- ADMS Implementation: Delivering cutting-edge Advanced Distribution Management Systems (ADMS) for seamless control and monitoring of energy distribution networks.
- Data Migration: Ensuring smooth and efficient migration of critical data during system upgrades and transformations.
- System Integration: Harmonizing diverse systems to ensure interoperability and optimize operations.
- Network Controller Training: Equipping network controllers with essential skills through customized, hands-on training programs.
- SCADA Commissioning & BAU: Offering expert commissioning of SCADA systems and ongoing Business-As-Usual (BAU) support.
- ADMS Upgrades: Providing efficient upgrades to ensure your ADMS is always running with the latest technology and enhancements.
- GE PowerOn Consultancy: Delivering specialized consultancy for GE PowerOn to optimize system performance and reliability.
- OSI Consultancy: Offering expert OSI consultancy to help you get the most from your OSIsoft systems.
- ADMS Customized Training: Designing tailored training programs to enhance your team’s proficiency in managing and operating ADMS.
- Power Flow Analysis, Short Circuit Analysis, Stability STudies, Validation
Review and verify methodology for power system studies
- Power flow analysis: Using tools like PSS®E, PowerWorld, or ETAP to perform load flow analysis and check voltage stability, line loading, etc.
- Short-circuit analysis: To verify fault levels at different busbars and ensure protection system integrity.
- Stability studies: Transient and dynamic stability analyses (PSCAD or DIgSILENT PowerFactory).
- Validation: Cross-verifying study results through comparisons with historical data, benchmarks, and standards (e.g., IEEE, IEC).
Provide technical advice supported by analysis for policy decisions
- Scenario analysis: Simulate different policy scenarios and their impacts on grid operations or market dynamics using tools like Plexos, PROMOD, or MATLAB.
- Sensitivity analysis: Evaluate how sensitive the power system outcomes are to changes in key variables such as load growth, renewable integration, or grid reinforcements.
- Cost-benefit analysis: Assess economic implications of policy decisions by quantifying capital, operational, and social costs vs. benefits.
Apply engineering concepts to conceptualize solutions
- Grid reinforcement options: Evaluate different grid upgrade or expansion strategies (e.g., network topologies, transmission line upgrades, or distributed energy resources).
- Renewable energy integration: Apply forecasting, storage optimization, and control systems for renewable generation, ensuring system reliability and balance.
- Resilience and reliability assessment: Use N-1 contingency analysis and other methodologies to identify potential system weaknesses and conceptualize mitigation strategies.
Provide clear, well-reasoned policy products
- Clarity in communication: Develop infographics, dashboards, and decision trees that make complex technical issues easy to understand for non-technical stakeholders.
- Peer review and consultation: Engage with experts across disciplines to validate and refine policy recommendations.
- Executive summaries: Write concise summaries that distill technical details into key takeaways for decision-makers (e.g., Board of Directors).
Bring new ideas and knowledge to influence policy direction
- Research and innovation tracking: Stay informed of cutting-edge research, new technologies, and global best practices in power systems and energy markets.
- Pilot projects: Propose and oversee small-scale pilot projects to test the feasibility of new technologies or market mechanisms.
- Cross-sector insights: Leverage insights from other industries (e.g., telecommunications, automotive) that may have parallel challenges, especially with emerging technologies like EVs or AI-driven grid management.