemical manufacturing processes.
- Evaluate chemical equipment and processes to identify ways to optimize performance or to ensure compliance with safety and environmental regulations.
- Conduct research to develop new and improved chemical manufacturing processes.
- Perform laboratory studies of steps in manufacture of new products and test proposed processes in small-scale operation, such as a pilot plant.
- Prepare estimate of production costs and production progress reports for management.
- Design measurement and control systems for chemical plants based on data collected in laboratory experiments and in pilot plant operations.
- Determine most effective arrangement of operations such as mixing, crushing, heat transfer, distillation, and drying.
- Direct activities of workers who operate or are engaged in constructing and improving absorption, evaporation, or electromagnetic equipment.
- Perform tests and monitor performance of processes throughout stages of production to determine degree of control over variables such as temperature, density, specific gravity, and pressure.
- Design and plan layout of equipment.
- Develop processes to separate components of liquids or gases or generate electrical currents, using controlled chemical processes.
- Develop new calibration methods or techniques based on measurement science, analyses, or calibration requirements.
- Analyze test data to identify defects or determine calibration requirements.
- Attend conferences, workshops, or other training sessions to learn about new tools or methods.
- Calibrate devices by comparing measurements of pressure, temperature, humidity, or other environmental conditions to known standards.
- Conduct calibration tests to determine performance or reliability of mechanical, structural, or electromechanical equipment.
- Disassemble and reassemble equipment for inspection.
- Draw plans for developing jigs, fixtures, instruments, or other devices.
- Maintain or repair measurement devices or equipment used for calibration testing.
- Operate metalworking machines to fabricate housings, jigs, fittings, or fixtures.
- Order replacement parts for malfunctioning equipment.
- Plan sequences of calibration tests according to equipment specifications and scientific principles.
- Read blueprints, schematics, diagrams, or technical orders.
- Verify part dimensions or clearances using precision measuring instruments to ensure conformance to specifications.
- Visually inspect equipment to detect surface defects.
- Write and submit reports about the results of calibration tests.
- Develop new calibration methods or techniques based on measurement science, analyses, or calibration requirements.
- Select or devise materials-handling methods and equipment to transport ore, waste materials, and mineral products efficiently and economically.
- Prepare technical reports for use by mining, engineering, and management personnel.
- Inspect mining areas for unsafe structures, equipment, and working conditions.
- Select or develop mineral location, extraction, and production methods, based on factors such as safety, cost, and deposit characteristics.
- Select locations and plan underground or surface mining operations, specifying processes, labor usage, and equipment that will result in safe, economical, and environmentally sound extraction of minerals and ores.
- Prepare schedules, reports, and estimates of the costs involved in developing and operating mines.
- Monitor mine production rates to assess operational effectiveness.
- Supervise, train, and evaluate technicians, technologists, survey personnel, engineers, scientists or other mine personnel.
- Examine maps, deposits, drilling locations, or mines to determine the location, size, accessibility, contents, value, and potential profitability of mineral, oil, and gas deposits.
- Design, implement, and monitor the development of mines, facilities, systems, or equipment.
- Test air to detect toxic gases and recommend measures to remove them, such as installation of ventilation shafts.
- Implement and coordinate mine safety programs, including the design and maintenance of protective and rescue equipment and safety devices.
- Devise solutions to problems of land reclamation and water and air pollution, such as methods of storing excavated soil and returning exhausted mine sites to natural states.
- Lay out, direct, and supervise mine construction operations, such as the construction of shafts and tunnels.
- Design, develop, and implement computer applications for use in mining operations such as mine design, modeling, or mapping or for monitoring mine conditions.
- Evaluate data to develop new mining products, equipment, or processes.
- Design mining and mineral treatment equipment and machinery in collaboration with other engineering specialists.
- Conduct or direct mining experiments to test or prove research findings.
- Select or devise materials-handling methods and equipment to transport ore, waste materials, and mineral products efficiently and economically.
- Identify or develop reverse-engineering tools to improve system capabilities or detect vulnerabilities.
- Adhere to legal policies and procedures related to handling digital media.
- Analyze log files or other digital information to identify the perpetrators of network intrusions.
- Conduct predictive or reactive analyses on security measures to support cyber security initiatives.
- Create system images or capture network settings from information technology environments to preserve as evidence.
- Develop plans for investigating alleged computer crimes, violations, or suspicious activity.
- Develop policies or requirements for data collection, processing, or reporting.
- Duplicate digital evidence to use for data recovery and analysis procedures.
- Maintain cyber defense software or hardware to support responses to cyber incidents.
- Maintain knowledge of laws, regulations, policies or other issuances pertaining to digital forensics or information privacy.
- Perform file signature analysis to verify files on storage media or discover potential hidden files.
- Perform forensic investigations of operating or file systems.
- Perform web service network traffic analysis or waveform analysis to detect anomalies, such as unusual events or trends.
- Preserve and maintain digital forensic evidence for analysis.
- Recommend cyber defense software or hardware to support responses to cyber incidents.
- Recover data or decrypt seized data.
- Write and execute scripts to automate tasks, such as parsing large data files.
- Write cyber defense recommendations, reports, or white papers using research or experience.
- Write reports, sign affidavits, or give depositions for legal proceedings.
- Write technical summaries to report findings.
- Identify or develop reverse-engineering tools to improve system capabilities or detect vulnerabilities.
- Develop manufacturing methods, labor utilization standards, and cost analysis systems to promote efficient staff and facility utilization.
- Estimate production costs, cost saving methods, and the effects of product design changes on expenditures for management review, action, and control.
- Plan and establish sequence of operations to fabricate and assemble parts or products and to promote efficient utilization.
- Analyze statistical data and product specifications to determine standards and establish quality and reliability objectives of finished product.
- Confer with clients, vendors, staff, and management personnel regarding purchases, product and production specifications, manufacturing capabilities, or project status.
- Communicate with management and user personnel to develop production and design standards.
- Evaluate precision and accuracy of production and testing equipment and engineering drawings to formulate corrective action plan.
- Recommend methods for improving utilization of personnel, material, and utilities.
- Record or oversee recording of information to ensure currency of engineering drawings and documentation of production problems.
- Draft and design layout of equipment, materials, and workspace to illustrate maximum efficiency using drafting tools and computer.
- Direct workers engaged in product measurement, inspection, and testing activities to ensure quality control and reliability.
- Review production schedules, engineering specifications, orders, and related information to obtain knowledge of manufacturing methods, procedures, and activities.
- Complete production reports, purchase orders, and material, tool, and equipment lists.
- Coordinate and implement quality control objectives, activities, or procedures to resolve production problems, maximize product reliability, or minimize costs.
- Implement methods and procedures for disposition of discrepant material and defective or damaged parts, and assess cost and responsibility.
- Apply statistical methods and perform mathematical calculations to determine manufacturing processes, staff requirements, and production standards.
- Study operations sequence, material flow, functional statements, organization charts, and project information to determine worker functions and responsibilities.
- Formulate sampling procedures and designs and develop forms and instructions for recording, evaluating, and reporting quality and reliability data.
- Regulate and alter workflow schedules according to established manufacturing sequences and lead times to expedite production operations.
- Schedule deliveries based on production forecasts, material substitutions, storage and handling facilities, and maintenance requirements.
- Develop manufacturing methods, labor utilization standards, and cost analysis systems to promote efficient staff and facility utilization.
- Prepare plans to intercept foreign communications transmissions.
- Validate known intelligence with data from other sources.
- Gather, analyze, correlate, or evaluate information from a variety of resources, such as law enforcement databases.
- Evaluate records of communications, such as telephone calls, to plot activity and determine the size and location of criminal groups and members.
- Gather intelligence information by field observation, confidential information sources, or public records.
- Analyze intelligence data to identify patterns and trends in criminal activity.
- Prepare comprehensive written reports, presentations, maps, or charts, based on research, collection, and analysis of intelligence data.
- Collaborate with representatives from other government and intelligence organizations to share information or coordinate intelligence activities.
- Link or chart suspects to criminal organizations or events to determine activities and interrelationships.
- Establish criminal profiles to aid in connecting criminal organizations with their members.
- Identify gaps in information.
- Design, use, or maintain databases and software applications, such as geographic information systems (GIS) mapping and artificial intelligence tools.
- Predict future gang, organized crime, or terrorist activity, using analyses of intelligence data.
- Study activities relating to narcotics, money laundering, gangs, auto theft rings, terrorism, or other national security threats.
- Study the assets of criminal suspects to determine the flow of money from or to targeted groups.
- Conduct presentations of analytic findings.
- Develop defense plans or tactics, using intelligence and other information.
- Interview, interrogate, or interact with witnesses or crime suspects to collect human intelligence.
- Study communication code languages or foreign languages to translate intelligence.
- Gather and evaluate information, using tools such as aerial photographs, radar equipment, or sensitive radio equipment.
- Operate cameras, radios, or other surveillance equipment to intercept communications or document activities.
- Prepare plans to intercept foreign communications transmissions.
- Develop process flows, work instructions, or standard operating procedures for radio frequency identification device (RFID) systems.
- Identify operational requirements for new systems to inform selection of technological solutions.
- Integrate tags, readers, or software in radio frequency identification device (RFID) designs.
- Perform systems analysis or programming of radio frequency identification device (RFID) technology.
- Test radio frequency identification device (RFID) software to ensure proper functioning.
- Select appropriate radio frequency identification device (RFID) tags and determine placement locations.
- Perform site analyses to determine system configurations, processes to be impacted, or on-site obstacles to technology implementation.
- Perform acceptance testing on newly installed or updated systems.
- Determine means of integrating radio frequency identification device (RFID) into other applications.
- Provide technical support for radio frequency identification device (RFID) technology.
- Collect data about existing client hardware, software, networking, or key business processes to inform implementation of radio frequency identification device (RFID) technology.
- Install, test, or maintain radio frequency identification device (RFID) systems.
- Test tags or labels to ensure readability.
- Determine usefulness of new radio frequency identification device (RFID) technologies.
- Verify compliance of developed applications with architectural standards and established practices.
- Train users in details of system operation.
- Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of industry research about new technologies.
- Document equipment or process details of radio frequency identification device (RFID) technology.
- Define and compare possible radio frequency identification device (RFID) solutions to inform selection for specific projects.
- Create simulations or models of radio frequency identification device (RFID) systems to provide information for selection and configuration.
- Analyze radio frequency identification device (RFID)-related supply chain data.
- Develop process flows, work instructions, or standard operating procedures for radio frequency identification device (RFID) systems.
- Develop electronic, mechanical, or computerized processes to perform tasks in dangerous situations, such as underwater exploration or extraterrestrial mining.
- Create mechanical design documents for parts, assemblies, or finished products.
- Design advanced precision equipment for accurate or controlled applications.
- Design engineering systems for the automation of industrial tasks.
- Implement or test design solutions.
- Maintain technical project files.
- Identify materials appropriate for mechatronic system designs.
- Research, select, or apply sensors, communication technologies, or control devices for motion control, position sensing, pressure sensing, or electronic communication.
- Apply mechatronic or automated solutions to the transfer of materials, components, or finished goods.
- Provide consultation or training on topics such as mechatronics or automated control.
- Oversee the work of contractors in accordance with project requirements.
- Publish engineering reports documenting design details or qualification test results.
- Upgrade the design of existing devices by adding mechatronic elements.
- Create mechanical models to simulate mechatronic design concepts.
- Analyze existing development or manufacturing procedures and suggest improvements.
- Determine the feasibility, costs, or performance benefits of new mechatronic equipment.
- Monitor or calibrate automated systems, industrial control systems, or system components to maximize efficiency of production.
- Create embedded software design programs.
- Design advanced electronic control systems for mechanical systems.
- Design self-monitoring mechanical systems, such as gear systems that monitor loading or condition of systems to detect and prevent failures.
- Design or develop automated control systems for environmental applications, such as waste processing, air quality, or water quality systems.
- Design, develop, or implement control circuits or algorithms for electromechanical or pneumatic devices or systems.
- Design mechatronics components for computer-controlled products, such as cameras, video recorders, automobiles, or airplanes.
- Develop electronic, mechanical, or computerized processes to perform tasks in dangerous situations, such as underwater exploration or extraterrestrial mining.
- Monitor production rates, and plan rework processes to improve production.
- Specify and supervise well modification and stimulation programs to maximize oil and gas recovery.
- Maintain records of drilling and production operations.
- Analyze data to recommend placement of wells and supplementary processes to enhance production.
- Assist engineering and other personnel to solve operating problems.
- Direct and monitor the completion and evaluation of wells, well testing, or well surveys.
- Develop plans for oil and gas field drilling, and for product recovery and treatment.
- Assess costs and estimate the production capabilities and economic value of oil and gas wells, to evaluate the economic viability of potential drilling sites.
- Confer with scientific, engineering, and technical personnel to resolve design, research, and testing problems.
- Interpret drilling and testing information for personnel.
- Coordinate activities of workers engaged in research, planning, and development.
- Write technical reports for engineering and management personnel.
- Evaluate findings to develop, design, or test equipment or processes.
- Test machinery and equipment to ensure that it is safe and conforms to performance specifications.
- Assign work to staff to obtain maximum utilization of personnel.
- Simulate reservoir performance for different recovery techniques, using computer models.
- Design and implement environmental controls on oil and gas operations.
- Supervise the removal of drilling equipment, the removal of any waste, and the safe return of land to structural stability when wells or pockets are exhausted.
- Inspect oil and gas wells to determine that installations are completed.
- Coordinate the installation, maintenance, and operation of mining and oil field equipment.
- Take samples to assess the amount and quality of oil, the depth at which resources lie, and the equipment needed to properly extract them.
- Design or modify mining and oil field machinery and tools, applying engineering principles.
- Conduct engineering research experiments to improve or modify mining and oil machinery and operations.
- Monitor production rates, and plan rework processes to improve production.
- Identify opportunities or implement changes to improve manufacturing processes or products or to reduce costs, using knowledge of fabrication processes, tooling and production equipment, assembly methods, quality control standards, or product design, materials and parts.
- Troubleshoot new or existing product problems involving designs, materials, or processes.
- Investigate or resolve operational problems, such as material use variances or bottlenecks.
- Apply continuous improvement methods, such as lean manufacturing, to enhance manufacturing quality, reliability, or cost-effectiveness.
- Provide technical expertise or support related to manufacturing.
- Incorporate new manufacturing methods or processes to improve existing operations.
- Review product designs for manufacturability or completeness.
- Determine root causes of failures or recommend changes in designs, tolerances, or processing methods, using statistical procedures.
- Prepare reports summarizing information or trends related to manufacturing performance.
- Prepare documentation for new manufacturing processes or engineering procedures.
- Design layout of equipment or workspaces to achieve maximum efficiency.
- Communicate manufacturing capabilities, production schedules, or other information to facilitate production processes.
- Supervise technicians, technologists, analysts, administrative staff, or other engineers.
- Design, install, or troubleshoot manufacturing equipment.
- Evaluate manufactured products according to specifications and quality standards.
- Estimate costs, production times, or staffing requirements for new designs.
- Train production personnel in new or existing methods.
- Design tests of finished products or process capabilities to establish standards or validate process requirements.
- Analyze the financial impacts of sustainable manufacturing processes or sustainable product manufacturing.
- Develop sustainable manufacturing technologies to reduce greenhouse gas emissions, minimize raw material use, replace toxic materials with non-toxic materials, replace non-renewable materials with renewable materials, or reduce waste.
- Purchase equipment, materials, or parts.
- Evaluate current or proposed manufacturing processes or practices for environmental sustainability, considering factors such as greenhouse gas emissions, air pollution, water pollution, energy use, or waste creation.
- Read current literature, talk with colleagues, participate in educational programs, attend meetings or workshops, or participate in professional organizations or conferences to keep abreast of developments in the manufacturing field.
- Redesign packaging for manufactured products to minimize raw material use or waste.
- Identify opportunities or implement changes to improve manufacturing processes or products or to reduce costs, using knowledge of fabrication processes, tooling and production equipment, assembly methods, quality control standards, or product design, materials and parts.
- Assist engineers in the development of new products, fixtures, tools, or processes.
- Compute or record photonic test data.
- Maintain clean working environments, according to clean room standards.
- Adjust or maintain equipment, such as lasers, laser systems, microscopes, oscilloscopes, pulse generators, power meters, beam analyzers, or energy measurement devices.
- Document procedures, such as calibration of optical or fiber optic equipment.
- Set up or operate assembly or processing equipment, such as lasers, cameras, die bonders, wire bonders, dispensers, reflow ovens, soldering irons, die shears, wire pull testers, temperature or humidity chambers, or optical spectrum analyzers.
- Assist scientists or engineers in the conduct of photonic experiments.
- Test or perform failure analysis for optomechanical or optoelectrical products, according to test plans.
- Recommend optical or optic equipment design or material changes to reduce costs or processing times.
- Set up or operate prototype or test apparatus, such as control consoles, collimators, recording equipment, or cables.
- Monitor inventory levels and order supplies as necessary.
- Assemble fiber optical, optoelectronic, or free-space optics components, subcomponents, assemblies, or subassemblies.
- Optimize photonic process parameters by making prototype or production devices.
- Splice fibers, using fusion splicing or other techniques.
- Build prototype optomechanical devices for use in equipment such as aerial cameras, gun sights, or telescopes.
- Terminate, cure, polish, or test fiber cables with mechanical connectors.
- Perform diagnostic analyses of processing steps, using analytical or metrological tools, such as microscopy, profilometry, or ellipsometry devices.
- Assemble or adjust parts or related electrical units of prototypes to prepare for testing.
- Repair or calibrate products, such as surgical lasers.
- Design, build, or modify fixtures used to assemble parts.
- Assemble components of energy-efficient optical communications systems involving photonic switches, optical backplanes, or optoelectronic interfaces.
- Lay out cutting lines for machining, using drafting tools.
- Mix, pour, or use processing chemicals or gases according to safety standards or established operating procedures.
- Fabricate devices, such as optoelectronic or semiconductor devices.
- Assist engineers in the development of new products, fixtures, tools, or processes.
- Develop or implement operating methods or procedures.
- Conduct or direct system-level automotive testing.
- Provide technical direction to other engineers or engineering support personnel.
- Perform failure, variation, or root cause analyses.
- Calibrate vehicle systems, including control algorithms or other software systems.
- Design or analyze automobile systems in areas such as aerodynamics, alternate fuels, ergonomics, hybrid power, brakes, transmissions, steering, calibration, safety, or diagnostics.
- Prepare or present technical or project status reports.
- Conduct research studies to develop new concepts in the field of automotive engineering.
- Establish production or quality control standards.
- Alter or modify designs to obtain specified functional or operational performance.
- Research or implement green automotive technologies involving alternative fuels, electric or hybrid cars, or lighter or more fuel-efficient vehicles.
- Develop calibration methodologies, test methodologies, or tools.
- Create design alternatives for vehicle components, such as camless or dual-clutch engines or alternative air-conditioning systems, to increase fuel efficiency.
- Develop engineering specifications or cost estimates for automotive design concepts.
- Conduct automotive design reviews.
- Design vehicles that use lighter materials, such as aluminum, magnesium alloy, or plastic, to improve fuel efficiency.
- Write, review, or maintain engineering documentation.
- Develop specifications for vehicles powered by alternative fuels or alternative power methods.
- Build models for algorithm or control feature verification testing.
- Coordinate production activities with other functional units, such as procurement, maintenance, or quality control.
- Design control systems or algorithms for purposes such as automotive energy management, emissions management, or increased operational safety or performance.
- Develop or integrate control feature requirements.
- Research computerized automotive applications, such as telemetrics, intelligent transportation systems, artificial intelligence, or automatic control.
- Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of new automotive technology or competitive products.
- Design vehicles for increased recyclability or use of natural, renewable, or recycled materials in vehicle construction.
- Develop or implement operating methods or procedures.
- Develop or evaluate systems or methods of hydrogen storage for fuel cell applications.
- Plan or conduct experiments to validate new materials, optimize startup protocols, reduce conditioning time, or examine contaminant tolerance.
- Provide technical consultation or direction related to the development or production of fuel cell systems.
- Characterize component or fuel cell performances by generating operating maps, defining operating conditions, identifying design refinements, or executing durability assessments.
- Plan or implement fuel cell cost reduction or product improvement projects in collaboration with other engineers, suppliers, support personnel, or customers.
- Conduct fuel cell testing projects, using fuel cell test stations, analytical instruments, or electrochemical diagnostics, such as cyclic voltammetry or impedance spectroscopy.
- Analyze fuel cell or related test data, using statistical software.
- Conduct post-service or failure analyses, using electromechanical diagnostic principles or procedures.
- Define specifications for fuel cell materials.
- Recommend or implement changes to fuel cell system designs.
- Validate design of fuel cells, fuel cell components, or fuel cell systems.
- Read current literature, attend meetings or conferences, or talk with colleagues to stay abreast of new technology or competitive products.
- Prepare test stations, instrumentation, or data acquisition systems for use in specific tests of fuel cell components or systems.
- Develop fuel cell materials or fuel cell test equipment.
- Fabricate prototypes of fuel cell components, assemblies, stacks, or systems.
- Manage fuel cell battery hybrid system architecture, including sizing of components, such as fuel cells, energy storage units, or electric drives.
- Design or implement fuel cell testing or development programs.
- Write technical reports or proposals related to engineering projects.
- Simulate or model fuel cell, motor, or other system information, using simulation software programs.
- Design fuel cell systems, subsystems, stacks, assemblies, or components, such as electric traction motors or power electronics.
- Identify or define vehicle and system integration challenges for fuel cell vehicles.
- Calculate the efficiency or power output of a fuel cell system or process.
- Coordinate fuel cell engineering or test schedules with departments outside engineering, such as manufacturing.
- Authorize release of fuel cell parts, components, or subsystems for production.
- Evaluate the power output, system cost, or environmental impact of new hydrogen or non-hydrogen fuel cell system designs.
- Integrate electric drive subsystems with other vehicle systems to optimize performance or mitigate faults.
- Develop or evaluate systems or methods of hydrogen storage for fuel cell applications.
- Design or evaluate human work systems, using human factors engineering and ergonomic principles to optimize usability, cost, quality, safety, or performance.
- Collect data through direct observation of work activities or witnessing the conduct of tests.
- Conduct interviews or surveys of users or customers to collect information on topics, such as requirements, needs, fatigue, ergonomics, or interfaces.
- Advocate for end users in collaboration with other professionals, including engineers, designers, managers, or customers.
- Inspect work sites to identify physical hazards.
- Prepare reports or presentations summarizing results or conclusions of human factors engineering or ergonomics activities, such as testing, investigation, or validation.
- Recommend workplace changes to improve health and safety, using knowledge of potentially harmful factors, such as heavy loads or repetitive motions.
- Perform functional, task, or anthropometric analysis, using tools, such as checklists, surveys, videotaping, or force measurement.
- Provide technical support to clients through activities, such as rearranging workplace fixtures to reduce physical hazards or discomfort or modifying task sequences to reduce cycle time.
- Assess the user-interface or usability characteristics of products.
- Establish system operating or training requirements to ensure optimized human-machine interfaces.
- Integrate human factors requirements into operational hardware.
- Review health, safety, accident, or worker compensation records to evaluate safety program effectiveness or to identify jobs with high incidence of injury.
- Write, review, or comment on documents, such as proposals, test plans, or procedures.
- Train users in task techniques or ergonomic principles.
- Conduct research to evaluate potential solutions related to changes in equipment design, procedures, manpower, personnel, or training.
- Provide human factors technical expertise on topics, such as advanced user-interface technology development or the role of human users in automated or autonomous sub-systems in advanced vehicle systems.
- Develop or implement human performance research, investigation, or analysis protocols.
- Develop or implement research methodologies or statistical analysis plans to test and evaluate developmental prototypes used in new products or processes, such as cockpit designs, user workstations, or computerized human models.
- Estimate time or resource requirements for ergonomic or human factors research or development projects.
- Design cognitive aids, such as procedural storyboards or decision support systems.
- Analyze complex systems to determine potential for further development, production, interoperability, compatibility, or usefulness in a particular area, such as aviation.
- Investigate theoretical or conceptual issues, such as the human design considerations of lunar landers or habitats.
- Operate testing equipment, such as heat stress meters, octave band analyzers, motion analysis equipment, inclinometers, light meters, thermoanemometers, sling psychrometers, or colorimetric detection tubes.
- Perform statistical analyses, such as social network pattern analysis, network modeling, discrete event simulation, agent-based modeling, statistical natural language processing, computational sociology, mathematical optimization, or systems dynamics.
- Apply modeling or quantitative analysis to forecast events, such as human decisions or behaviors, the structure or processes of organizations, or the attitudes or actions of human groups.
- Design or evaluate human work systems, using human factors engineering and ergonomic principles to optimize usability, cost, quality, safety, or performance.
- Establish and maintain inventory, records, or documentation systems.
- Test performance of electromechanical assemblies, using test instruments such as oscilloscopes, electronic voltmeters, or bridges.
- Install or program computer hardware or machine or instrumentation software in microprocessor-based systems.
- Read blueprints, schematics, diagrams, or technical orders to determine methods and sequences of assembly.
- Modify, maintain, or repair electrical, electronic, or mechanical components, equipment, or systems to ensure proper functioning.
- Inspect parts for surface defects.
- Install electrical or electronic parts and hardware in housings or assemblies, using soldering equipment and hand tools.
- Verify part dimensions or clearances to ensure conformance to specifications, using precision measuring instruments.
- Fabricate or assemble mechanical, electrical, or electronic components or assemblies.
- Align, fit, or assemble component parts, using hand or power tools, fixtures, templates, or microscopes.
- Produce electrical, electronic, or mechanical drawings or other related documents or graphics necessary for electromechanical design, using computer-aided design (CAD) software.
- Select electromechanical equipment, materials, components, or systems to meet functional specifications.
- Develop, test, or program new robots.
- Prepare written documentation of electromechanical test results.
- Repair, rework, or calibrate hydraulic or pneumatic assemblies or systems to meet operational specifications or tolerances.
- Select and use laboratory, operational, or diagnostic techniques or test equipment to assess electromechanical circuits, equipment, processes, systems, or subsystems.
- Operate, test, or maintain robotic equipment used for green production applications, such as waste-to-energy conversion systems, minimization of material waste, or replacement of human operators in dangerous work environments.
- Determine whether selected electromechanical components comply with environmental standards and regulations.
- Develop or implement programs related to the environmental impact of engineering activities.
- Train others to install, use, or maintain robots.
- Analyze engineering designs of logic or digital circuitry, motor controls, instrumentation, or data acquisition for implementation into new or existing automated, servomechanical, or other electromechanical systems.
- Conduct statistical studies to analyze or compare production costs for sustainable and nonsustainable designs.
- Specify, coordinate, or conduct quality-control or quality-assurance programs and procedures.
- Operate metalworking machines to fabricate housings, jigs, fittings, or fixtures.
- Translate electromechanical drawings into design specifications, applying principles of engineering, thermal or fluid sciences, mathematics, or statistics.
- Identify energy-conserving production or fabrication methods, such as by bending metal rather than cutting and welding or casting metal.
- Assist engineers to implement electromechanical designs in industrial or other settings.
- Consult with machinists to ensure that electromechanical equipment or systems meet design specifications.
- Establish and maintain inventory, records, or documentation systems.
- Identify design alternatives for the development of new water resources.
- Provide technical direction or supervision to junior engineers, engineering or computer-aided design (CAD) technicians, or other technical personnel.
- Review and critique proposals, plans, or designs related to water or wastewater treatment systems.
- Design domestic or industrial water or wastewater treatment plants, including advanced facilities with sequencing batch reactors (SBR), membranes, lift stations, headworks, surge overflow basins, ultraviolet disinfection systems, aerobic digesters, sludge lagoons, or control buildings.
- Evaluate the operation and maintenance of water or wastewater systems to identify ways to improve their efficiency.
- Design or select equipment for use in wastewater processing to ensure compliance with government standards.
- Design pumping systems, pumping stations, pipelines, force mains, or sewers for the collection of wastewater.
- Design water distribution systems for potable or non-potable water.
- Conduct water quality studies to identify and characterize water pollutant sources.
- Analyze and recommend chemical, biological, or other wastewater treatment methods to prepare water for industrial or domestic use.
- Design water runoff collection networks, water supply channels, or water supply system networks.
- Design water or wastewater lift stations, including water wells.
- Conduct cost-benefit analyses for the construction of water supply systems, runoff collection networks, water and wastewater treatment plants, or wastewater collection systems.
- Provide technical support on water resource or treatment issues to government agencies.
- Conduct feasibility studies for the construction of facilities, such as water supply systems, runoff collection networks, water and wastewater treatment plants, or wastewater collection systems.
- Analyze storm water or floodplain drainage systems to control erosion, stabilize river banks, repair channel streams, or design bridges.
- Oversee the construction of decentralized or on-site wastewater treatment systems, including reclaimed water facilities.
- Develop plans for new water resources or water efficiency programs.
- Perform hydrological analyses, using three-dimensional simulation software, to model the movement of water or forecast the dispersion of chemical pollutants in the water supply.
- Perform hydraulic analyses of water supply systems or water distribution networks to model flow characteristics, test for pressure losses, or to identify opportunities to mitigate risks and improve operational efficiency.
- Write technical reports or publications related to water resources development or water use efficiency.
- Design water storage tanks or other water storage facilities.
- Analyze and recommend sludge treatment or disposal methods.
- Design sludge treatment plants.
- Gather and analyze water use data to forecast water demand.
- Conduct environmental impact studies related to water and wastewater collection, treatment, or distribution.
- Analyze the efficiency of water delivery structures, such as dams, tainter gates, canals, pipes, penstocks, or cofferdams.
- Perform mathematical modeling of underground or surface water resources, such as floodplains, ocean coastlines, streams, rivers, or wetlands.
- Identify design alternatives for the development of new water resources.
- Develop site-specific health and safety protocols, such as spill contingency plans or methods for loading or transporting waste.
- Design, or supervise the design of, systems, processes, or equipment for control, management, or remediation of water, air, or soil quality.
- Assess the existing or potential environmental impact of land use projects on air, water, or land.
- Collaborate with environmental scientists, planners, hazardous waste technicians, engineers, experts in law or business, or other specialists to address environmental problems.
- Advise corporations or government agencies of procedures to follow in cleaning up contaminated sites to protect people and the environment.
- Develop proposed project objectives and targets and report to management on progress in attaining them.
- Monitor progress of environmental improvement programs.
- Prepare, review, or update environmental investigation or recommendation reports.
- Prepare, maintain, or revise quality assurance documentation or procedures.
- Provide technical support for environmental remediation or litigation projects, including remediation system design or determination of regulatory applicability.
- Prepare or present public briefings on the status of environmental engineering projects.
- Assist in budget implementation, forecasts, or administration.
- Coordinate or manage environmental protection programs or projects, assigning or evaluating work.
- Advise industries or government agencies about environmental policies and standards.
- Obtain, update, or maintain plans, permits, or standard operating procedures.
- Direct installation or operation of environmental monitoring devices or supervise related data collection programs.
- Inspect industrial or municipal facilities or programs to evaluate operational effectiveness or ensure compliance with environmental regulations.
- Request bids from suppliers or consultants.
- Inform company employees or other interested parties of environmental issues.
- Serve as liaison with federal, state, or local agencies or officials on issues pertaining to solid or hazardous waste program requirements.
- Provide administrative support for projects by collecting data, providing project documentation, training staff, or performing other general administrative duties.
- Provide environmental engineering assistance in network analysis, regulatory analysis, or planning or reviewing database development.
- Develop or present environmental compliance training or orientation sessions.
- Provide assistance with planning, quality assurance, safety inspection protocols, or sampling as part of a team conducting multimedia inspections at complex facilities.
- Develop, implement, or manage plans or programs related to conservation or management of natural resources.
- Prepare hazardous waste manifests or land disposal restriction notifications.
- Attend professional conferences to share information.
- Write reports or articles for Web sites or newsletters related to environmental engineering issues.
- Assess, sort, characterize, or pack known or unknown materials.
- Develop site-specific health and safety protocols, such as spill contingency plans or methods for loading or transporting waste.
- Develop methodologies for transferring procedures or biological processes from laboratories to commercial-scale manufacturing production.
- Evaluate the safety, efficiency, and effectiveness of biomedical equipment.
- Prepare technical reports, data summary documents, or research articles for scientific publication, regulatory submissions, or patent applications.
- Design or develop medical diagnostic or clinical instrumentation, equipment, or procedures, using the principles of engineering and biobehavioral sciences.
- Conduct research, along with life scientists, chemists, and medical scientists, on the engineering aspects of the biological systems of humans and animals.
- Adapt or design computer hardware or software for medical science uses.
- Maintain databases of experiment characteristics or results.
- Develop statistical models or simulations, using statistical or modeling software.
- Read current scientific or trade literature to stay abreast of scientific, industrial, or technological advances.
- Manage teams of engineers by creating schedules, tracking inventory, creating or using budgets, or overseeing contract obligations or deadlines.
- Develop models or computer simulations of human biobehavioral systems to obtain data for measuring or controlling life processes.
- Design or conduct follow-up experimentation, based on generated data, to meet established process objectives.
- Write documents describing protocols, policies, standards for use, maintenance, and repair of medical equipment.
- Communicate with bioregulatory authorities regarding licensing or compliance responsibilities.
- Collaborate with manufacturing or quality assurance staff to prepare product specification or safety sheets, standard operating procedures, user manuals, or qualification and validation reports.
- Research new materials to be used for products, such as implanted artificial organs.
- Prepare project plans for equipment or facility improvements, including time lines, budgetary estimates, or capital spending requests.
- Consult with chemists or biologists to develop or evaluate novel technologies.
- Confer with research and biomanufacturing personnel to ensure the compatibility of design and production.
- Recommend process formulas, instrumentation, or equipment specifications, based on results of bench or pilot experimentation.
- Communicate with suppliers regarding the design or specifications of bioproduction equipment, instrumentation, or materials.
- Conduct training or in-services to educate clinicians and other personnel on proper use of equipment.
- Advise hospital administrators on the planning, acquisition, and use of medical equipment.
- Analyze new medical procedures to forecast likely outcomes.
- Design and deliver technology, such as prosthetic devices, to assist people with disabilities.
- Advise manufacturing staff regarding problems with fermentation, filtration, or other bioproduction processes.
- Review existing manufacturing processes to identify opportunities for yield improvement or reduced process variation.
- Develop bioremediation processes to reduce pollution, protect the environment, or treat waste products.
- Lead studies to examine or recommend changes in process sequences or operation protocols.
- Design or direct bench or pilot production experiments to determine the scale of production methods that optimize product yield and minimize production costs.
- Develop methodologies for transferring procedures or biological processes from laboratories to commercial-scale manufacturing production.
- Develop or validate specialized materials characterization procedures, such as thermal withstand, fatigue, notch sensitivity, abrasion, or hardness tests.
- 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.
- Devise microelectromechanical systems (MEMS) production methods, such as integrated circuit fabrication, lithographic electroform modeling, or micromachining.
- 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 or implement microelectromechanical systems (MEMS) processing tools, fixtures, gages, dies, molds, or trays.
- 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 energy products using nanomaterials or nanoprocesses, such as micro-nano machining.
- 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.
- Develop or validate specialized materials characterization procedures, such as thermal withstand, fatigue, notch sensitivity, abrasion, or hardness tests.