SgurrEnergy was originally established in Glasgow, UK in 2002 with an aim to excel in renewable energy consulting. The company with its in-depth expertise progressed exponentially in renewable energy and assessed over 160GW of projects worldwide. Furthermore, with huge growth and expansion, SgurrEnergy was incorporated in 2007 to provide technical advisory and engineering services for renewable projects globally.
Since its inception, SgurrEnergy has become one of the leading reputed renewable engineering consultancy offering 360° services over the complete project lifecycle. Our services are tailor-made to meet the requirements at any stage of the renewable energy project. With a team of more than 135 highly-qualified engineering and renewable expert, we bring a combined 1300 man-years of experience, making SgurrEnergy the largest and only purely renewable energy-focused consulting team across the globe providing feasibility studies, design and detailed engineering, construction management, O&M consulting, performance assessment and technical due diligence services for developers, investors & lenders and EPC contractors.
We are actively working on large-scale utility projects in India, Bangladesh, Sri Lanka, Afghanistan, the Kingdom of Saudi Arabia, Egypt, Vietnam, Philippines, South Africa, Ukraine, Jordan, Australia, the USA, and many more countries; the company is also rapidly expanding to the Far East, Africa, Americas, Middle East, and other Asian countries.
The roles and responsibilities essentially includes -
1. Technical Delivery & Expertise
Deliver high-quality steady-state and transient power system studies, including RMS and EMT (Electromagnetic Transient) modelling for renewable energy projects across feasibility, detailed design, grid connection, construction, and operational phases.
Perform a comprehensive range of studies, including but not limited to:
Load flow / power flow analysis (normal and N-1/N-2 contingency conditions)
Short circuit / fault level analysis (symmetrical and asymmetrical faults)
Protection coordination and relay setting studies (overcurrent, distance, differential, directional, etc.)
Arc flash hazard analysis and grounding / earthing studies
Power quality studies (harmonics distortion, voltage flicker, voltage fluctuations, THD assessment)
Grid compliance and grid interconnection / evacuation studies
Contingency analysis (static and dynamic)
Insulation coordination studies (switching and lightning surges)
Stability studies, including transient stability, dynamic stability, small-signal stability, and voltage stability
Low Voltage Ride Through (LVRT), High Voltage Ride Through (HVRT), frequency ride-through, and active power recovery studies for renewable plants
Cable ampacity, thermal rating, and reactive power compensation / voltage control studies
Sub-synchronous oscillations / control interactions (SSO/SSCI) studies where relevant
Ramp rate control, frequency response, and inertial response studies for inverter-based resources
Develop, validate, and maintain detailed dynamic and EMT models for Solar PV inverters, Wind Turbines, BESS (grid-forming and grid-following controls), collector systems, and hybrid configurations, particularly in weak-grid (low SCR) and high-penetration scenarios.
Conduct or support manual engineering calculations for short circuit levels, transformer sizing, protection schemes, grounding design, lightning protection, CT/PT sizing, and reactive power requirements.
Review, interpret, and validate vendor-supplied documents, protection schemes, equipment specifications, and control settings for inverters, transformers, BESS, wind turbines, and FACTS devices (SVC, STATCOM, etc.).
Perform studies involving HVDC links and FACTS devices where integrated with renewable projects.
2. Tools, Modelling & Automation
Demonstrate advanced proficiency in modelling and simulating complex power systems using ETAP and DIgSILENT PowerFactory for steady-state, dynamic, and protection studies.
Show strong hands-on expertise with PSS/E (for dynamic and stability studies), PSCAD (for detailed EMT and transient studies), and EMTP (for insulation coordination and surge analysis).
Utilize DSL (DIgSILENT Simulation Language) and Python scripting for automation of parametric studies, batch processing, sensitivity analysis, custom model development, result post-processing, and automated reporting.
Update, maintain, and continuously improve study libraries, model templates, validation databases, and standard workflows in ETAP and DIgSILENT PowerFactory.
3. Compliance, Grid Codes & Standards
Ensure all studies fully comply with relevant grid codes, including Indian regulations (CEA Technical Standards for Connectivity, CERC/IEGC), Middle East and Africa grid codes, and international requirements (exposure to North America – NERC, IEEE 1547 – or Australia grid codes is an advantage).
Apply in-depth knowledge of international standards such as IEC, IEEE (including IEEE 519 for harmonics and IEEE 1547 for interconnection), IS, NEC, and other applicable norms for power quality, protection, insulation, and ride-through capabilities.
Demonstrate familiarity with harmonic measurements, relay settings, and advanced control interactions in modern inverter-dominated grids.
4. Quality Assurance & Reporting
Prepare clear, detailed, and client-ready technical reports, simulation results, sensitivity analyses, executive summaries, and presentations for clients, lenders, utilities, and regulatory submissions.
Contribute to internal QA/QC processes, modelling guidelines, and validation protocols to maintain the highest standards of technical excellence and consistency.
5. Collaboration & Knowledge Sharing
Collaborate closely with SgurrEnergy’s electrical design, renewable engineering, due diligence, and advisory teams to deliver integrated, lifecycle solutions for renewable energy projects.
Provide technical guidance and mentoring to junior engineers on modelling techniques, tool usage, automation, and grid code requirements.
Contribute to thought leadership through technical blogs, whitepapers, internal knowledge-sharing sessions, and presentations on renewable grid integration and power system studies.
6. Operational Responsibilities
Manage assigned project budgets, timelines, and deliverables effectively.
Travel domestically and internationally (approximately 15–25% of time) for site visits, measurement campaigns, model validation, or client meetings as required.
Support business development activities through technical inputs to proposals and client discussions.
Skill Set Required
In-depth technical expertise in steady-state, dynamic, and EMT analysis of inverter-based resources in modern power systems, especially weak grids and high renewable penetration scenarios.
Strong analytical, problem-solving, and modelling capabilities.
Excellent written and verbal communication skills (English essential) for producing high-quality technical documentation and presentations.
Ability to work independently on complex studies while collaborating effectively in a team environment.
Commercial awareness and ability to support business development.
Strong attention to detail and ability to deliver high-quality work under tight deadlines.
What We Offer
Opportunity to work on diverse, high-impact renewable energy projects across 55+ countries as a key technical specialist.
Competitive compensation package with performance incentives.
Professional development opportunities and a collaborative culture focused on technical excellence and innovation in grid integration.
Inclusive and supportive work environment based in Pune, with flexible policies where applicable.
