100 từ vựng và cụm từ vựng tiếng Anh về ngành nghề Quản trị dự án xây dựng công trình điện

Ngành Quản trị Dự án Xây dựng Công trình Điện yêu cầu sự hiểu biết sâu sắc về kỹ thuật, quản lý và ngôn ngữ chuyên ngành. Dưới đây là danh sách 100 từ vựng và cụm từ vựng tiếng Anh quan trọng, giúp bạn nắm vững các thuật ngữ phổ biến trong ngành. Việc sử dụng chính xác những từ này sẽ hỗ trợ hiệu quả trong giao tiếp, quản lý dự án, và hợp tác với các đối tác quốc tế.

Từ vựng tiếng Anh nghề Quản trị dự án xây dựng công trình điện

Electrical Engineering – Kỹ thuật điện
Power Generation – Phát điện
Substation Construction – Xây dựng trạm biến áp
Transmission Lines – Đường dây truyền tải
Circuit Design – Thiết kế mạch điện
Load Analysis – Phân tích tải
Electrical Infrastructure – Hạ tầng điện
Energy Efficiency – Hiệu suất năng lượng
Transformer Installation – Lắp đặt máy biến áp
Voltage Regulation – Điều chỉnh điện áp
Power Distribution – Phân phối điện
Project Management – Quản lý dự án
Cable Routing – Định tuyến cáp
Safety Standards – Tiêu chuẩn an toàn
Energy Audit – Kiểm toán năng lượng
Grid Integration – Tích hợp lưới điện
Generator Maintenance – Bảo trì máy phát điện
Power Systems Analysis – Phân tích hệ thống điện
Electrical Load – Tải điện
Feasibility Study – Nghiên cứu khả thi
Electrical Panel – Bảng điều khiển điện
SCADA System – Hệ thống SCADA
Power Factor Correction – Sửa chữa hệ số công suất
Electrical Outage – Cắt điện
Distribution Network – Mạng lưới phân phối
High Voltage Equipment – Thiết bị điện áp cao
Energy Management – Quản lý năng lượng
Power Plant – Nhà máy điện
Cable Splicing – Nối cáp
Load Forecasting – Dự báo tải
Electrical Safety – An toàn điện
Grid Stability – Ổn định lưới điện
Construction Schedule – Lịch trình xây dựng
Electrical Testing – Kiểm tra điện
Power Quality – Chất lượng điện
Transformer Testing – Kiểm tra máy biến áp
Wiring Diagrams – Sơ đồ dây điện
Power Switchgear – Thiết bị đóng cắt điện
Electrical Codes – Quy chuẩn điện
Energy Storage – Lưu trữ năng lượng
Electrical Design Software – Phần mềm thiết kế điện
Load Management – Quản lý tải
Electrical Subsystems – Các hệ thống điện phụ
Renewable Energy – Năng lượng tái tạo
Electrical System Integration – Tích hợp hệ thống điện
Backup Power Systems – Hệ thống nguồn điện dự phòng
Electrical Installation – Lắp đặt điện
Switchgear Maintenance – Bảo trì thiết bị đóng cắt
Energy Conservation – Bảo tồn năng lượng
Utility Coordination – Điều phối dịch vụ công
Electrical Equipment Testing – Kiểm tra thiết bị điện
Project Budgeting – Lập ngân sách dự án
Electrical Fault Diagnosis – Chẩn đoán sự cố điện
Renewable Energy Systems – Hệ thống năng lượng tái tạo
Power System Protection – Bảo vệ hệ thống điện
Electrical Load Testing – Kiểm tra tải điện
Energy Procurement – Mua sắm năng lượng
Electricity Metering – Đo đạc điện
Power System Operation – Vận hành hệ thống điện
Electrical Code Compliance – Tuân thủ quy chuẩn điện
Infrastructure Upgrades – Nâng cấp cơ sở hạ tầng
Construction Supervision – Giám sát xây dựng
Risk Management – Quản lý rủi ro
Power System Design – Thiết kế hệ thống điện
Power Line Installation – Lắp đặt đường dây điện
Energy Efficiency Audits – Kiểm toán hiệu suất năng lượng
Electrical Wiring – Điện dây
High Voltage Testing – Kiểm tra điện áp cao
Electrical Maintenance – Bảo trì điện
Energy Savings – Tiết kiệm năng lượng
Electrical Safety Inspections – Kiểm tra an toàn điện
Load Balancing – Cân bằng tải
Energy Performance – Hiệu suất năng lượng
Electrical Engineering Design – Thiết kế kỹ thuật điện
Power Distribution Equipment – Thiết bị phân phối điện
Construction Planning – Lập kế hoạch xây dựng
Power Demand Management – Quản lý nhu cầu điện
Electrical Code Requirements – Yêu cầu quy chuẩn điện
System Configuration – Cấu hình hệ thống
Energy Efficiency Measures – Các biện pháp hiệu suất năng lượng
Electrical Circuit Testing – Kiểm tra mạch điện
Project Coordination – Điều phối dự án
Power System Monitoring – Giám sát hệ thống điện
Electrical Safety Procedures – Quy trình an toàn điện
Energy Monitoring Systems – Hệ thống giám sát năng lượng
Power Distribution Systems – Hệ thống phân phối điện
Electrical Project Management – Quản lý dự án điện
Power Generation Equipment – Thiết bị phát điện
Construction Documentation – Tài liệu xây dựng
Voltage Testing – Kiểm tra điện áp
Energy Resources – Tài nguyên năng lượng
Electrical Design Specifications – Các đặc điểm kỹ thuật thiết kế điện
Project Risk Assessment – Đánh giá rủi ro dự án
Power Transmission Equipment – Thiết bị truyền tải điện
Electrical Infrastructure Assessment – Đánh giá cơ sở hạ tầng điện
Energy Usage Optimization – Tối ưu hóa sử dụng năng lượng
Construction Quality Control – Kiểm soát chất lượng xây dựng
Electrical Performance Testing – Kiểm tra hiệu suất điện
Power System Maintenance – Bảo trì hệ thống điện
Electrical Engineering Project – Dự án kỹ thuật điện

Bài viết sử dụng thuật ngữ trên

Electrical Engineering: The team is composed of experts in electrical engineering to ensure the project’s success.
Power Generation: The new facility focuses on power generation to meet the growing energy demands.
Substation Construction: The substation construction is progressing according to the project schedule.
Transmission Lines: We need to upgrade the transmission lines to improve power delivery efficiency.
Circuit Design: Proper circuit design is crucial for the safety and functionality of the electrical system.
Load Analysis: Load analysis was conducted to determine the capacity needed for the new power plant.
Electrical Infrastructure: The electrical infrastructure must be robust to support the city’s energy needs.
Energy Efficiency: Implementing energy efficiency measures can significantly reduce operational costs.
Transformer Installation: Transformer installation is scheduled for next week to ensure reliable power distribution.
Voltage Regulation: Voltage regulation devices help maintain consistent electrical output.
Power Distribution: Effective power distribution ensures that electricity reaches all intended areas.
Project Management: Effective project management is essential for completing the construction on time.
Cable Routing: Cable routing should be planned to minimize interference and maximize efficiency.
Safety Standards: Adhering to safety standards is critical for preventing accidents on-site.
Energy Audit: An energy audit was performed to identify areas for improvement in energy consumption.
Grid Integration: Grid integration involves connecting the new power plant to the existing power grid.
Generator Maintenance: Regular generator maintenance is necessary to ensure uninterrupted power supply.
Power Systems Analysis: Power systems analysis helps in understanding the overall performance of the energy network.
Electrical Load: Monitoring the electrical load helps in balancing power distribution across the system.
Feasibility Study: A feasibility study was conducted to assess the viability of the proposed energy project.
Electrical Panel: The new electrical panel installation will enhance the control of the power distribution system.
SCADA System: The SCADA system allows for real-time monitoring and control of the electrical grid.
Power Factor Correction: Power factor correction devices improve the efficiency of the power system.
Electrical Outage: An electrical outage occurred due to a fault in the transmission lines.
Distribution Network: The distribution network must be upgraded to handle increased power demands.
High Voltage Equipment: High voltage equipment requires careful handling to ensure safety and reliability.
Energy Management: Energy management strategies help in optimizing the use of available resources.
Power Plant: The new power plant will contribute to the region’s energy needs.
Cable Splicing: Proper cable splicing techniques are essential for maintaining electrical integrity.
Load Forecasting: Load forecasting helps in planning for future energy requirements.
Electrical Safety: Electrical safety measures are implemented to protect workers and equipment.
Grid Stability: Ensuring grid stability is vital for preventing power outages and disruptions.
Construction Schedule: The construction schedule outlines the timeline for completing each phase of the project.
Electrical Testing: Electrical testing is performed to verify the functionality of the system.
Power Quality: Power quality monitoring ensures that the electrical supply meets required standards.
Transformer Testing: Transformer testing is crucial to confirm the performance and safety of the equipment.
Wiring Diagrams: Wiring diagrams provide a visual representation of the electrical connections in the system.
Power Switchgear: The power switchgear is used to control and protect electrical circuits.
Electrical Codes: Compliance with electrical codes ensures that installations are safe and up to standard.
Energy Storage: Energy storage solutions help in managing supply and demand effectively.
Electrical Design Software: Electrical design software assists engineers in creating detailed system schematics.
Load Management: Load management strategies are used to balance electricity consumption across the grid.
Electrical Subsystems: Electrical subsystems are integrated to create a cohesive power distribution network.
Renewable Energy: Incorporating renewable energy sources reduces dependence on fossil fuels.
Electrical System Integration: Electrical system integration involves connecting various components to ensure smooth operation.
Backup Power Systems: Backup power systems are essential for maintaining operations during outages.
Electrical Installation: Professional electrical installation ensures that all components are correctly set up.
Switchgear Maintenance: Regular switchgear maintenance helps in preventing unexpected failures.
Energy Conservation: Implementing energy conservation practices reduces overall consumption and costs.
Utility Coordination: Utility coordination ensures that all service providers are aligned for effective project execution.
Electrical Equipment Testing: Electrical equipment testing confirms that all devices are functioning correctly.
Project Budgeting: Project budgeting involves allocating financial resources to various aspects of the construction.
Electrical Fault Diagnosis: Electrical fault diagnosis helps in identifying and resolving issues quickly.
Renewable Energy Systems: Renewable energy systems contribute to a more sustainable power grid.
Power System Protection: Power system protection measures are implemented to prevent damage from faults.
Electrical Load Testing: Electrical load testing verifies that the system can handle anticipated loads.
Energy Procurement: Energy procurement involves acquiring energy resources at the best possible rates.
Electricity Metering: Electricity metering tracks energy consumption for billing and management purposes.
Power System Operation: Power system operation involves managing the daily functions of the electrical grid.
Electrical Code Compliance: Ensuring electrical code compliance is necessary for meeting regulatory standards.
Infrastructure Upgrades: Infrastructure upgrades improve the capacity and efficiency of the electrical system.
Construction Supervision: Construction supervision ensures that work is completed according to specifications.
Risk Management: Risk management involves identifying and mitigating potential project risks.
Power System Design: Power system design includes planning and creating the layout of electrical components.
Power Line Installation: Power line installation is a critical task for expanding the electrical distribution network.
Energy Efficiency Audits: Energy efficiency audits identify ways to improve the energy use of systems and facilities.
Electrical Wiring: Electrical wiring connects all the components of the power system.
High Voltage Testing: High voltage testing ensures that equipment can handle the required electrical loads safely.
Electrical Maintenance: Electrical maintenance involves regular checks and repairs to ensure system reliability.
Energy Savings: Energy savings are achieved through various efficiency measures and technology upgrades.
Electrical Safety Inspections: Electrical safety inspections help to ensure that all systems meet safety standards.
Load Balancing: Load balancing distributes electrical loads evenly across the system to prevent overloads.
Energy Performance: Energy performance assessments evaluate how effectively energy is used in systems and processes.
Electrical Engineering Design: Electrical engineering design involves creating detailed plans for electrical systems.
Power Distribution Equipment: Power distribution equipment includes all devices used to distribute electricity to end-users.
Construction Planning: Construction planning outlines the steps and resources needed for successful project execution.
Power Demand Management: Power demand management helps in balancing electricity supply and consumption.
Electrical Code Requirements: Meeting electrical code requirements ensures that all installations are safe and compliant.
System Configuration: System configuration involves setting up and optimizing electrical systems for performance.
Energy Efficiency Measures: Implementing energy efficiency measures reduces waste and lowers operating costs.
Electrical Circuit Testing: Electrical circuit testing checks the integrity and performance of electrical circuits.
Project Coordination: Project coordination involves organizing tasks and resources to ensure smooth project execution.
Power System Monitoring: Power system monitoring provides real-time data on system performance and health.
Electrical Safety Procedures: Electrical safety procedures are established to prevent accidents and injuries.
Energy Monitoring Systems: Energy monitoring systems track and analyze energy usage to improve efficiency.
Power Distribution Systems: Power distribution systems manage the delivery of electricity from generation points to consumers.
Electrical Project Management: Electrical project management ensures that all aspects of electrical construction are properly executed.
Power Generation Equipment: Power generation equipment includes turbines and generators used to produce electricity.
Construction Documentation: Construction documentation includes all records and plans related to the building project.
Voltage Testing: Voltage testing is used to measure and ensure the proper voltage levels in electrical systems.
Energy Resources: Energy resources include various sources of energy used for power generation.
Electrical Design Specifications: Electrical design specifications detail the requirements and standards for electrical systems.
Project Risk Assessment: Project risk assessment identifies potential risks and develops strategies to mitigate them.
Power Transmission Equipment: Power transmission equipment is used to carry electricity over long distances.
Electrical Infrastructure Assessment: Electrical infrastructure assessment evaluates the current state and needs of the power system.
Energy Usage Optimization: Energy usage optimization aims to reduce waste and improve efficiency in energy consumption.
Construction Quality Control: Construction quality control ensures that building work meets the required standards and specifications.
Electrical Performance Testing: Electrical performance testing evaluates the efficiency and reliability of electrical systems.
Power System Maintenance: Power system maintenance involves regular servicing to keep the electrical system in good working order.
Electrical Engineering Project: An electrical engineering project involves designing and implementing electrical systems for various applications.

Bài tập

The ________________ focuses on designing electrical systems for various applications.
Effective ________________ is essential for the success of the construction project.
The new ________________ will enhance the city’s power distribution capabilities.
We need to update the ________________ to ensure efficient power delivery.
Proper ________________ is crucial for the safety and functionality of the electrical system.
The team conducted a ________________ to determine the required capacity for the new plant.
Upgrading the ________________ is necessary to support the increased energy demand.
________________ measures help reduce operational costs and improve efficiency.
The ________________ is scheduled for installation next month to improve power distribution.
________________ devices help maintain a consistent electrical output.
________________ ensures that electricity reaches all intended areas effectively.
Effective ________________ is critical to complete the construction on schedule.
________________ should be planned carefully to ensure minimal interference.
Adhering to ________________ is vital for preventing accidents on-site.
An ________________ was conducted to identify areas where energy consumption could be improved.
________________ involves connecting the new power plant to the existing power grid.
Regular ________________ is essential for ensuring the reliability of power supply.
________________ helps in understanding the overall performance of the power network.
Monitoring the ________________ helps balance power distribution throughout the system.
A ________________ was carried out to assess the feasibility of the proposed project.
The new ________________ will enhance control over the power distribution system.
The ________________ system allows for real-time monitoring and control of the grid.
________________ improves the efficiency of the power system.
An ________________ occurred due to a fault in the power lines.
The ________________ must be upgraded to handle the increased demand for electricity.
Handling ________________ requires careful attention to safety and reliability.
________________ strategies help optimize the use of energy resources.
The new ________________ will meet the region’s energy needs.
Proper ________________ techniques are crucial for maintaining electrical integrity.
________________ helps in forecasting future energy requirements.
Implementing ________________ measures protects workers and equipment from hazards.
Ensuring ________________ is crucial for preventing power outages and disruptions.
The ________________ outlines the timeline for completing each project phase.
________________ verifies that the system is functioning correctly.
________________ monitoring ensures the electrical supply meets required standards.
________________ confirms the performance and safety of the transformer.
________________ provide a visual representation of the electrical connections in the system.
The ________________ is used to control and protect electrical circuits.
Compliance with ________________ ensures that installations are up to standard.
________________ solutions help manage supply and demand more effectively.
________________ assists engineers in creating detailed system schematics.
________________ strategies balance electricity consumption across the grid.
________________ are integrated to create a cohesive power distribution network.
Incorporating ________________ reduces reliance on fossil fuels.
________________ involves connecting various components for smooth operation.
________________ are essential for maintaining operations during power outages.
________________ ensures all components are correctly installed.
Regular ________________ helps prevent unexpected failures in the equipment.
Implementing ________________ practices helps lower energy consumption and costs.
________________ ensures all service providers are coordinated for effective project execution.
________________ confirms that all devices are functioning correctly.
________________ involves allocating financial resources to various aspects of the project.
________________ helps in identifying and resolving electrical issues quickly.
________________ contribute to a more sustainable power grid.
________________ measures are implemented to prevent system damage from faults.
________________ verifies that the system can handle expected loads.
________________ involves acquiring energy resources at the best possible rates.
________________ tracks energy consumption for billing and management.
________________ involves managing the daily functions of the electrical grid.
Ensuring ________________ is necessary for meeting regulatory standards.
________________ improve the capacity and efficiency of the electrical system.
________________ ensures that construction work meets specifications.
________________ involves identifying and mitigating potential risks in the project.
________________ includes planning and creating the layout of electrical components.
________________ is critical for expanding the electrical distribution network.
________________ identify ways to improve energy use in systems and facilities.
________________ connects all components of the power system.
________________ ensures that equipment can handle the required electrical loads safely.
Regular ________________ involves checks and repairs to ensure system reliability.
________________ are achieved through various efficiency measures and technology upgrades.
________________ ensure that systems meet safety standards.
________________ distributes electrical loads evenly to prevent overloads.
________________ evaluate how effectively energy is used in systems and processes.
________________ involves creating detailed plans for electrical systems.
________________ manage the delivery of electricity from generation points to consumers.
________________ outlines the steps and resources needed for successful project execution.
________________ helps balance electricity supply and consumption.
Meeting ________________ ensures that all installations are safe and compliant.
________________ involves setting up and optimizing electrical systems for performance.
Implementing ________________ reduces waste and lowers operating costs.
________________ checks the integrity and performance of electrical circuits.
________________ involves organizing tasks and resources for smooth project execution.
________________ provides real-time data on system performance and health.
Establishing ________________ helps prevent accidents and injuries.
________________ track and analyze energy usage to improve efficiency.
________________ manage the delivery of electricity from generation to consumption points.
________________ ensures that all aspects of electrical construction are properly executed.
________________ includes turbines and generators used to produce electricity.
________________ includes all records and plans related to the building project.
________________ measures and ensures the proper voltage levels in systems.
________________ include various sources used for power generation.
________________ detail the requirements and standards for electrical systems.
________________ identifies potential risks and develops strategies to address them.
________________ is used to carry electricity over long distances.
________________ evaluates the current state and needs of the power system.
________________ aims to reduce waste and improve efficiency in energy consumption.
________________ ensures that construction work meets required standards and specifications.
________________ evaluates the efficiency and reliability of electrical systems.
________________ involves regular servicing to keep the electrical system in good working order.
An ________________ involves designing and implementing electrical systems for various applications.