Techno-Economic Analysis (TEA) Services

Quantitative Analysis · Risk Assessment · Publication Supports

Service Overview

Techno-Economic Analysis (TEA) is a systematic methodology for evaluating the economic feasibility of technology solutions by quantifying cost-benefit relationships to guide technical decisions and investment planning.

Professional TEA services backed by deep expertise in new energy & materials, plus 60+ research projects. Supporting top journal publications & project feasibility assessment.

Key Benefits

  • Investment Support: Quantified ROI & risk analysis
  • Technology Optimization: Compare economic performance of different routes
  • Cost Control: Identify cost drivers & optimization opportunities
  • Publication Support: Real-world feasibility assessment for research
Techno-Economic Analysis 技术经济分析模型 Professional · Accurate · Reliable Input Costs CAPEX OPEX Technology Process Route Parameters Output Revenue Product Value Market Revenue Key Economic Indicators NPV Net Present Value 净现值 IRR Internal Rate of Return 内部收益率 PBP Payback Period 投资回收期 SA Sensitivity Analysis 敏感性分析 60+ Cases

Analysis Framework

CAPEX

CAPEX Analysis

Initial investment assessment: equipment, installation & infrastructure costs.

OPEX

OPEX Analysis

Ongoing operational costs: materials, energy, labor & maintenance.

Revenue Model

Revenue analysis: pricing strategies, demand forecasting & sales optimization.

Risk Assessment

Risk analysis: market, technical, financial & regulatory risks with mitigation strategies.

Key Economic Indicators

Net Present Value (NPV)

Present value of net cash flows over project lifecycle

NPV = Σ(CFt / (1+r)^t) - C0

Internal Rate of Return (IRR)

Discount rate making NPV zero, reflecting profitability

Discount rate when NPV = 0

Payback Period (PBP)

Time to recover initial investment

Cumulative Cash Flow = Initial Investment

Return on Investment (ROI)

Investment efficiency measurement

ROI = (Returns - Costs) / Costs × 100%

Sensitivity Analysis

Impact of parameter changes on economics

∂NPV / ∂Parameter

Break-even Analysis

Production volume/price for break-even

Total Revenue = Total Costs

Service Process

1

Project Definition

Define scope, objectives & key assumptions

2

Data Collection

Gather technical data, costs & market parameters

3

Model Construction

Build comprehensive economic model

4

Baseline Analysis

Calculate baseline scenarios & key indicators

5

Sensitivity Analysis

Assess parameter sensitivity & uncertainty

6

Results Interpretation

Comprehensive analysis & recommendations

Deliverables

TEA Report

Comprehensive analysis report with methodology, assumptions & findings

Economic Model

Excel-based financial model with calculations & data inputs

Key Indicators

Critical economic metrics: NPV, IRR, PBP & ROI

Sensitivity Analysis

Risk assessment & parameter sensitivity with scenarios

Scenario Analysis

Multiple scenarios: optimistic, pessimistic & most likely

Investment Recommendations

Strategic guidance & actionable investment recommendations

Application Areas

Business Applications

  • Electrochemical Technologies: Water electrolysis, fuel cells, batteries, electrochemical synthesis
  • Plastic Technologies: Recycling, biodegradation, chemical degradation & treatment
  • Petrochemical Projects: Refining, production, catalyst development
  • Other Technologies: New energy, materials, biotechnology & multi-field applications

Technology Comparison

  • Route Selection: Compare costs, revenues & risks of different technology solutions
  • Equipment Selection: Evaluate prices, performance, maintenance & service life
  • Scale Optimization: Analyze unit costs, economies of scale & optimal project size
  • Supply Chain: Assess procurement, logistics, inventory & supplier economics

Academic Research Support

  • Research Data: Professional TEA data for academic papers
  • Feasibility Assessment: Evaluate practical application of experimental routes
  • Economic Analysis: Detailed cost-benefit analysis for research
  • Publication Support: Enhance TEA sections for top journal publications

Our Clients

60+ TEA & LCA services completed for academic users. Publications in top journals: Nature Synthesis, Nature Catalysis, JACS, AM, Angew, Nature Communication. Fields: CO2 reduction, plastic technologies, synthetic biology, carbon capture, chemical production, SCR, wastewater treatment.

Peking University

Peking University

Tsinghua University

Tsinghua University

University of Science and Technology of China

USTC

Zhejiang University

Zhejiang University

Nanjing University

Nanjing University

Sichuan University

Sichuan University

Xiamen University

Xiamen University

National University of Singapore

National University of Singapore

Recent Publications

1.

Ren, Y., Kong, W., Li, Y. et al. Selective electrooxidation of 5-hydroxymethylfurfural at pilot scale by engineering a solid polymer electrolyte reactor. Nat Catal (2025). https://doi.org/10.1038/s41929-025-01374-x

2.

L.Zhang, J.Feng, R.Wang, et al. Switching CO-to-Acetate Electroreduction on Cu Atomic Ensembles. Journal of the American Chemical Society 2025 147 (1), 713-724 https://doi.org/10.1021/jacs.4c13197

3.

C. Zhang, X. Hao, J. Wang, et al. Concentrated Formic Acid from CO2 Electrolysis for Directly Driving Fuel Cell. Xiong, Angew. Chem. Int. Ed. 2024, 63, e202317628. https://doi.org/10.1002/anie.202317628

4.

X. Guo, Z. Wang, Y. Gao, et al. Highly stable Perovskite Oxides for Electrocatalytic AcidicNOx-Reduction streamlining Ammonia synthesis from Air. Angew. Chem. Int. Ed. 2024, 63, e202410517. https://doi.org/10.1002/anie.202410517

5.

Y. Wang, T. Liu, C. Cheng, Y. et al. High-efficiency metal-free CO2 mineralization battery using organic redox catalysts, Chemical Engineering Journal, 2024,496,154008 https://doi.org/10.1016/j.cej.2024.154008

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