Industry : Oil & Gas/ Petrochemical/ Fertilizer Only Design Engineering profiles are accepted; Onsite/Field profiles are not considered. Responsibilities: 1. Lead and oversee Basic & Detail Piping design engineering activities for projects. 2. Develop piping layouts, isometrics, and general arrangements ensuring compliance with project specifications, Piping materials, Codes, and standards. 3. Perform piping stress analysis using tools like Caesar II to validate design integrity and optimize piping systems. 4. Review and approve Statutory approval drawings/documentation for piping systems. 5. Provide guidance and technical expertise in piping design, material selection, and installation methods. 6. Coordinate with other Engineering disciplines to integrate piping designs into overall plant design. 7. Mentor and train junior engineers and designers in piping design principles, Codes, and standards. 8. Collaborate with vendors, contractors, and suppliers to ensure quality and timely delivery of piping components. 9. Utilize CAD tools such as E3D, SP3D/PDMS, PDS, MicroStation, and AutoCAD for modeling, analysis, and design work. 10. Participate in project meetings, design reviews, and coordination activities with project stakeholders. 11. Ensure adherence to project schedules, budgets, and quality standards for piping design deliverables. 12. Conduct technical evaluations, feasibility studies, and risk assessments for piping systems. 13. Support site activities, inspections, and troubleshooting related to piping installations as needed. Additional Skills: 1. Proficiency in Piping materials, Codes, and standards relevant to the industry. 2. Strong knowledge of Statutory approval drawings/documentation processes. 3. Experience in piping stress analysis using tools like Caesar II. 4. Leadership skills with the ability to guide and train a team of engineers and designers. 5. Excellent communication, teamwork, and collaboration abilities. 6. Analytical mindset with problem-solving skills and attention to detail. 7. Adaptability and willingness to learn and apply new technologies and methodologies in piping engineering. 8. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Qualification: Bachelor's degree in Civil Engineering (B.E/B.Tech) or equivalent. Experience: 10+ years of industry experience in Civil & Structural engineering roles. Software Proficiency: Expertise in STAAD, MAT 3D, and Tekla software for civil engineering projects. Responsibilities: 1. Utilize your extensive industry experience to obtain and assimilate relevant design input from the Lead Engineer and other project stakeholders. 2. Incorporate design input into deliverables, ensuring compliance with applicable codes and standards. 3. Prepare design deliverables with meticulous attention to relevant codes and standards, utilizing STAAD, MAT 3D, and Tekla software. 4. Coordinate promptly with other engineering disciplines and engage in vendor interactions as required. 5. Thoroughly check and review all documents and drawings before releasing them at any revision status. 6. Prepare and check deliverables in accordance with the quality plan and ensure adherence to project schedules. 7. Assist the Lead Engineer in work planning, progress monitoring, and ensuring timely completion of engineering documents. 8. Collaborate effectively with cross-functional teams to ensure smooth project coordination. 9. Adhere to project schedules and contribute to the successful completion of assigned engineering tasks. Additional Skills: 1. Industry experience in the Fertilizer, Petrochemical, or Oil and Gas plants sector. 2. Familiarity with relevant codes and standards applicable to civil engineering design. 3. Effective coordination and communication skills to work closely with other engineering disciplines and vendors. 4. Attention to detail and commitment to thoroughly checking and reviewing documents and drawings. 5. Ability to prepare and check deliverables according to the quality plan and adhere to project schedules. 6. Strong work planning and progress monitoring skills. 7. Continuous improvement mindset and willingness to contribute to process enhancements. 8. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Responsibilities: 1. Lead the Mechanical Department to deliver projects according to schedule and quality standards. 2. Proficient in ASME codes and API / TEMA standards for static equipment such as Pressure vessels, Columns, Storage tanks, Exchangers. 3. Conduct design calculations and review Mechanical Data sheets/specifications. 4. Prepare Material Requisitions (MR), Technical Bid Evaluations (TBE), and Purchase specifications. 5. Develop and oversee welding procedures specifications. 6. Review and approve vendor drawings, TPI reports, and coordinate with vendors and other disciplines. 7. Provide training and support to the team, collaborate with management, participate in vendor meetings, and address site queries as needed. 8. Hands-on experience with PV-Elite, Ansys, Finite Element Analysis (FEA), 3D model review software, and AutoCAD. Additional Skills: 1. Strong leadership and team management abilities. 2. Effective communication and interpersonal skills for coordinating with internal teams, vendors, and clients. 3. Problem-solving skills to address technical challenges and optimize project outcomes. 4. Project management experience or knowledge to oversee project schedules, budgets, and resources. 5. Familiarity with industry-specific software and tools beyond the mentioned ones, such as SolidWorks, CATIA, or CREO. 6. Knowledge of industry trends, best practices, and emerging technologies in mechanical engineering. 7. Experience in conducting failure analysis, risk assessment, and reliability engineering. 8. Regulatory compliance knowledge related to safety, environmental, and quality standards. 9. Strong attention to detail and ability to ensure accuracy in engineering designs and documentation. 10. Continuous learning mindset to stay updated with advancements in mechanical engineering practices. 11. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Qualification: B.E / B.Tech. (Electrical Engineering) Experience Level: 10+ years in Industry experience (Fertilizer/Petrochemical/oil and gas plants) Software Proficiency: Proficient in ETAP, Dialux, AutoCAD, and E3D for design and analysis purposes Responsibilities: 1. Prepare and review electrical load lists for projects. 2. Utilize knowledge and experience in ETAP, Dialux, AutoCAD, and E3D for design and analysis purposes. 3. Design protection schemes, single-line diagrams, and substation layouts in compliance with industry standards. 4. Develop plant area layouts including cable trench/tray routing, earthing, and lighting systems. 5. Conduct lighting illumination calculations using AGI 32 and Luxicon, providing guidance on lighting schemes and controls. 6. Estimate materials for power, lighting, and earthing systems and prepare material take-off documents. 7. Prepare purchase requisitions, data sheets, and technical bid evaluation reports. 8. Review vendor documents and provide input as necessary. 9. Guide designers in 3D modeling and 2D drafting, ensuring coordination with other engineering disciplines. 10. Utilize 2D CAD tools like AutoCAD and MicroStation, along with 3D model review software such as SPR and Navisworks. 11. Ensure all design deliverables comply with applicable codes and standards. 12. Coordinate effectively with other engineering disciplines for project integration. 13. Conduct thorough checking and review of all electrical documents and drawings before release. 14. Assist in work planning, progress monitoring, and adherence to scheduled completion of engineering documents. 15. Collaborate with the Lead Engineer and contribute to departmental functions as needed. Additional Skills: 1. Expertise in designing electrical systems, including power distribution, lighting, control systems, and equipment specifications, while adhering to industry standards and codes. 2. Knowledge of energy-efficient design principles, renewable energy technologies, and sustainability practices to optimize energy usage and reduce environmental impact. 3. Ability to conduct risk assessments, implement safety measures, and ensure compliance with electrical safety standards, regulations, and codes. 4. Strong communication skills to interact with clients, contractors, and stakeholders, as well as collaborate effectively with cross-functional teams and vendors. 5. Proficient in diagnosing and resolving electrical system issues, conducting root cause analysis, and implementing corrective actions to improve system performance. 6. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
JOB DESCRIPTION: Qualification: B.E/B.Tech. or M.E/M.Tech. in Mechanical Engineering. Experience: 3 to 8 years in Industry experience (Fertilizer/Petrochemical/oil and gas plants). Software Proficiency: Working knowledge of CAD tools such as E3D, SP3D/PDMS, PDS, MicroStation, and AutoCAD. Responsibilities: 1. Lead and oversee Basic & Detail Piping design engineering activities for projects. 2. Develop piping layouts, isometrics, and general arrangements adhering to project specifications and industry standards. 3. Ensure compliance with Piping materials, Codes, and standards in all design and engineering activities. 4. Perform piping stress analysis using tools like Caesar II to validate design integrity and reliability. 5. Prepare and review Statutory approval drawings/documentation for piping systems. 6. Guide and mentor junior engineers and designers in piping design principles and best practices. 7. Collaborate with other Engineering disciplines to integrate piping designs into overall plant design. 8. Review and approve vendor drawings, technical specifications, and documentation related to piping components. 9. Conduct technical reviews, design audits, and participate in design optimization efforts. 10. Utilize CAD tools such as E3D, SP3D/PDMS, PDS, MicroStation, and AutoCAD for modeling, analysis, and design work. 11. Participate in project meetings, design reviews, and coordination activities with project stakeholders. 12. Ensure adherence to project schedules, budgets, and quality standards for piping design deliverables. 13. Support site activities, inspections, and troubleshooting related to piping installations as needed. Additional Skills: 1. Proficiency in Piping materials, Codes, and standards relevant to the industry. 2. Strong knowledge of Statutory approval drawings/documentation processes. 3. Experience in piping stress analysis using tools like Caesar II. 4. Leadership skills with the ability to guide and train junior engineers and designers. 5. Excellent communication, teamwork, and collaboration abilities. 6. Analytical mindset with problem-solving skills and attention to detail. 7. Adaptability and willingness to learn and apply new technologies and methodologies in piping engineering. 8. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Qualification: B.E / B.Tech. (Mechanical Engineering), or M.E / M.Tech. Experience: 10 to 15 years in experience in Engineering, EPC/EPCM projects (Fertilizer/Petrochemical/oil and gas plants) Software Proficiency: Proficient in PV-Elite, Ansys, Finite Element Analysis (FEA), 3D model review software, and AutoCAD. Responsibilities: 1. Lead the Mechanical Department to deliver projects according to schedule and quality standards. 2. Proficient in working with international standards (ASME, EN, API, IEC, PED, etc.) 3. ASME codes and API / TEMA standards for static equipment such as Pressure vessels, Columns, Storage tanks, Exchangers. Review and design pressure vessels, tanks, columns, and exchangers Validate design calculations per ASME Sec VIII, EN 13445, TEMA, API 650 etc 6. Conduct design calculations and review Mechanical Data sheets/specifications. 7. Prepare Mechanical data sheets, Material Requisitions (MR), Technical Bid Evaluations (TBE) and Purchase specifications. Development of each package through Kick-off meetings, Design Reviews, FAT s etc. Project manage Suppliers to ensure packages are designed, manufactured and tested as per project requirements Interfacing with clients, vendors, client project management and other disciplines ensuring the highest level of service is provided Delivery of agreed design scope within budget hours and schedule Knowledge of NDT requirement, code stamping and WPS /PQR. Working Knowledge of FEA using software like ANSYS, Nozzle Pro etc (a plus). Working knowledge of wind and seismic analysis using various National and International codes, standards and case studies. 15. Review and approve vendor drawings, TPI reports, and coordinate with vendors and other disciplines. 16. Provide training and support to the team, collaborate with management, participate in vendor meetings, and address site queries as needed. 17. Hands-on experience with PV-Elite, Ansys, Finite Element Analysis (FEA), 3D model review software, and AutoCAD. Additional Skills: 1. Strong leadership and team management abilities. 2. Effective communication and interpersonal skills for coordinating with internal teams, vendors, and clients. 3. Problem-solving skills to address technical challenges and optimize project outcomes. 4. Project management experience or knowledge to oversee project schedules, budgets, and resources. 5. Experience in material selection per process requirements in compliance with various national and international codes and standards Expertise in software used in the design of pressure vessels such as DISASU, PVElite and/or COMPRESS. 7. Familiarity with industry-specific software and tools beyond the mentioned ones, such as SolidWorks, CATIA, or CREO. 8. Knowledge of industry trends, best practices, and emerging technologies in mechanical engineering. 9. Experience in conducting failure analysis, risk assessment, and reliability engineering. 10. Regulatory compliance knowledge related to safety, environmental, and quality standards. 11. Strong attention to detail and ability to ensure accuracy in engineering designs and documentation. 12. Continuous learning mindset to stay updated with advancements in mechanical engineering practices. 13. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Industry : Oil & Gas/ Petrochemical/ Fertilizer Only Design Engineering profiles are accepted; Onsite/Field profiles are not considered. Responsibilities: 1. Lead and oversee Basic & Detail Piping design engineering activities for projects. 2. Develop piping layouts, isometrics, and general arrangements ensuring compliance with project specifications, Piping materials, Codes, and standards. 3. Perform piping stress analysis using tools like Caesar II to validate design integrity and optimize piping systems. 4. Review and approve Statutory approval drawings/documentation for piping systems. 5. Provide guidance and technical expertise in piping design, material selection, and installation methods. 6. Coordinate with other Engineering disciplines to integrate piping designs into overall plant design. 7. Mentor and train junior engineers and designers in piping design principles, Codes, and standards. 8. Collaborate with vendors, contractors, and suppliers to ensure quality and timely delivery of piping components. 9. Utilize CAD tools such as E3D, SP3D/PDMS, PDS, MicroStation, and AutoCAD for modeling, analysis, and design work. 10. Participate in project meetings, design reviews, and coordination activities with project stakeholders. 11. Ensure adherence to project schedules, budgets, and quality standards for piping design deliverables. 12. Conduct technical evaluations, feasibility studies, and risk assessments for piping systems. 13. Support site activities, inspections, and troubleshooting related to piping installations as needed. Additional Skills: 1. Proficiency in Piping materials, Codes, and standards relevant to the industry. 2. Strong knowledge of Statutory approval drawings/documentation processes. 3. Experience in piping stress analysis using tools like Caesar II. 4. Leadership skills with the ability to guide and train a team of engineers and designers. 5. Excellent communication, teamwork, and collaboration abilities. 6. Analytical mindset with problem-solving skills and attention to detail. 7. Adaptability and willingness to learn and apply new technologies and methodologies in piping engineering. 8. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Erection, Commissioning, QA & QC
Role & responsibilities Candidate having B Tech In Electrical and Electronics Engineering , 6 -10 years Experience in Projects -Installation and Commission of Electrical Equipment in Petrochemical, Oil and Gas, Chemical , Fertilizer / Power plant Projects including Project Quality Documentation Fixed term role for 6 months Please send profiles to lalitha.ch@iconsengg.com It is an Urgent requirement Preferred candidate profile Ready to join
Role & responsibilities Prepare and review Electrical Load Lists, design protection schemes, single line diagrams, and substation layouts, Develop plant area layouts Conduct lighting illumination calculations using AG32 and Luxicon, providing guidance on lighting schemes and controls Estimating materials for power, lighting and earthing systems, prepare material take-off documents Guide designers in 3D modelling and 2D drafting Ensure design deliverables comply with applicable codes and standards Conduct thorough checking of all electrical documents and drawings before release Review vendor documents and provide input as necessary Preferred candidate profile Expertise in designing electrical systems - power distribution, lighting, control systems and equipment specifications while adhering to industry standards and codes Ability to conduct risk assessments, implement safety measures, ensure compliance with electrical standards and regulations Dignosing and resolving electrical issues, Root cause analysis and implement corrective actions familiarity with QHSE Please send your cvs to lalitha.ch@iconsengg.com
Roles and Responsibility Design, develop, and implement instrumentation and control systems for various projects. Collaborate with cross-functional teams to ensure successful project execution. Conduct site visits to troubleshoot and resolve technical issues related to instrumentation and control systems. Develop and maintain technical documentation for instrumentation and control systems. Ensure compliance with industry standards and regulations. Provide technical support and training to junior engineers and technicians. Job Requirements Proficient in CAD tools such as AutoCAD, SPI-INTOOLS, AVEVA - E3D, and 3D Model review software. Strong understanding of instrumentation engineering principles and practices. Excellent problem-solving skills and attention to detail. Ability to work effectively in a team environment. Effective communication and interpersonal skills. Bachelor's degree in Instrumentation Engineering or a related field. Disclaimer: This job description has been sourced from a public domain and may have been modified by Naukri.com to improve clarity for our users. We encourage job seekers to verify all details directly with the employer via their official channels before applying The job location mentioned in this description is based on publicly available information or company headquarters. Candidates are advised to verify the exact job location directly with the employer before applying.
Responsibilities: 1. Lead and oversee the design, implementation, and maintenance of instrumentation and control systems in industrial plants. 2. Develop and review technical specifications, drawings, and documentation for instrumentation and control systems, ensuring compliance with industry standards and project requirements. 3. Conduct detailed engineering calculations and analyses for instrument sizing, control valve selection, DCS configuration, and safety instrumented systems. 4. Collaborate with cross-functional teams, including process engineers, electrical engineers, and project managers, to ensure seamless integration of instrumentation systems with overall project objectives. 5. Provide technical guidance and mentorship to junior engineers and technicians, ensuring the development of their skills and expertise in instrumentation and control engineering. 6. Participate in vendor evaluations, selection, and coordination for instrumentation components and systems. 7. Perform troubleshooting and root cause analysis for instrumentation and control system issues, implementing corrective and preventive actions as required. 8. Ensure adherence to quality, safety, and regulatory requirements in all instrumentation and control engineering activities. Additional Skills: 1. Extensive knowledge and experience in instrumentation engineering, including instrumentation design, control systems, PLC/DCS programming, and safety instrumented systems (SIS). 2. Proficiency in engineering software and tools such as AutoCAD, SPI-INTOOLS, AVEVA - E3D, DCS systems (e.g., Honeywell, Emerson), and SCADA systems. 3. Strong analytical and problem-solving skills, with the ability to analyze complex technical issues and propose effective solutions. 4. Excellent communication and interpersonal skills, with the ability to collaborate effectively with internal teams, clients, and vendors. 5. Leadership and project management skills, with the ability to lead projects, manage resources, and deliver results within project timelines and budgets. 6. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Responsibilities: 1. Lead and oversee Basic & Detail Piping design engineering activities for projects. 2. Manage a team of Inhouse engineers comprising of Materials, Layout, Stress analysis , CAD designers to deliver the piping engineering of the projects. 3. Manage Piping engineering works subcontracted to third party engineering agencies as and when required. 4. Optimization of layouts and materials to reduce CAPEX. 5. Integrate Best HSE Practices in the Piping design of plants and associated facilities. 6. Review of Client project design basis, applicable codes and standards, local regulations and incorporate the same in piping design basis 7. Develop Piping design basis, piping layouts, study and analysis of client plot plan , isometrics, and general arrangements ensuring compliance with project specifications, Piping materials, Codes, and standards. 8. Perform piping stress analysis using tools like Caesar II to validate design integrity and optimize piping systems. 9. Provide guidance and technical expertise in piping design, material selection, and installation methods. 10. Through knowledge of 3D modelling processes, tools, and procedures. Should be able to guide the modelers for preparation of 3D models 11. Coordinate with other Engineering disciplines to integrate piping designs into overall plant design. 12. Define Activities and Piping Deliverables, set up schedule and co-ordinate activities with other disciplines during BID phase, FEED Phase and Detail Engineering Phase as per the requirements of Contract. 13. Manage a team of engineers/designers; define piping deliverables; conduct material take-offs and technical bid evaluations. 14. Should be a Team Leader/player and effectively Manage Team of Engineers/Designers/Draftsman. 15. Manage Piping Material Take off, Specification, Material requisition, Technical Bid Evaluation for procurement and vendor follow up. 16. Guarantee proper Work flow, interfaces, quality checks and approval of piping project documents. 17. Conform Piping Efficient working, Project Progress, monitor and control man-hour budget. 18. Support project effort with identification of changes to the contract scope 19. Collaborate with vendors, contractors, and suppliers to ensure quality and timely delivery of piping components. 20. Participate in client, PMC, Engineering sub-contractor, vendors, and other internal and external stake holders meetings. 21. Further develop and strengthen Piping department to meet business objectives. 22. Support site activities, inspections, and troubleshooting related to piping installations as needed. Additional Skills: 1. Proficiency in Piping materials, Codes, and standards relevant to the industry. 2. Strong knowledge of Statutory approval drawings/documentation processes. 3. Experience in piping stress analysis using tools like Caesar II. 4. Leadership skills with the ability to guide and train a team of engineers and designers. 5. Excellent communication, teamwork, and collaboration abilities. 6. Analytical mindset with problem-solving skills and attention to detail. 7. Adaptability and willingness to learn and apply new technologies and methodologies in piping engineering. 8. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Responsibilities: 1. Lead and oversee Basic Detail Piping design engineering activities for projects. 2. Develop piping layouts, isometrics, and general arrangements adhering to project specifications and industry standards. 3. Ensure compliance with Piping materials, Codes, and standards in all design and engineering activities. 4. Perform piping stress analysis using tools like Caesar II to validate design integrity and reliability. 5. Prepare and review Statutory approval drawings/documentation for piping systems. 6. Guide and mentor junior engineers and designers in piping design principles and best practices. 7. Collaborate with other Engineering disciplines to integrate piping designs into overall plant design. 8. Review and approve vendor drawings, technical specifications, and documentation related to piping components. 9. Conduct technical reviews, design audits, and participate in design optimization efforts. 10. Utilize CAD tools such as E3D, SP3D/PDMS, PDS, MicroStation, and AutoCAD for modeling, analysis, and design work. 11. Participate in project meetings, design reviews, and coordination activities with project stakeholders. 12. Ensure adherence to project schedules, budgets, and quality standards for piping design deliverables. 13. Support site activities, inspections, and troubleshooting related to piping installations as needed. Additional Skills: 1. Proficiency in Piping materials, Codes, and standards relevant to the industry. 2. Strong knowledge of Statutory approval drawings/documentation processes. 3. Experience in piping stress analysis using tools like Caesar II. 4. Leadership skills with the ability to guide and train junior engineers and designers. 5. Excellent communication, teamwork, and collaboration abilities. 6. Analytical mindset with problem-solving skills and attention to detail. 7. Adaptability and willingness to learn and apply new technologies and methodologies in piping engineering. 8. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Responsibilities: Lead the Mechanical Department to deliver projects according to schedule and quality standards. Proficient in working with international standards (ASME, EN, API, IEC, PED, etc.) ASME codes and API / TEMA standards for static equipment such as Pressure vessels, Columns, Storage tanks, Exchangers. Review and design pressure vessels, tanks, columns, and exchangers Validate design calculations per ASME Sec VIII, EN 13445, TEMA, API 650 etc Conduct design calculations and review Mechanical Data sheets/specifications. Prepare Mechanical data sheets, Material Requisitions (MR), Technical Bid Evaluations (TBE) and Purchase specifications. Development of each package through Kick-off meetings, Design Reviews, FAT s etc. Project manage Suppliers to ensure packages are designed, manufactured and tested as per project requirements Interfacing with clients, vendors, client project management and other disciplines ensuring the highest level of service is provided Delivery of agreed design scope within budget hours and schedule Knowledge of NDT requirement, code stamping and WPS /PQR. Working Knowledge of FEA using software like ANSYS, Nozzle Pro etc (a plus). Working knowledge of wind and seismic analysis using various National and International codes, standards and case studies. Review and approve vendor drawings, TPI reports, and coordinate with vendors and other disciplines. Provide training and support to the team, collaborate with management, participate in vendor meetings, and address site queries as needed. Hands-on experience with PV-Elite, Ansys, Finite Element Analysis (FEA), 3D model review software, and AutoCAD. Additional Skills: Strong leadership and team management abilities. Effective communication and interpersonal skills for coordinating with internal teams, vendors, and clients. Problem-solving skills to address technical challenges and optimize project outcomes. Project management experience or knowledge to oversee project schedules, budgets, and resources. Experience in material selection per process requirements in compliance with various national and international codes and standards Expertise in software used in the design of pressure vessels such as DISASU, PV Elite and/or COMPRESS. Familiarity with industry-specific software and tools beyond the mentioned ones, such as SolidWorks, CATIA, or CREO. Knowledge of industry trends, best practices, and emerging technologies in mechanical engineering. Experience in conducting failure analysis, risk assessment, and reliability engineering. Regulatory compliance knowledge related to safety, environmental, and quality standards. Strong attention to detail and ability to ensure accuracy in engineering designs and documentation. Continuous learning mindset to stay updated with advancements in mechanical engineering practices. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Responsibilities: 1. Prepare and review electrical load lists for projects. 2. Utilize knowledge and experience in ETAP, Dialux, AutoCAD, and E3D for design and analysis purposes. 3. Design protection schemes, single-line diagrams, and substation layouts in compliance with industry standards. 4. Develop plant area layouts including cable trench/tray routing, earthing, and lighting systems. 5. Conduct lighting illumination calculations using AGI 32 and Luxicon, providing guidance on lighting schemes and controls. 6. Estimate materials for power, lighting, and earthing systems and prepare material take-off documents. 7. Prepare purchase requisitions, data sheets, and technical bid evaluation reports. 8. Review vendor documents and provide input as necessary. 9. Guide designers in 3D modeling and 2D drafting, ensuring coordination with other engineering disciplines. 10. Utilize 2D CAD tools like AutoCAD and MicroStation, along with 3D model review software such as SPR and Navisworks. 11. Ensure all design deliverables comply with applicable codes and standards. 12. Coordinate effectively with other engineering disciplines for project integration. 13. Conduct thorough checking and review of all electrical documents and drawings before release. 14. Assist in work planning, progress monitoring, and adherence to scheduled completion of engineering documents. 15. Collaborate with the Lead Engineer and contribute to departmental functions as needed. Additional Skills: 1. Expertise in designing electrical systems, including power distribution, lighting, control systems, and equipment specifications, while adhering to industry standards and codes. 2. Knowledge of energy-efficient design principles, renewable energy technologies, and sustainability practices to optimize energy usage and reduce environmental impact. 3. Ability to conduct risk assessments, implement safety measures, and ensure compliance with electrical safety standards, regulations, and codes. 4. Strong communication skills to interact with clients, contractors, and stakeholders, as well as collaborate effectively with cross-functional teams and vendors. 5. Proficient in diagnosing and resolving electrical system issues, conducting root cause analysis, and implementing corrective actions to improve system performance. 6. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.
Responsibilities: 1. Prepare and review electrical load lists for projects. 2. Utilize knowledge and experience in ETAP, Dialux, AutoCAD, and E3D for design and analysis purposes. 3. Design protection schemes, single-line diagrams, and substation layouts in compliance with industry standards. 4. Develop plant area layouts including cable trench/tray routing, earthing, and lighting systems. 5. Conduct lighting illumination calculations using AGI 32 and Luxicon, providing guidance on lighting schemes and controls. 6. Estimate materials for power, lighting, and earthing systems and prepare material take-off documents. 7. Prepare purchase requisitions, data sheets, and technical bid evaluation reports. 8. Review vendor documents and provide input as necessary. 9. Guide designers in 3D modeling and 2D drafting, ensuring coordination with other engineering disciplines. 10. Utilize 2D CAD tools like AutoCAD and MicroStation, along with 3D model review software such as SPR and Navisworks. 11. Ensure all design deliverables comply with applicable codes and standards. 12. Coordinate effectively with other engineering disciplines for project integration. 13. Conduct thorough checking and review of all electrical documents and drawings before release. 14. Assist in work planning, progress monitoring, and adherence to scheduled completion of engineering documents. 15. Collaborate with the Lead Engineer and contribute to departmental functions as needed. Additional Skills: 1. Expertise in designing electrical systems, including power distribution, lighting, control systems, and equipment specifications, while adhering to industry standards and codes. 2. Knowledge of energy-efficient design principles, renewable energy technologies, and sustainability practices to optimize energy usage and reduce environmental impact. 3. Ability to conduct risk assessments, implement safety measures, and ensure compliance with electrical safety standards, regulations, and codes. 4. Strong communication skills to interact with clients, contractors, and stakeholders, as well as collaborate effectively with cross-functional teams and vendors. 5. Proficient in diagnosing and resolving electrical system issues, conducting root cause analysis, and implementing corrective actions to improve system performance. 6. Familiarity with Quality, Environmental, Health, and Safety (QEHS) standards and regulations is a plus.