Total generation capacity assessed across gas turbine, biomass, CHP, and energy storage projects.
Target thermal efficiency achievable through optimised technology selection and system configuration.
Cumulative investment value studied with robust financial modelling and sensitivity analysis.
Power Generation
Feasibility Study
Power generation investments — from fuel switching and CHP systems to grid connections — require rigorous MW-scale feasibility assessment. Our engineers evaluate technology options, grid integration, and financial viability to ensure your power generation investment delivers reliable performance and optimal returns.
Feasibility Challenges
in Power Generation
Fuel transition, grid constraints, and capital intensity drive power generation feasibility needs.
Fuel Switching Evaluation
Transitioning from coal or oil to gas, hydrogen, or biomass requires comprehensive technology and economic assessment. We evaluate combustion compatibility, supply logistics, and capital requirements.
CHP System Feasibility
Combined heat and power offers significant efficiency gains but requires careful matching of thermal and electrical loads. We assess system sizing, integration, and financial viability.
Grid Connection Studies
Large-scale generation requires grid connection consent and infrastructure. We assess connection capacity, technical requirements, costs, and regulatory approval timelines.
Environmental Compliance
Power generation must meet Industrial Emissions Directive and local air quality requirements. We assess emissions profiles and required abatement technology.
Our 6-Step
Approach
A comprehensive feasibility methodology designed for MW-scale power generation investments.
Initial Consultation & Objective Setting
We conduct an in-depth kick-off meeting with your team to define project goals, technical constraints, regulatory requirements, and operational benchmarks.
Through structured workshops and stakeholder interviews, we establish clear objectives, success criteria, and key performance indicators. This ensures the feasibility study is precisely scoped to deliver actionable insights that align with your strategic priorities and capital planning timelines.
Data Collection & Analysis
We gather critical data through laboratory research, on-site measurements, process simulations, and controlled factory trials tailored to your specific operating conditions.
Our engineers deploy advanced analytical tools including Industrial Process Modelling, Pinch Analysis, CAE simulation, CFD studies, and statistically designed experiments. Each data source is cross-validated to build a robust evidence base that underpins all subsequent technical and commercial evaluations.
Technical Evaluation
We rigorously assess the technical viability of the proposed solution, evaluating materials, process compatibility, energy performance, and integration with existing plant infrastructure.
Our evaluation covers equipment sizing, heat and mass balance verification, control system requirements, and compliance with applicable standards and regulations. We identify potential technical risks early and propose engineered solutions, design alternatives, or phased approaches to mitigate them.
Commercial Evaluation
We evaluate capital expenditure, operating costs, market dynamics, and the competitive landscape to build a complete financial picture of the proposed project.
Our team delivers detailed cost-benefit analyses, payback period calculations, and ROI projections grounded in real equipment quotations and operational benchmarks. We also assess funding opportunities such as grants, subsidies, and energy savings certificates to maximise the financial case for investment.
Report & Recommendations
We compile a comprehensive engineering report presenting all findings, technical drawings, simulation results, and clearly prioritised recommendations.
The deliverable includes an executive summary for decision-makers, detailed technical appendices, a risk register with proposed mitigation strategies, and a ranked list of options with associated costs and benefits. This report serves as the definitive reference document for securing stakeholder buy-in and progressing to the next phase.
Implementation Planning
We develop a detailed implementation roadmap with phased milestones, resource allocation, procurement schedules, and commissioning timelines.
Our planning covers contractor coordination, permitting requirements, shutdown scheduling, and change management to ensure a smooth transition from study to execution. We remain available to support the project through procurement, installation supervision, and performance verification during commissioning.
What You
Receive
MW-scale feasibility deliverables for power generation investment decisions.
Technology Assessment
Comparative evaluation of generation technologies with performance projections and technology risk analysis.
Fuel Supply Study
Fuel availability, logistics, cost projections, and supply security assessment for proposed fuel sources.
Grid Connection Report
Technical assessment of grid capacity, connection options, infrastructure requirements, and associated costs.
CHP Sizing Study
Thermal and electrical load assessment with optimum CHP sizing, configuration, and operating strategy.
Financial Model
Revenue projections, operating costs, and investment appraisal with ROI analysis and sensitivity testing.
Implementation Plan
Project timeline covering design, procurement, construction, grid connection, and commissioning milestones.
Proven Results in
Power Generation
Based on feasibility studies across gas turbine, biomass, CHP, and energy storage projects.
Power Generation
Feasibility FAQ
Common questions about feasibility studies for power generation investments.
Ready to
Power Up?
Our power generation engineers evaluate your investment viability with MW-scale technical and financial feasibility analysis.
- Multi-factor viability assessment
- Power Generation-specific technical evaluation
- Detailed reporting with actionable recommendations