Instant Room Temperature Hydrogen

The Hydrogen Revolution Starts Here
Introducing IRT-H₂: Instant Room-Temperature Hydrogen
300% More Cost-Effective than Green Hydrogen - No Electricity Required
Patent-pending breakthrough technology that produces ultra-pure hydrogen from water and proprietary powders in seconds, at ambient temperature, with zero carbon emissions.
Own the Future of Clean Energy
About RMS Sustainability Ventures
RMS Sustainability Ventures acquires and develops breakthrough water, hydrogen, and clean hydrocarbon extraction technologies. We secure IP and territorial rights, stand up manufacturing, and scale—so cities and industry decarbonize at speed.
Mission
We build what the planet needs now. We acquire rights, validate the economics, and scale what works—so returns rise while emissions fall.
Acquire
Secure intellectual property for breakthrough technologies in water conservation, clean energy, and industrial efficiency.
Validate
Rigorous independent validation to verify performance claims and meet industry standards.
Localize
Establish regional manufacturing capabilities, adapting technologies to local market needs.
Scale
Drive revenue via strategic partnerships, generating dual income from hardware sales and technical services.
2. H₂ Global Market Opportunity
$700B
Global H₂ Market by 2050
Hydrogen Council estimates
530M
Tonnes Annual Demand
Projected clean H₂ demand by 2050
24%
CAGR 2023-2030
Expected market growth rate
Our IRT H₂ technology is ready to capture a significant share of the market in areas like industry, transport, and energy storage.
What if we could produce hydrogen without massive electricity grids?
Meet IRT-H₂: The Game-Changing Alternative
Global hydrogen demand is set to explode, but the current production landscape is crippled by high costs, grid dependency, and environmental concerns. Traditional electrolysis simply isn't scalable enough to meet the future's demands.
Our Solution: Unlocking the Future of Clean Hydrogen
Unprecedented Cost-Efficiency
Our proprietary IRT-H₂ process sidesteps energy-intensive electrolysis, dramatically cutting operational expenses. We're targeting green hydrogen production at less than $1/kg, making clean hydrogen genuinely competitive.
True Zero Carbon Footprint
Unlike existing methods, IRT-H₂ directly converts feedstock into hydrogen with zero Scope 1, 2, or 3 carbon emissions. No grid dependency, no carbon capture required – just pure, clean hydrogen, ready for market.
Game-Changing Simplicity & Scalability
The catalytic nature of IRT-H₂ simplifies the entire production chain. This allows for highly modular, containerized plants that can be deployed rapidly and scaled from 1MW to gigawatt capacity, significantly accelerating global hydrogen adoption and market capture.
3. Value Proposition
Instant Room Temperature Hydrogen (IRT H₂)
Fast-track hydrogen generation from water + two inert powders with our breakthrough process:
1
Simple Chemistry
Our process mixes Part A Chemical Powder + Part B Nano Catalyst with water, instantly yielding >99.9995% pure H₂ in under 30 seconds.
2
Self-Pressurising
The mild exothermic reaction generates its own pressure, reaching 8-10 bar at ambient temperature without requiring external energy input.
3
Environmentally Sound
The only output is an inert oxide by-product slurry (spent material), which holds value for industries like degreasing and cement production.
Chemical powder and Catalyst are available worldwide, much like any commodity being traded.
We have Invented WHITE HYDROGEN
RMS brands it “white” to signal an even lower-energy, lower-carbon class.
A Containerized and Non Containerized Modular Solution, constructed like Lego or purpose built
4. How IRT H₂ It Works?
1
Instant H₂ from Water & Powders
1 liter of water mixed with 120g "Part A" hydride and 80g "Part B" nano-catalyst yields ≈ 0.108 kg of hydrogen.
2
Ultra-Fast, Safe Reaction
Hydrogen evolution begins in less than 30 seconds at 40-45 °C, self-pressurizing the vessel to 8–10 bar, making the process inherently safe.
3
Continuous Production
Two alternating, jacket-cooled vessels ensure > 95% uptime as they take turns reacting and being cleaned/recharged.
4
Simple Scrubbing for Purity
Raw gas bubbles through a water seal; optional drying/polishing steps lift purity to fuel-cell grade (SGS-verified 99.9995% H₂).
5
Zero-Carbon & Modular
The only coproduct is a benign oxide slurry; no on-site CO₂, NOₓ, or SOₓ emissions. The system is packaged in containerized modules, scalable from ~100 kW to multi-MW.
5. Process Flow Diagram
Simplified Process
1MW Containerised Plant + Gas Turbine Route
3D Renders
Silo- Container Illustration Renders
Futuristic 3D Renders
6. Inputs & Outputs
(1 MW Module)
Instant Room Temperature Hydrogen Method
7. Economics vs. Electrolysis & Others
IRT H₂: Unmatched Advantages
Achieves ultra-low LCOH ($0.90-1.40/kg) at scale, with no electricity CAPEX.
Utilizes cost-effective feedstock ($0.59/kg) and minimal auxiliary power (~1.2 kWh/kg).
Electrolysis: Key Limitations
Faces high capital costs ($2-3M/MW), relies on expensive renewable electricity, and offers limited future efficiency gains for cost reduction.
Economics: Breaking the Cost Curve
Provides the lowest realistic LCOH ($1.42/kg), dropping to $0.90/kg at volume. This is significantly below green electrolysis ($4–7/kg) and offers a competitive LCOE of 5.9 ¢/kWh.
Even with subsidies, the closest rival, Green H₂ (alkaline/PEM), quotes $3.20/kg in 2030 – still more than 3 times the IRT base case. While electrolyser stacks degrade over time,
IRT powders are pass-through consumables, with a consistent feed cost of $0.59/kg H₂.
8. Market Context – Green H₂ Challenges
Project Cancellations
Many green H₂ projects are collapsing due to high LCOH and thus lack of demand, as reported by Reuters and The Australian.
Prohibitive Current Costs
Global LCOH today sits at ~$4.5-6.5/kg in Europe, with minimal clear path to dramatic cost reduction.
Uncertain Future Economics
IEA forecasts a wide $2-9/kg range by 2030, highlighting continued uncertainty around viable business models.
9. Target Applications & Use Cases
Industrial Applications
Refining
Ammonia production
Steel manufacturing
Chemical processing
Energy Applications
Data Centers
Grid-scale energy storage
Peaker plant replacement
Remote power generation
Backup power systems
Transport Applications
Heavy transport/trucking
Marine vessels
Rail transport
Aviation (sustainable fuels)
10MW Cluster- 3D Renders- Data Centers
10. NEOM Case Study
The Benchmark
NEOM (Saudi Arabia) is building a 3.9 GW green hydrogen plant with:
600 tonnes/day H₂ production
1.2 Mtpa ammonia output
$8.4 billion investment
Massive land and infrastructure requirements
NEOM represents the current state-of-the-art in electrolysis-based hydrogen production at scale.
Replacing NEOM’s 600 t/d green H₂ plan with IRT H₂ would significantly cut CAPEX (from $8.4 bn to <$3 bn), reduce footprint (80 ha vs 250 km²), and slash LCOH below $1.2/kg.
Hypothetical IRT H₂ Comparison
Trafigura buys Ammonia at circa $420/MT. RMS can produce Ammonia at max $290/MT….. enough said
What this means for an Investor
By combining a 1 MW IRT H₂ block with a compact, adaptable Haber-Bosch system, we can produce ammonia at an unbeatable price range of $0.30–0.38 per kg, outperforming traditional methods. This strategic move positions RMS/Investor to supply cost-effective green/white ammonia to high-demand export routes like Trafigura, NEOM or local fertilizer markets, while maintaining control over the entire production process.
Close – Own the Breakthrough
RMS and Investor together can lead the clean hydrogen transformation—not follow it.
IRT H₂ is not just a process, it's a platform that gives Investor global IP leadership, margin ownership, and first-mover advantage in the fastest-growing hydrogen frontier.
Own it or build it — but don't let it slip.