Life Cycle Assessment (LCA) Services

Scientific Assessment · Eco-Friendly · Publication Supports

Service Overview

LCA systematically evaluates environmental impacts throughout a product's entire lifecycle - from raw materials to disposal. With years of hydrogen technology expertise, echemstore delivers professional, accurate LCA services.

Service Value

  • Impact Quantification: Precise carbon footprint & environmental metrics
  • Technology Optimization: Identify hotspots, guide improvements
  • Compliance Support: Meet regulations & certification needs
  • Proven Expertise: 60+ research clients served
Raw Materials Production Use Phase End-of-Life LCA Assessment

Service Features

Professional, Scientific & Reliable LCA Services

Standard Methodology

ISO 14040/14044 compliant for scientific, comparable results

Scientific

Expert Database

Authoritative data covering new energy, materials & more

Comprehensive

Custom Analysis

Tailored impact & sensitivity analysis for specific needs

Tailored

Visual Reports

Chart-rich reports for easy understanding & decision-making

Clear

Assessment Indicators

Key environmental impact metrics

🌡️

Climate Impact

GHG emissions

🌧️

Acidification

Acid emissions

🌊

Eutrophication

Nutrient discharge

☀️

Ozone Depletion

ODS emissions

Fossil Fuel Use

Non-renewable energy

💧

Water Consumption

Freshwater usage

🌍

Land Use

Land occupation and conversion

And More

Additional assessment indicators

Service Process

1

Goal & Scope Definition

Define objectives, functional units, boundaries & impact categories

2

Inventory Analysis

Quantify material & energy inputs/outputs

3

Impact Assessment

Calculate characterization & normalization results

4

Result Interpretation

Analyze results, identify hotspots & provide recommendations

Deliverables

LCA Report

Comprehensive report with methodology, data sources & analysis

Data Inventory

Complete lifecycle data for analysis & comparison

Impact Results

Quantified results with characterization, normalization & weighting

Improvement Recommendations

Optimization solutions based on assessment findings

Sensitivity Analysis

Key parameter analysis & uncertainty assessment

Visual Charts

Intuitive displays for easy understanding & communication

Application Areas

Wide industry & scenario coverage

Core Applications

🔬
Electrochemical Tech

LCA for water electrolysis, fuel cells, batteries & more

♻️
Plastic Technologies

Impact assessment for recycling, degradation & synthesis

🌟
Emerging Technologies

LCA support for new energy, materials & beyond

🛠️

Product Development Support

📐
Design Optimization

Identify impact hotspots, support eco-friendly material selection

⚙️
Process Improvement

Optimize production to reduce environmental impact

🔗
Supply Chain

Assess environmental performance across chains

📋

Policy & Certification

🏷️
Environmental Labels

Support eco-label applications

🌱
Carbon Certification

Carbon footprint calculation & certification support

🛒
Green Procurement

Support government & enterprise green purchasing

Service Clients

We've supported 60+ academic users with techno-economic & lifecycle assessments. Related research published in top journals: Nature Synthesis, Nature Catalysis, JACS, AM, Angew, Nature Communications. Fields include CO₂ reduction, plastic synthesis/degradation, synthetic biology, carbon capture, chemical production, SCR, wastewater treatment & more.

Peking University

Peking University

Tsinghua University

Tsinghua University

University of Science and Technology of China

University of Science and Technology of China

Zhejiang University

Zhejiang University

Nanjing University

Nanjing University

Sichuan University

Sichuan University

Xiamen University

Xiamen University

National University of Singapore

National University of Singapore

Supported 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

Contact Us

For product information, technical specs, or custom services, contact our professional team.

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