Simulating the Physics of Air,
Architecting the Physics of Value.

I am Zhao Chuhan. A researcher bridging Computational Fluid Dynamics (CFD) with AI-driven optimization, and the founder of ElectroDemocracy.

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NOW / What I'm Doing

Currently seeking opportunities in Energy & Web3 sectors. Building ElectroDemocracy (EDT) to unify global energy pricing on-chain. Exploring how AGI thermodynamics intersects with token economics.

Nancy, France Status: Open to Work

Academic Portfolio

Computational Fluid Dynamics

FDMP Journal 2025 2025

Ventilation Velocity vs. Airborne Infection Risk: A Combined CFD and Field Study

Investigated the limitations of CO₂ as a proxy for viral aerosols. Utilized ANSYS Fluent with a Realisable k-ε RANS model to simulate airflow and particle tracking (Lagrangian) in a full-scale office environment.

ANSYS Fluent Python Data Analysis k-ε Model
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INLET
EDT

The Venture

Energy is Value.

A Thermodynamic Standard for the AGI Era.

Moving from the physics of atoms to the physics of bits. EDT monetizes energy flow to support Universal Basic Income (UBI) in a post-automation world. We are building a DePIN protocol on Solana.

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/ Thinking & Philosophy

2026.01.20

The Energy-Value Equivalence: Why EDT Protocol?

We propose a new thermodynamic standard for value. Unlike fiat or deflationary crypto assets, EDT (ElectroDemocracy Token) is anchored to 1 kWh of energy. This creates a global unified pricing layer for the most fundamental resource of the AGI era. Our vision: 20% of global energy production distributed as Universal Basic Income (UBI).

2025.11.15

AI-Driven CFD: Beyond RANS Simulation

Traditional computational fluid dynamics is computationally expensive. By integrating deep learning surrogates with physical solvers (ANSYS), we can predict indoor viral transmission paths in real-time. This is the intersection of "Physics of Air" and "Physics of Bits".

/ Curriculum Vitae

Education

Master Meca - Energie

Université de Lorraine, Nancy

09/2021 - 09/2024
Licence Sciences pour l'Ingénieur

Université de Bretagne Sud, Lorient

09/2019 - 07/2021

Experience

Research Intern
03/2024 - 09/2024

LERMAB, University of Lorraine

  • Optimized indoor air quality via numerical simulation (CFD).
  • Validated mathematical models (Navier-Stokes, k-epsilon) for thermal transfer.
  • Analyzed ventilation strategies using ANSYS Fluent and UDF.
Design Office Intern
04/2021 - 06/2021

France Etuves

  • Optimized PID system for precise temperature control in thermostatic chambers.

Technical Skills

Simulation
ANSYS Fluent, Matlab/Simulink, AutoCAD
Development
Python (Data Analysis), Web3 Concepts
Physics
Thermodynamics, Fluid Mechanics, Heat Transfer
Languages
Chinese (Native), French (C1), English (B2)