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Clean Energy · Project 01

Hydrogen
Stove

Zero-emission cooking powered by green hydrogen — delivering LPG-class performance with zero carbon output.

Active Development
Est. 2024
Prototype Stage
H₂ POWERED

Overview

Reimagining How
India Cooks

India relies on LPG for over 300 million households — a fuel that produces CO₂, requires imported supply chains, and poses safety risks. The God's i Hydrogen Stove replaces this with a green hydrogen-powered cooking system that produces only water vapour as a byproduct.

By combining a hydrogen storage module, a precision burner optimised for H₂ combustion characteristics, and an intelligent pressure regulation system, we deliver heat output, cooking response, and safety that matches or exceeds conventional LPG stoves.

0 g
CO₂ per cook cycle
~3 kW
Thermal output (target)
300M+
Target households in India
H₂O
Only combustion byproduct

Prototype Visualization

Photo-Accurate
Render

Interactive concept render of the Clean Energy Hydrogen Cooking System. Click Power to ignite the hydrogen flame and view live telemetry readouts.

Click to ignite hydrogen flame
CLEAN ENERGY HYDROGEN COOKING SYSTEM H₂ H₂ OUTPUT 1.20 L/min WATER LEVEL 75% ● SYSTEM OK TEMP. 28°C POWER
Blue hydrogen flame (H₂ combustion)
Brushed steel trim & chassis
Live telemetry display (H₂ output, water level, temp)
System status indicator

The Problem

  • LPG imports cost India ₹1 lakh crore annually
  • 300M+ households dependent on fossil fuel cooking
  • Indoor air pollution causes ~500,000 deaths/year in India
  • Electric induction inaccessible for 200M+ rural homes
  • LPG cylinder supply chain unreliable in remote areas

Our Solution

  • Green hydrogen produced via solar-powered electrolysis
  • Drop-in replacement for LPG stoves — same user behaviour
  • Zero indoor emissions — only water vapour released
  • Localised hydrogen generation for energy independence
  • Compatible with existing cookware and cooking habits

How It Works

Internal
Mechanism

Animated cutaway of the hydrogen generation cycle — from water intake through electrolysis, purification, buffering, and combustion at the burner, with live telemetry readouts.

Phase: water intake
CUTAWAY · HYDROGEN GENERATION CYCLE 1 RESERVOIR Distilled H₂O + 2 H₂O → 2 H₂ + O₂ 2 ELECTROLYSIS CELL 3 PURIFIER Dries gas 4 MANIFOLD VALVE 5 H₂ BUFFER TANK 3 bar · 0.4 L BURNER · IGNITION MCU 6 CONTROLLER ⚡ DC current 12A · 24V LIVE TELEMETRY WATER LEVEL 75% H₂ OUTPUT 1.20 L/min FUEL BUFFER 68% CELL TEMP 38°C ✓ within range POWER DRAW 288 W ⚡ 12A · 24V DC

The cycle: Water from the reservoir flows into the electrolysis cell where DC current splits H₂O into hydrogen (blue bubbles) and oxygen (red bubbles, vented). Hydrogen passes through the purifier and manifold valve into the pressurised buffer tank , then is metered to the burner for clean combustion. The controller reads every sensor and modulates current to match demand.

Technology

Key Features &
Specifications

H₂ Combustion Burner

Precision-engineered burner ports sized for hydrogen's wider flammability range (4–75%), delivering stable blue-flame combustion at atmospheric pressure.

Pressure Regulation System

Multi-stage pressure regulator ensures safe, constant delivery from a 350-bar storage cylinder to the burner at under 20 mbar operating pressure.

Safety First Design

Automatic gas shut-off valve, flame-out sensor, hydrogen leak detector, and spark ignition failure protection — meeting IS/IEC safety standards.

Fast Thermal Response

Hydrogen's high flame speed enables near-instant max heat — 40% faster than LPG — with precise simmer control for delicate cooking requirements.

Decentralised H₂ Supply

Compatible with community-scale solar electrolysers, enabling villages to produce and distribute hydrogen fuel locally — no import dependency.

LPG-Compatible Cookware

Designed to work with all existing cookware — pressure cookers, woks, tawas — requiring no kitchen infrastructure changes for adoption.

Development Timeline

Project Roadmap

Phase 1

Concept & Research

Hydrogen combustion modelling, market analysis, safety standard review (IS 1655, IEC 62841).

Completed
Phase 2

Prototype Development

Burner engineering, pressure regulator testing, safety system integration, lab burn trials.

In Progress
Phase 3

Field Trials & Certification

Pilot deployment in 50 rural households, safety certification, user feedback integration.

Upcoming
Phase 4

Commercial Launch

Manufacturing partnerships, distribution network, government scheme alignment (PMUY), scale-up.

Planned

Interested in the
Hydrogen Stove Project?

We're looking for research partners, pilot communities, and investors to accelerate this initiative.