5 Ehv Design Jobs

Job Title: Electrical Design Engineer Substation (AIS/GIS) | Manager / Assistant Manager Location: Mumbai Experience: 5-15 years Qualification: B.E. / M.E. in Electrical Engineering Industry: EPC / Power / Transmission & Distribution Company: One of India's leading EPC organizations building infrastructure across the globe for T&D business. Job Description: We are hiring experienced Electrical Design Engineers with 515 years of hands-on expertise in AIS/GIS substation design (120kV to 765kV) for our T&D business in Mumbai. Key Responsibilities: Design & engineering of HV/EHV substations (AIS & GIS) Preparation of SLDs, layouts, BOMs, BOQs, and design calculations (earthing, lightning, battery sizing, short circuit forces, etc.) Vendor document review & client coordination Use of AutoCAD (mandatory); ETAP, CDEGS preferred Adherence to IEC/IEEE/ANSI standards Team guidance & project/tender design execution support Desired Candidate Profile: Strong command over substation design concepts, drawings, and calculations Proficient in AutoCAD; working knowledge of ETAP, CDEGS is a plus Excellent communication & coordination skills with clients/vendors Familiar with international design standards Apply Now: Send your resume to hr.07@tnmhr.com Contact: +91 96532 37931

Job Summary: Electrical Engineer experience on basic and detailed design and project co-ordination of Electrical works on EHV/HV Switchyard projects. Should have executed at least two, medium to large size EPC projects, as Electrical Lead in an engineering office or consultancy of repute. Has a good knowledge of Electrical System and Physical design, the principles, and practices of related technical areas and of coordinating with other technical disciplines. Candidate should have exposure to Indian, US, Euro and other foreign codes/standards and local practices. Major Responsibilities: Prepares or assists in preparation of conceptual studies, designs, reports or proposals, design criteria, specifications, budget and schedules for projects of varying complexity. Assist and provide guidance to engineers to perform conceptual design, System study and Equipment sizing, protection study, single line diagram, Metering and protection diagram, Cable sizing, earthingcalculations, protection coordination study. Assist and provide guidance to engineers/designer to perform detail design, layout, main cable route, A/G tray and underground layouts, lighting, earthing, cable schedule etc. Assist and provide guidance to engineers for MR/SR preparation, bid analysis and make recommendation. Reviews and checks work of subordinate engineers and provide input for their performance evaluation. Supports the creation of a work environment that fosters openness, trust, communication, teamwork, empowerment, innovation, and satisfaction. Education and Experience Requirements: A recognized bachelors/masters degree in electrical engineering, from an accredited college or university with an overall experience of minimum 18 years. Site experience will be an added advantage Required Knowledge and Skills: Possess a broad understanding of the major design engineering deliverables. Plans, schedules, conducts, and coordinates detailed phases of engineering work in a project or staff group. Extensive Knowledge of EHV/HV Switchyards, which includes design of Layouts, Single Line Diagrams, Protection & Metering diagrams, Control Panel Schematics. Electrical system studies and conversant with short circuit, load flow & voltage drop calculations, transient stability, AC Switching studies, relay setting & protection coordination of the system, EHV cable sizing, Grounding. Should have worked on equipment sizing, specifications, MR preparation, technical bid evaluation and vendor print reviews of various electrical equipment, CB/CT/PTs, SCADA, Transformers, MV & LV Switchgears, DC systems / AC UPS, Cables, etc. Sag tension, bus bar sizing, DSLP etc. Coordinates engineering effort in assigned areas between specialty and other engineering groups or disciplines, with the client, suppliers, and contractors and between other groups. Understanding of engineering planning and control methods including computerized methods. Understanding of the roles played by other departments on projects including basic construction practices and the economics involved. Understanding of industry or regulatory codes and standards and design criteria pertinent to the engineering discipline. Skill in oral and written communication and writing technical reports.

We are looking for a skilled and experienced Site Engineer with 45 years of hands-on experience in Extra High Voltage (EHV) power transmission line construction up to 400 kV. The ideal candidate should be capable of managing all on-site execution activities and coordination with clients and subcontractors. Key Responsibilities: Supervision of tower foundation, erection, and stringing works. Handle Right of Way (ROW) issues effectively with local authorities. Prepare and maintain daily progress reports (DPRs) and site documentation. Coordinate with clients, especially MSETCL and other stakeholders. Manage site labor, subcontractors , and oversee day-to-day activities. Ensure proper recording of measurements and preparation of subcontractor bills . Liaison with state utility companies for permits, inspections, and smooth project execution. Ensure adherence to project timelines and safety protocols. Required Skills Strong understanding of EHV transmission line construction practices. Proficient in preparing reports and coordinating with clients. Excellent skills in manpower handling and vendor management . Good communication skills in Marathi, Hindi, and English. Ability to work independently and handle site challenges efficiently. Eligibility Diploma or Degree in Civil/Electrical Engineering. 45 years of relevant field experience in transmission line projects. Preference will be given to candidates with experience in MSETCL projects .

Role & responsibilities Experience related to AIS & GIS sub-station up to 400kV is preferred. Experience related to auxiliary LVAC and LVDC system design Experience related to preparation of cable schedule Preparation of Single Line Diagram, Protection One line Diagram, Layout, earthing, lightning, lightning, cabling design calculations and drawings Preparation of Cabling layouts Design review of all equipment drawings including control schematics Design review of CRP scheme and substation automation system Design review of PLCC and FOTE system Having experience to prepare CT/PT sizing calculation Preferred candidate profile The ideal candidate should have extensive experience in the design and engineering of EHV substations at voltage levels above 200 kV, including AIS and GIS technologies. They must be well-versed in substation layout, primary and secondary equipment selection, busbar configurations, grounding systems, and protection and control schemes. Proficiency in EHV transmission line design, including route alignment, tower design, conductor selection, and insulation coordination, is essential. In case of any queries, please write to vikas.mishra@tractebel.engie.com

Due to ongoing expansion and increased demand for our services, the India office of SgurrEnergy is seeking to hire a Senior Manager - EHV Design and Engineering. The role necessitates excellent communication abilities and strong leadership and management skills. Reporting To: Director Qualification: BE./B. Tech in Electrical and ME/M.Tech in Power system studies Experience Level: Over 15 years Hiring Time Frame: Within 30 45 days Job description: The principal responsibilities essentially include: Design and Engineering: 1. System Design & Configuration: - System Studies: Conduct detailed system studies, including load flow, short circuit analysis, voltage drop calculations, reactive power compensation, and harmonic analysis to ensure the stability and reliability of the power system. - Configuration Layout: Design the overall configuration of the EHV substation, including the arrangement of transformers, busbars, circuit breakers, isolators, and other critical high-voltage components. - Redundancy & Reliability: Incorporate redundancy, protection, and fail-safe mechanisms in the design to enhance system reliability and minimize the risk of outages. 2. Detailed Electrical Design: - Single Line Diagrams (SLDs): Develop comprehensive single line diagrams that clearly define the electrical connections and arrangements of all major equipment in the substation. - Equipment Specification: Define the specifications for all major electrical equipment, including transformers, switchgear, reactors, and capacitors, ensuring compliance with project requirements and standards. - Cable Sizing & Routing: Calculate and select appropriate cable sizes based on current-carrying capacity, voltage drop, and thermal constraints. Design efficient cable routing plans that minimize interference and optimize installation. - Earthing & Bonding: Design an effective earthing and bonding system for the substation, ensuring personnel safety, equipment protection, and compliance with local regulations. 3. Primary Engineering: - High-Voltage Equipment Design: Design the layout and connections for high-voltage equipment such as power transformers, circuit breakers, disconnect switches, current and voltage transformers, and surge arresters. - Busbar Design: Design busbar systems with considerations for thermal performance, electrical stress, and mechanical stability. Ensure appropriate spacing, support, and insulation to prevent flashovers or mechanical failure. - Interconnection Schemes: Develop interconnection schemes for integrating multiple substations or tie-lines into the existing power grid. Design interfaces with existing infrastructure while ensuring minimal disruption. 4. Secondary Engineering: - Protection Systems: Design comprehensive protection schemes, including differential, distance, overcurrent, and earth fault protection, ensuring fast and reliable fault detection and isolation. - Control Systems: Design control logic and schemes for automation, including the operation of circuit breakers, isolators, and other switchgear. Ensure seamless integration with remote operation systems and SCADA. - Metering & Instrumentation: Specify and design the metering and instrumentation systems required for accurate monitoring and billing. Include current and voltage transformers, energy meters, and transducers. 5. Equipment Sizing & Selection: - Transformer Sizing: Calculate and select appropriate transformer ratings, considering factors such as load growth, fault levels, efficiency, and cooling requirements. - Switchgear Sizing: Determine the correct ratings for circuit breakers, switchgear, and other protective devices, ensuring they can safely interrupt fault currents without compromising system integrity. - Capacitor Bank & Reactor Design: Design and size capacitor banks for reactive power compensation and reactors for controlling over-voltages or for current limiting in the substation. 6. Integration with Renewable Energy Systems: - Grid-Tie Design: Design interfaces for the connection of utility-scale renewable energy systems (e.g., solar, wind) to the transmission grid, considering voltage levels, harmonics, and stability. - Inverter & Converter Coordination: Ensure proper coordination between EHV equipment and inverters or converters used in renewable energy systems. Address issues such as power factor correction, harmonics filtering, and synchronization. 7. Owners Engineering: - Technical Advisor: Act as the technical advisor to the project owner, providing expert guidance on all aspects of EHV substation and transmission line design, construction, and commissioning. - Design Validation: Review and approve design documents, drawings, and calculations provided by contractors or third-party consultants to ensure compliance with project specifications, industry standards, and best practices. 8. Equipment Design Review: - Technical Evaluation: Conduct a thorough technical evaluation of vendor proposals, including equipment specifications, performance data, and compliance with project requirements. Ensure that the selected vendors have a proven track record of delivering high-quality EHV equipment. - Specification Compliance: Review and validate equipment designs provided by vendors/OEMs to ensure they comply with the projects technical specifications, industry standards, and regulatory requirements. - Design Validation: Perform detailed design validations, including reviewing engineering drawings, schematics, and technical data sheets. Ensure that the equipment is appropriately designed for the specific operating conditions and load requirements of the project. - Material and Component Verification: Verify the materials and components specified by the vendor, ensuring they meet the required durability, reliability, and performance standards. Assess the suitability of materials for the specific environmental and operational conditions of the project site. 9. Compliance and Standards Adherence: - Industry Standards: Ensure that all designs comply with international and national standards such as IS, IEC, NEC, IEEE, ANSI, and regional grid codes. 10. Innovative Design Solutions: - Advanced Technologies: Stay abreast of emerging technologies in EHV systems, such as digital substations, gas-insulated switchgear (GIS), and advanced protection relays, and incorporate them into designs where applicable. - Cost Optimization: Develop designs that balance cost-efficiency with performance, exploring options such as modular construction, prefabricated substations, and standardized components. 11. Quality Assurance: - Design Reviews: Conduct rigorous design reviews and cross-discipline checks to identify and rectify any potential issues early in the design process. - Documentation: Prepare and maintain comprehensive design documentation, including technical reports, design calculations, and as-built drawings. 12. Coordination with Civil and Structural Design: - Foundation Design: Collaborate with civil engineers to design appropriate foundations for high-voltage equipment, considering factors such as weight, vibrations, and seismic conditions. - Structural Integration: Ensure that the structural design supports the electrical design, providing adequate clearances, accessibility, and safety measures. Selection process: Telephonic discussion: Preliminary round of discussion over a call by the company HR. Technical round: Technical round of discussion with the domain specialist in Pune/ Vadodara office, MS Teams may be preferred for outstation candidates. Director meeting: At Pune office before conclusion.