We offer a comprehensive suite of engineering studies and services across multiple disciplines, utilizing advanced software tools and proven methodologies. Our solutions are designed to support everything from detailed electrical analysis and real-time simulation to full-scale network control systems.
We employ the latest engineering software and technologies to ensure reliable, scalable, and future-ready designs.
Our team performs rigorous studies tailored to your project’s unique needs, helping mitigate risks and maximize success.
Driven by innovation, we craft intelligent engineering strategies that deliver measurable results and operational efficiency.
We specialize in complex engineering calculations that prioritize accuracy, compliance, and performance.
From concept development through project completion, we provide strategic guidance and technical insights to streamline execution and ensure project success.
We conduct comprehensive site assessments and generate professional reports for Electrical, Process, Piping, Mechanical, HVDC, HVAC, and Instrumentation scopes.
Our team is experienced in handling small to medium-scale brownfield projects, delivering reliable upgrades and system integrations with minimal disruption.
Electrical & Instrumentation (E&I)
Mechanical and Piping Design
High Voltage Direct Current (HVDC)
Heating, Ventilation, and Air Conditioning (HVAC)
Relay coordination studies are essential for ensuring selective and reliable protection in electrical power systems. Using advanced ETAP software, we analyze and optimize the sequence and settings of protective relays to achieve rapid fault isolation, minimize equipment damage, and enhance system reliability.
Enhanced reliability, improved personnel and equipment safety, reduced outage durations, and efficient maintenance planning. Relay coordination studies are a foundational aspect of electrical system engineering, supporting safe, stable, and reliable operation in all environments.
Short circuit analysis is a critical electrical engineering study conducted to assess system behavior and safety during fault conditions. Using advanced tools like ETAP, we identify maximum and minimum fault currents at various points in the electrical system under different operating scenarios.
Short circuit analysis is essential for designing safe, robust, and reliable electrical networks, helping maintain operational stability and regulatory compliance.
Load flow (power flow) analysis is fundamental for evaluating the performance, stability, and efficiency of electrical power systems. We perform comprehensive load flow studies using advanced simulation tools to determine how electrical power is distributed and utilized across the network under various operating conditions.
Effective load flow analysis improves system efficiency, reduces operational costs, and guarantees stable voltage levels for uninterrupted operation.
Arc flash studies safeguard personnel and equipment by assessing and mitigating electrical hazards. These studies comply with global safety standards, focusing on preventing injuries, equipment damage, and downtime.
Through arc flash studies protect lives and assets while supporting operational reliability and legal compliance in all electrical environments.
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HOMER is a leading software for designing and optimizing hybrid renewable energy systems. It allows engineers and planners to evaluate combinations of solar, wind, diesel generators, and storage, helping identify the most cost-effective and reliable setups.
I-HOGA specializes in hybrid renewable energy design and analysis, particularly for systems combining solar, wind, and battery storage. It uses advanced algorithms to find optimal sizing and operational strategies.
DigSilent PowerFactory is a comprehensive tool for analyzing, planning, and optimizing power systems. It’s widely used for transmission and distribution studies, offering precise simulations for network reliability and efficiency.
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We leverage cutting-edge real-time simulation platforms to replicate the behavior of complex electrical and mechanical systems under realistic operating conditions. Our advanced simulators — Opal-RT OP4510, OP4520, OP8662, along with PV Emulator, Wind (PMSM, DFIG) Emulator, Battery Inverter Emulator, and Grid Simulator — empower engineers and researchers to:
This capability ensures safe, efficient, and cost-effective testing for power grids, renewable energy systems, and advanced control applications.
Before committing to hardware, we bring ideas to life through control logic prototyping — designing, validating, and refining control algorithms in a virtual environment.
Using the DSpace ACE Microlab Box (1302T), we can:
This approach ensures that when your control system goes live, it performs exactly as intended — with maximum reliability and efficiency.
Modern control systems must communicate and coordinate seamlessly across networks. Our test bench capabilities include:
These capabilities enable integrated, intelligent, and resilient control solutions that adapt to changing operational demands in industrial automation, energy management, and smart grid applications.
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We specialize in High Voltage Direct Current (HVDC) tower design using PLS-CADD — the industry-standard software for transmission line engineering.
To protect water infrastructure from damaging pressure surges, we use Bentley Hammer software for precision surge analysis.
For industrial steam and hot water networks, we perform stress analysis using CAESAR II — a global leader in piping system evaluation.
We conduct advanced Computational Fluid Dynamics (CFD) analysis using ANSYS Fluent, COMSOL Multiphysics, and OpenFOAM to optimize fluid flow in complex systems.
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Our AI solutions are designed to mimic human intelligence—enabling systems to learn, reason, understand language, and make data-driven decisions. Using technologies like Machine Learning (ML), Natural Language Processing (NLP), Computer Vision, and Robotics, we develop intelligent tools tailored for diverse industries.
When AI’s cognitive capabilities combine with automation’s execution power, the result is Intelligent Automation (IA)—systems that not only perform tasks but also learn, adapt, and optimize over time.
| Category | Top Tools | Use Case Example |
|---|---|---|
| Content Generation | ChatGPT, Jasper, Claude | Marketing & documentation |
| Business Automation | UiPath, Power Automate, Moversworks | Workflow automation |
| Conversational AI | ChatGPT, Claude, Moversworks | Smart chatbots |
| Project Management | Asana, Notion, ClickUp | Team collaboration |
| Customer Support | Moversworks, ChatGPT, Intercom, Help Scout | AI-driven support |
| HR Automation | Moversworks, Leena AI, Recru.AI | Onboarding & HR tasks |
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Our company delivers comprehensive Engineering, Procurement, Installation, and Commissioning (EPIC) solutions for the oil, gas, and utility sectors, backed by 10+ years of industry expertise.
→ 50+ OEM projects delivered with 99.7% on-time completion.
→ Turnkey solutions for critical infrastructure.
→ Integrated approach that reduces project timelines by up to 30%.
→ Full-spectrum EPIC services: Engineering, Procurement, Installation, and Commissioning (EPIC)
→ Real-time project management and transparent tracking.
→ Certified quality control processes exceeding industry standards.
→ Industry-leading safety protocols: zero LTI record for the past 5 years.
→ Expert teams for upstream, midstream, and downstream projects.
→ In-house fabrication and advanced testing facilities.
| Discipline | Capabilities |
|---|---|
| Electrical | Substation design up to 400kV, full power distribution systems, advanced SCADA integration. |
| Mechanical | Process piping, machinery installation, detailed 3D modeling, and simulation capabilities. |
| Instrumentation | Advanced control, real-time monitoring, predictive maintenance and optimization solutions. |
→ Integrated design reduces interface issues by 65%.
→ Ensures seamless coordination across all disciplines.
→ Integrated Technology Solutions: Seamless systems with enhanced interoperability.
→ HSE (Health, Safety, Environment) Excellence: Zero LTIs across 5 million work hours.
→ Project Efficiency: 30% reduction in project time, thanks to streamlined project management.
→ Single-Point Responsibility: One-stop accountability across all project phases—engineering to commissioning.
→ Structure content into “Capabilities,” “Disciplines,” and “Value Proposition” sections for clarity.
→ Use bullet points and tables for easy scanning.
→ Highlight strengths like safety record, project track record, and integrated methodology.
Dr. Nirmalendu Biswas is an Assistant Professor at Jadavpur University with over 10 years of experience in design, engineering, and R&D projects in the steel sector. He has a Ph.D. in Mechanical Engineering and has worked on a wide range of projects, from developing new steel alloys to optimizing manufacturing processes.
Dr. Bhimsen Tudu is an Associate Professor in Power Engineering with extensive experience in teaching, research, and industry. He has a Ph.D. in Engineering and has published 47 research papers. His expertise includes electrical system design and renewable energy projects.
Amitava Majumder is a seasoned engineer specializing in microprocessor-based instrumentation and control systems with 17 years of experience. He holds a Bachelor of Instrumentation Engineering and a PG Diploma in Management. His expertise includes specification preparation, tender evaluation, and vendor drawing review for major power and process plant projects.
