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스포트라이트사실교육취업뉴스 피드 착륙

스포트라이트

비슷한 제목

Energy Efficiency Engineer, Energy Engineer, Industrial Energy Engineer, Measurement And Verification Engineer, Test and Balance Engineer

작업 설명

Engineering is considered the backbone of modern society. In simple terms, it’s the “designing, testing, and building of machines, structures, and processes using maths and science.”

In addition to the major branches of engineering—such as chemical, civil, electrical, and mechanical—there are hundreds of subcategories of engineering. One of the most recent is the exciting field of energy engineering!

In a world where renewable energy and sustainable practices are being prioritized, Energy Engineers have become vital. They specialize in developing energy-related projects and systems aimed at improving efficiency and reducing environmental impact.

Their responsibilities include conducting energy audits, designing renewable energy systems (like solar and wind power), and coming up with ways to make existing systems better. Energy Engineers play a crucial role in researching and implementing new technologies to meet the growing global demand for more sustainable energy solutions.

경력의 보람있는 측면
  • Working on diverse projects from solar farms to energy-efficient buildings
  • Innovating renewable energy technologies
  • Contributing to environmental sustainability and energy conservation
  • Playing a role in combating climate change and reducing carbon footprint
중간 급여
$86,305
타이틀
2021년 채용 정보
2,554
2031년 예상 고용
2,809
인사이드 스쿱
직무 책임

근무 일정

  • Energy Engineers work full-time with the possibility of overtime during emergencies. Travel in the area may be necessary.

일반적인 의무

  • Assess and optimize energy usage in various conditions and settings
  • Calculate estimated potential energy savings if upgrading equipment and systems
  • Conduct temperature testing and regulatory compliance
  • Ensure designs and product installations comply with safety and energy efficiency standards
  • Benchmark cost and consumption for organizations
  • Design and implement renewable energy systems
  • Used software to create detailed construction drawing sets and models
  • Assist during development activities to ensure actions are completed on schedule
  • Build performance models for compliance with associated standards
  • Analyze emissions and performance of gas-fired furnaces and boilers
  • Automate equipment fault detection and energy analysis in commercial heating, ventilation, and air conditioning (HVAC) systems
  • Collaborate with engineers, architects, and other professionals for project execution
  • Facilitate system prototype submissions and experiments
  • Evaluate system integration with existing infrastructure
  • Review subcontracted energy assessments and retro-commissioning projects to ensure quality
  • Estimate energy and water cost savings meeting company-wide return on investment requirements
  • Create reports to compare projected energy savings against actual savings

추가 책임

  • Stay updated with regulatory and environmental legislation
  • Research new energy technologies to stay at the forefront of the field
  • Participate in community and business partner sustainability meetings
  • Encourage investment in energy-efficient and solar energy technologies
직업에 필요한 기술

소프트 스킬

  • 활동 조정
  • 분석
  • 세부 사항에주의
  • 비즈니스 통찰력
  • 합작
  • 창조성
  • 비판적 사고
  • 결정적인
  • 연역적이고 귀납적인 추론
  • 디테일 지향
  • 독립의
  • 모니터링
  • 목표
  • 조직
  • 환자
  • 통찰력
  • 문제 해결
  • 안전 지향
  • 강력한 의사 소통 기술
  • 시각화

기술 능력

  • Building Information Modeling
  • Computer-aided design (CAD) tools such as Autodesk AutoCAD, SolidWorks, Revit, etc.
  • Development environment tools like LabVIEW and Verilog
  • Energy analysis and management tools such as EnergyPlus, RETScreen, or HOMER
  • 지리 정보 시스템
  • Knowledge of energy systems and renewable technologies
  • Knowledge of fabrication and manufacturing
  • 기계적 적성
  • Operating system software, such as Linux, Windows, Shell script, UNIX
    Operations analysis
  • Programming languages such as C++, Python
  • Project management software like Microsoft Project or Primavera
  • Scientific software such as Powersim and MathWorks
  • Simulation and modeling software like ANSYS, MATLAB, or Simulink
  • Strong skills in all branches of STEM 
다양한 유형의 조직
  • Construction and building services
  • Engineering consultancies
  • Environmental agencies
  • Government and public agencies
  • Manufacturing and industrial companies
  • Renewable energy firms
  • Research institutions, including colleges
  • 유틸리티 회사
기대와 희생

Energy Engineers must constantly update their skills to keep pace with evolving technology and regulations, often working under tight deadlines. This commitment to lifelong learning is crucial but can mean extended work hours, especially when working on large-scale projects or urgent energy crises.

Work might take them to remote locations for extended periods, impacting their personal lives. They can sometimes encounter industry resistance or public skepticism, requiring them to be not only skilled engineers but also effective communicators. Energy Engineers, after all, must be strong advocates for sustainable energy practices and policies!

현재 동향

Current trends emphasize renewable energy and smart technology integration. The shift from fossil fuels to renewables like solar and wind is driven by environmental concerns and technological advancements.

Energy Engineers focus on efficiency, scalability, and economic viability. In addition, improving energy storage such as in battery systems is crucial since renewable energy sources depend on environmental conditions. For example, solar energy production fluctuates based on the amount of available sunlight, so it is important to be able to store that captured energy.

Smart technology, notably the Internet of Things, is being integrated into energy systems such as smart grids that improve electricity distribution efficiency and reliability. Meanwhile, AI and machine learning are helping to predict energy consumption patterns and optimize energy use. 

이 직업에 종사하는 사람들은 어렸을 때 어떤 종류의 일을 즐겼습니까?

Energy Engineers may have displayed a keen interest in STEM subjects in their younger years. Many were drawn to building and experimenting with mechanical or electrical projects, such as constructing simple circuits and models or participating in science fairs. Their early fascination with how things work, combined with awareness of environmental issues, likely steered them towards this career field! 

교육 및 훈련 필요
  • Energy Engineers need an ABET-accredited bachelor’s in energy engineering, mechanical engineering, or a related field 
  • 많은 학생들이 시간과 비용을 절약할 수 있는 이중 학사/석사를 선택합니다.
  1. Advanced degrees can be advantageous for specialized roles or research positions
  • 예상되는 일반적인 클래스는 다음과 같습니다.
  1. Energy Management
  2. Energy Policy
  3. 원자력
  4. 재생 에너지 시스템
  5. 열역학
  • Students may opt to focus on an area of specialization including (but not limited to):
  1. 에너지 효율성 
  2. Energy Policy
  3. Energy Systems
  4. 원자력
  5. Renewable Energy 
  6. Smart Grids and Energy Storage
  • Some programs may partner with local businesses to offer internships and cooperative experiences that boost student understanding and develop practical skills 
  • Some employers may require workers to pass a thorough background check and obtain a security clearance
  • Optional certifications include the American Public Power Association’s Energy Efficiency Management Certificate and the Leadership in Energy and Environmental Design (LEED) Accredited Professional
  • The Association of Energy Engineers offers certification options, as well!
  • A license isn’t needed to get started, but Professional Engineering (PE) licensure leads to greater scopes of responsibility. A PE must pass two exams—Fundamentals of Engineering (FE) and Principles and Practice of Engineering (PE), the latter of which can be taken only after sufficient work experience has been gained 
대학에서 찾아야 할 것들
  • Look for ABET-accredited colleges offering majors in energy engineering, mechanical engineering, or a related field
  • Seek programs with internship opportunities
  • Programs should be ABET-accredited, which is a requirement for later PE licensure
  • Scholarships and STEM pathways! How committed are your potential schools to improving access to help facilitate your entry into their programs?
  • Consider the program’s faculty awards and accomplishments. Prestigious honors include: teaching awards, IEEE and National Science Foundation awards and recognitions, Fulbright Fellowships, best papers, and distinguished lecturers
  • Check out their facilities (especially if you plan to attend in person). Well-funded programs will have the most modern, cutting-edge research areas
  • 제휴 센터 및 연구소를 찾으십시오. 대부분의 큰 프로그램은 학습 경험을 크게 향상시킬 수있는 외부 파트너와 협력합니다.
  • 학교가 졸업생에게 제공하는 것을 항상 확인하십시오! 그들은 직업 배치 통계를 게시합니까? 동문 네트워크는 유익하고 경력 향상 멘토링과 네트워킹을 제공합니까?
  • 수업료, 할인 및 지역 장학금 기회 비용을 고려하십시오 (연방 지원 이외에)
  • 캠퍼스, 온라인 또는 하이브리드 프로그램에 등록할지 여부를 결정할 때 일정과 유연성에 대해 생각해보십시오.
고등학교와 대학에서해야 할 일
  • It pays to get a jump start on college by taking prep classes in high school, such as math, physics, and environmental science. Strong English and technical writing skills will also pay off later
  • If offered, consider taking electives in blueprints, computer programming, computer-aided drafting, and electronics
  • 수업에 등록하기 전에 경력 분야에 대해 할 수있는 모든 것을 배우십시오. 당신이 전문으로하고 싶은 것을 알고 고용 포털에 게시 된 직업 설명을 읽으십시오.
  1. 더 나아가려면 꿈꿔 왔던 조직 목록을 만들고 현재 직원에게 연락하여 두뇌를 선택할 수 있습니다.
  • Get practical experience through internships or related apprenticeships
  • 부드러운 기술을 소홀히하지 마십시오. 엔지니어도 "사람"이어야합니다!
  1. 학교위원회에서 봉사하거나 과외 활동을 돕기 위해 자원 봉사하며 리더십과 경영 경험을 제공하는 역할에 중점을 둡니다.
  • Comb through our below list of Recommended Websites to find professional groups to join. Also, become an active participant in your school engineering  and environmental clubs and fairs
  • Ask a seasoned Energy Engineer if they can spare some time to mentor you in exchange for helping them in some capacity
  • Develop skills in computer programming and software related to energy modeling.
  • Read online articles and trade publications like Energy Engineering  
  • Familiarize yourself with current global energy trends. Participate in relevant online forums and discussion groups
  • 이력서 및 대학 지원서를 위해 모든 업무와 학업 성취도를 추적하세요.
Energy Engineer Roadmap
에너지 엔지니어
1차 직장에 도착하는 방법
  1. Renewable Energy, Energy Efficiency, Engineering Software, Simulation and Modeling, Project Management, Data Analysis, Technical Skills, Regulatory Compliance, System Optimization, Sustainable Development, Energy Auditing, Grid Management, Renewable Energy Technologies, Software Proficiency, Research and Development, Energy Policy, Environmental Impact Assessment, Energy Storage, Communication Skills, Team Leadership, AutoCAD, MATLAB, ANSYS, HOMER, EnergyPlus, Agile, Scrum, Lean Management, Statistical Analysis, Data Modeling
  • Review Energy Engineer resume templates and sample interview questions 
  • 학교에 채용 담당자와 연결하도록 요청하십시오. 대기업과 인턴 할 수있는 기회를 활용하십시오. 많은 엔지니어들이 졸업 할 때 기다리는 직업을 갖기 위해 준비합니다.
  • Max out your school’s career center offerings. Get resume help, do mock interviews, meet recruiters, and attend job fairs in professional attire with resumes in hand
  • Do your research on potential employers. Learn about their services, outreach missions, and target community groups
  • 인터뷰 중에 업계 동향에 대한 예리한 인식을 보여줍니다.
  • 면접을 위한 전문성 있는 복장
  • 이전 교수와 감독자에게 추천서를 작성하거나 사전에 동의를 요청하여 참조로 나열하도록 요청하십시오.
사다리를 오르는 법
  • 위로 올라가려면 목표 목표를 설정하고, 이정표를 설정하고, 각 이정표를 달성하기위한 계획을 수립해야합니다.
  1. 5년, 10년, 20년 안에 어디에 있고 싶은지 결정하고, 계획을 세운다. 다른 사람들을 감독하고 팀을 이끌고 싶습니까? 매니저가 되고 싶으신가요? 판매는 어떻습니까? 목표를 알면 그에 따라 교육과 훈련을 조정하는 데 도움이됩니다.
  • Your employer will probably invest time and money in you and want to keep you, so make it clear that you’re interested in getting promoted within the company if possible
  • Speak with your supervisor about advancement. Get advice and talk through options. There are endless possibilities within the Energy Engineering field!
  • Most small- to mid-sized businesses have limited opportunities for advancement, so keep this in mind when applying. To move up any ladder, there must be empty rungs on it
  • Get your PE license as soon as you can and demonstrate your commitment to excellence and your willingness to assume increased responsibilities
  • Knock out additional certs when qualified to do so, like the American Public Power Association’s Energy Efficiency Management Certificate, the Leadership in Energy and Environmental Design (LEED) Accredited Professional, or an Association of Energy Engineers certification
  • Try to gain diverse experience across different energy projects
  • Consider specializing in a growing niche, like solar energy or sustainable building design
  • 전문성 개발 및 평생 교육 과정 수강에 적극적으로 참여하세요.
  • Be active in professional organizations (see our list of Recommended Resources for more information)
  • 규정 변경에 대한 최신 정보를 파악하여 조직이 항상 규정을 준수할 수 있도록 하세요.
권장 도구/리소스

웹사이트

  • Energy Storage Basics: A Study Guide for Energy Practitioners, by Sean White and Saad Yousefi
  • Renewable Energy Engineering, by Nicholas Jenkins and Janaka Ekanayake
  • Wind Energy Engineering: A Handbook for Onshore and Offshore Wind Turbines, by Trevor Letcher
계획 B

Energy engineering is a vital and expanding career field, but currently, there aren’t a huge number of job openings compared to some other engineering fields. That could change significantly in the coming years.

In the meantime, other types of engineers contribute to the energy engineering field, too—so if you’re interested in exploring some related occupations, check out the suggestions below.

  • 항공우주 엔지니어
  • 화학 엔지니어  
  • 토목 엔지니어
  • 컴퓨터 하드웨어 엔지니어    
  • 전기 및 전자 엔지니어    
  • 환경 엔지니어
  • Geothermal Production Manager
  • 산업 엔지니어
  • 제조 엔지니어
  • 재료 엔지니어
  • 기계 엔지니어
  • 광업 및 지질 공학자
  • 수처리/폐수 엔지니어

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