FEASIBILITY STUDY

Empowering Decisions with Data-Driven Engineering

What is a Feasibility Study in Electrical Network?

A Feasibility Study is a comprehensive technical and economic evaluation of a proposed electrical system, project, or upgrade. It determines whether the proposed solution is viable, cost-effective, compliant, and sustainable before capital is invested.

Whether you’re planning a new substation, expanding an industrial plant, integrating renewable energy, or switching to high-efficiency equipment—our Feasibility Studies help you avoid costly errors, streamline approvals, and ensure operational success.

Core Objectives

Evaluate technical feasibility of electrical solutions (load growth, capacity, technology)
Determine economic viability (CAPEX/OPEX analysis, ROI, payback period)
Recommend optimal system design and equipment specifications
Support project financing, tenders, and stakeholder decisions

Typical Study Scope

Segment	Evaluated Factors
Power Demand Forecasting	Load growth, seasonal variation, peak demand, future expansion
Equipment Sizing	Transformers, cables, switchgear, breakers, relays
Power Quality & Reliability	Voltage stability, harmonic distortion, fault level, outage risk
Grid Interconnection	fault level contributions

Technical Specifications

Parameter	Notes / Range
System Voltage Levels	LV (415V), MV (3.3kV–33kV), HV (66kV–220kV)
Peak Load Assessed	Up to 100 MW or more depending on client needs
Simulation Tools	ETAP Latest version
Standards Complied	IEEE, IEC, CEA, NFPA, ISO
Output Format	Technical Report, Executive Summary

Our Engineering Approach

1. Data Collection & Site Assessment
Load audit, equipment specs, operational constraints, expansion plans

2. Load Forecasting & Scenario Planning
Develop future load profiles and growth curves

3. System Modeling & Analysis
Use simulation tools ETAP to test different design options

4. Financial Feasibility
CAPEX, OPEX, LCOE, IRR, risk analysis & mitigation strategies

5. Design & Compliance Review
Check with standards like IEEE, CEA, and utility guidelines

6. Final Reporting & Recommendations
Clear go/no-go analysis with optimized system configuration