Kinetxgreenenergy

OPPORTUNITY

The Challenge

The horns of the energy dilemma consist of the rapidly increasing demand for energy, the requirement for it to be green or carbon-neutral, and the need for it to be delivered quickly. Many existing large-scale, dispatchable energy platforms are being phased out, but the timescale for replacing them is too long.

Many offshore wind projects are being cancelled or placed under review, and others such as Snowy Hydro II are massively behind schedule and over budget. Some jurisdictions are facing significant energy shortfalls within a few years, with no ready solution yet under consideration. The recent cyclonic weather in Queensland has added further deterrent to the proposed $56 billion offshore wind installation as originally intended.

GreenSeaPower

GreenSeaPower Overview

GreenSeaPower is a patented, transportable, autonomously navigated, storm-avoidant floating vessel platform, designed to operate over the sea and deliver sustainable, emission-free energy. It utilizes Small Modular Reactors (SMRs) ranging from 300 MW to 1.2 GWe, and is supported by advanced Battery Energy Storage Systems (BESS). The BESS can be delivered independently to any port and is complemented by hydrogen production capabilities and/or direct current (HVDC) power output to shore via undersea cable.

This system provides carbon-neutral energy, integrating nuclear technology with cutting-edge maritime engineering, and represents a new blueprint for offshore power generation.

By operating in international waters, GreenSeaPower avoids many of the regulatory and approval processes that apply to land-based power plants.

GreenSeaPower is an innovative solution pioneering a new era of decentralised green power generation built for resilience, safety, scalability, and global deployment.

Platform Design and Structural Capabilities

GreenSeaPower is built on a marine-classified cargo ship or barge-style hull platform, engineered and optimised for operational stability. It can maintain a fixed position in waters that are too deep for anchoring and is capable of operating in most weather conditions. In the event of severe conditions, it can relocate to avoid danger.

Designed for modular transportability, the platform can be towed or self-propelled to remote coastal or island locations, disaster-affected areas, or undeveloped regions that require clean, dispatchable energy.

• Hull Dimensions: Approximately 150 meters in length, 60 meters in width, with a draft of 15 meters.

• Displacement: ~25,000 tons

• Mooring: Configurable options, including dynamic positioning (DP) or fixed mooring systems

• Seakeeping: Built to withstand Category 5 hurricanes and 100-year sea state events

• Autonomy: Equipped with AI-driven FADEC SCADA maritime and system management software, enabling near-complete autonomous operation and monitoring, with minimal on-board crew required.

Small Modular Reactor (SMR) Power Core

At the heart of the GreenSeaPower platform is a next-generation Small Modular Reactor (SMR)—a transformative advancement in nuclear technology. The SMR is fully enclosed, failsafe, and factory-fabricated, providing a compact and inherently safe nuclear power source designed for long-term offshore deployment.

Specifications:

Reactor Type: Light Water Reactor (LWR) or Molten Salt Reactor (MSR), based on client needs and regulatory requirements
Thermal Output: 300 MW_th
Electrical Output: 300 – 1,200 MW_e
Refuelling Cycle: Approximately 10 years, depending on the reactor type
Containment: Triple-redundant passive safety systems with resistance to seismic activity, flooding, and pressure
Regulatory Compliance: Designed in accordance with IAEA offshore nuclear deployment guidelines and Class Society approvals (e.g., ABS, DNV)

The reactor is housed in a sealed and shielded containment module located below deck. It includes its own independent cooling and emergency systems, ensuring the highest levels of nuclear safety in an offshore environment.

Battery Energy Storage System (BESS)

GreenSeaPower includes a robust Battery Energy Storage System that plays a vital role in maintaining power quality, grid stability, and energy resilience.

Capacity: Up to 500 MWh, scalable
Technology: Lithium-Iron Phosphate (LiFePO₄) or emerging solid-state batteries, optimized for marine environments

Functions:

Grid smoothing and load balancing
Black start capability
Emergency backup power
Fast-response ancillary services (frequency/voltage control)

The BESS is containerised and housed within climate-controlled, fire-suppressed sections of the vessel to ensure maximum safety and ease of maintenance.

Hydrogen Generation and Storage

To align with the global hydrogen economy, GreenSeaPower features a state-of-the-art onboard hydrogen production system, powered by surplus nuclear energy generated during off-peak periods.

Electrolyzer Capacity: 50 MW PEM (Proton Exchange Membrane) electrolyzers
Hydrogen Output: Up to 20 tonnes per day

Usage:

Export to shore via specialized barge or tube-trailer vessels
Onboard storage in compressed hydrogen form
Future integration with hydrogen fuel cells or ammonia synthesis

This hydrogen system supports the decarbonisation of hard-to-abate sectors, such as shipping, industrial processes, and synthetic fuel production—positioning GreenSeaPower as a multi-vector energy hub.

DC Power Transmission to Shore

GreenSeaPower delivers high-efficiency direct current (HVDC) electricity to shore via a subsea HVDC cable, offering a low-loss and long-distance solution ideal for offshore power transmission.

Cable Rating: Up to 200 kV
Transmission Distance: 100–500 km, depending on regional grid and geography
Converter Station: Onboard DC-AC inverter for local use, with a dedicated HVDC terminal for undersea transmission
Grid Integration: Seamlessly connects to coastal substations, micro-grids, or remote island infrastructure

HVDC technology not only maximises transmission efficiency but also minimises electromagnetic and thermal impacts on marine ecosystems.

Sustainability and Environmental Impact

GreenSeaPower is engineered from the ground up to deliver minimal environmental impact while maximising climate benefits.

Zero Emissions: The SMR produces no carbon dioxide or methane during operation
Marine Ecology: Hull and mooring systems are designed to reduce seabed disturbance; advanced intake systems prevent marine life entrapment
End-of-Life: Includes a full decommissioning plan with modular removal, waste recycling, and reactor return to licensed processing facilities
Noise and Light Pollution: Acoustic insulation and downward-shielded lighting minimize disruption to marine species

Additionally, real-time emissions data and environmental performance metrics are transmitted via satellite uplinks to ensure public transparency and ESG accountability.

Digital Control, Cybersecurity, and AI Integration

GreenSeaPower is equipped with advanced automation, cybersecurity, and AI-based management systems for optimal performance, monitoring, and security.

SCADA and ICS Systems: Provide real-time control and feedback across all onboard systems
AI Operations Manager: Handles predictive maintenance, anomaly detection, and energy dispatch optimisation
Cybersecurity: Utilises zero-trust architecture, redundant encryption, and blockchain-secured operational data

These systems support remote access, enabling energy providers or governments to manage the platform from onshore control centers or offshore command nodes.

Use Cases and Applications

The GreenSeaPower floating power platform is versatile and deployable in a wide range of settings:

Isolated and Island Grids: Supplies base-load and backup power in areas with limited infrastructure.
Backup for Hyperscale Data Centers: Provides a reliable, dedicated backup power source
Grid Stabilisation: Supports and distributes power during periods of peak demand
Disaster Relief: Rapidly deployable to areas affected by tsunamis, hurricanes, or grid collapse
Offshore Industrial Projects: Powers oil rigs, data centres, or desalination facilities
Military and Strategic Infrastructure: Enhances energy security in high-risk or conflict-prone regions
Hydrogen Hubs: Operates as offshore production sites for green hydrogen along global shipping corridors
Mobile Deployment: Entirely relocatable under its own power

With autonomous multi-year operation, GreenSeaPower bridges the gap between intermittent land-based renewables and the need for stable, round-the-clock clean energy.

Economic Viability and Deployment Strategy

GreenSeaPower not only advances energy technology but also introduces a disruptive business model for power generation.

Cost-Effective Power: Levelized Cost of Energy (LCOE) is competitive with offshore wind while offering greater flexibility and dispatchability
Leasing or PPA Models: Available through Power Purchase Agreements (PPAs) or mobile leasing contracts to governments, islands, and industry
Rapid Deployment: Factory-built and self-propelled, it can be operational within 3 years, bypassing delays from civil works or land use issues
Workforce Efficiency: Requires minimal onboard staff; most operations are remotely managed

This deployment model enables energy-scarce or underdeveloped regions to leapfrog legacy infrastructure and transition directly to zero-emission, high-reliability power.

Toward a Carbon-Free Maritime Future

GreenSeaPower is more than a floating reactor—it represents the future of sustainable infrastructure. At a time when sea levels are rising, global energy demands are growing, and decarbonisation is critical, GreenSeaPower demonstrates how innovation in marine engineering and nuclear technology can deliver powerful solutions.

By combining proven nuclear fission with advanced green technologies such as BESS and hydrogen production, it creates a fully integrated floating green energy ecosystem. Its safe, modular, and mobile design contributes directly to the United Nations’ Sustainable Development Goals (SDGs), particularly:

SDG 7: Affordable and Clean Energy
SDG 9: Industry, Innovation, and Infrastructure
SDG 13: Climate Action

Key Advantages and Benefits of GreenSeaPower

Fastest to Market: Operational within 2 to 3 years following a 10-year indexed Power Purchase Agreement (PPA) with a recognised data centre or utility, and financed through a convertible note or equity.

Preferred SMR Models: While Westinghouse AP300 and GE-Hitachi BWRX are preferred, GreenSeaPower remains open to evaluating all market contenders in this rapidly evolving and highly competitive sector.

Strong Return on Investment: A projected ROI of 6 years is achievable when Offtake Agreement Contracts in AUD are secured, assuming rates comparable to those seen in offshore wind industry PPAs.

Superior Power Output: Capable of delivering twice the amount of clean electricity (in MWh) compared to offshore wind, with continuous 24/7/365 output—even after accounting for transmission and delivery losses.

Proprietary Technology: GreenSeaPower features a patented energy installation and delivery technique, currently secured in Australia, with plans to extend patent protection to Delaware, USA, once funding is secured.

Streamlined Regulatory Process: Requires significantly fewer regulatory approvals compared to land-based or traditional offshore energy projects.

Minimal Impact on Consumers and Taxpayers: The business model is designed to operate with limited public financial burden.

Cost-Competitive: Total installed and operational costs fall within 10% of those associated with offshore wind installations.

Low-Cost Manufacturing: Preferred construction and assembly location is Thailand under Thai Board of Investment (BOI) support—benefiting from reduced manufacturing costs and significant tax concessions.

Global Mobility: The world’s first globally relocatable offshore sustainability energy platform.

Lower Insurance Requirements: Advanced SCADA-based automation and built-in storm avoidance capabilities significantly reduce insurance exposure.

Eliminated Infrastructure Costs: Many expensive and complex components common to traditional systems are not required by GreenSeaPower, including:

No land acquisition or associated approval delays
No transmission corridors or land access negotiations
No pumped hydro energy storage
Optional support for land-based BESS (grid-scale or community batteries)
No large flywheel installations for 50Hz frequency regulation
No need for grid-scale inverters for frequency referencing

Governments around the world are urgently working to introduce alternative sustainable energy sources to replace coal and gas-fired power stations in their efforts to reduce greenhouse gas emissions.

Over the past several years, KinetX design engineers have been focused on developing a commercially viable solution to enable the generation of 24/7 base-load sustainable power.

KinetX has now achieved this capability through the creation of a special-purpose offshore platform that harnesses continuous 24/7 energy and is integrated with advanced onboard systems such as Small Modular Reactors (SMRs), Battery Energy Storage Systems (BESS), and AI-driven operational systems.

The primary objective of KinetX is to urgently construct this offshore energy production demonstration platform to prove, once and for all, that continuous 24/7 green power is available now and that Australia can deliver the world’s first 100% sustainable hybrid offshore energy system.

As an initial focus, KinetX will look to supply power to large-scale data centres, including those supporting artificial intelligence infrastructure. These facilities operate around the clock, demand highly reliable base-load power, and often struggle to secure clean, uninterrupted energy at scale. The offshore, self-contained design of KinetX platforms makes them an ideal fit delivering dedicated, high-density power without competing for land, relying on ageing grid infrastructure, or contributing to local environmental strain.

No land acquisition is required, nor are long transmission corridors. Multiple platforms can be positioned out of sight beyond the horizon, supplying sustainable power directly to the coast of any nation.

KINETX ADVANTAGES

24/7 Green Power BASE LOAD

No infrastructure Upgrade Requirements for Networks

Non-stop sustainable single direction kinetic energy is available around the world and can now be converted into BASE LOAD electricity.

No infrastructure Upgrade Requirements for Networks

We can deliver a localised feed into power grids or direct to clients sites to the coast of any nation

Best ROI Opportunity

No infrastructure Upgrade Requirements for Networks

Best ROI Opportunity

KinetX green power production offers the fastest return on capital in the sustainability sector.

Lower CAPEX & OPEX

Saving Time and Money

Best ROI Opportunity

KinetX provides over 2.3 profit returns to same CAPEX of wind and solar

Saving Time and Money

No Land Purchase requirement as required by wind and solar arrays. Also no Land required for Transmission Corridors.

Storm Avoidance

Saving Time and Money

In the event of adverse weather, the facility can readily disconnect from the grid and relocate to safety – returning once conditions normalise.

ANALYSIS

Global energy systems are under pressure. Demand is rising fast, fossil fuel plants are retiring, and clean alternatives must be delivered quickly. Yet many large-scale projects face delays, high costs, and vulnerability to extreme weather, leaving critical gaps in supply.

Offshore floating energy platforms present a breakthrough. These autonomous systems generate constant, carbon-free power using advanced nuclear technology, onboard storage, and hydrogen production. They operate beyond territorial waters, avoiding land use conflicts and long approval timelines.

Deployed within a few years, they provide reliable, scalable energy directly to coastal grids or remote regions. Their storm-resistant design and AI-driven operation ensure performance even in harsh conditions.

This approach offers more than speed it redefines how we deliver clean power. By bypassing traditional barriers, these platforms provide a practical path to energy security, climate targets, and rapid deployment where it’s needed most.

SENIOR MANAGEMENT

Col Chambers - Managing Director - Globally

Lindsay Barton - Director & Company Secretary - Globally

Colin has remained self-employed in the field of Power Electrics and Sustainability his entire life, he is an experienced Managing Director with a demonstrated history of working in the electrical and electronic manufacturing industry and has raised in excess of $40 million for various sustainability projects. Colin was granted a Public Utility License as a result of winning the Banksia Award, plus a further eight awards, for Sustainability. Colin pioneered Bi Generation and later Tri Generation being awarded a PPA with Qantas at Sydney, Airport

Lindsay Barton - Director & Company Secretary - Globally

Lindsay Barton brings to his roles a vastly diverse background covering senior levels of government working in and with industry, and from within Parliament and the political sphere. Lindsay has abiding interests in driving the adoption of emerging/green technologies to reduce whole-of-life costs and improve environmental outcomes. In supporting the Kinetx proposals he will generally provide stakeholder management and engagement skills together with associated media maximization. In terms of the engagement with government, he will be working closely with relevant Ministers and advisers.

Jurgen Horhann - Head of Engineering and Design

Lindsay Barton - Director & Company Secretary - Globally

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Jurgen Horhann has a degree in Mechatronics obtained whilst living in his birth country, Germany. Jurgen is known for his design engineering ability, always seeking the additional edge making his product designs not only uniquely innovative, but always striving for reduced manufacturing costs. Jurgen has worked with Col Chambers on the designs of bi and trigeneration developments and more recently on contra rotating twin turbine development leading to our unique submersible turbine designs.

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Varachaya (Aui) has Master of Business Administration and In her previous position she was responsible for having secured Cooperative Agreements with Provincial Energy Authority (PEA) and Energy Generating Authority of Thailand (EGAT), obtaining National Grid connection agreements. Aui also managed the financial reporting and Tax obligations to ensure compliance and drafted several Power Purchase Agreements. Aui has extensive experience with the Thai Board of Investment and will be engaged with KinetX to secure the same maximum benefits, including Tax concessions.

Kamolbhan Sangmacha - Director of Thailand Operations (as Proposed)

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Kamolbhan Sangmacha - Director of Thailand Operations (as Proposed)

Kamolbhan Sangmacha is an accomplished academic and expert in information systems. With a Ph.D. in Information Systems from the New Jersey Institute of Technology, they hold key positions at Kasetsart Business School, including Head of the Technology and Operations Management Department. They are also an Honorary Advisor to the Committee of the ICT, Thai Senator, and hold directorship roles at various research centres. Their specialisations encompass Smart Grid and Energy Technologies, IoT Technologies, Information Systems Design and Evaluation, Human-Computer Interactions, and Pervasive Computing. Kamolbhan Sangmacha is recognised for their contributions to technology and business, making a significant impact through research, leadership, and advisory roles.

Invisible Hybrid Green Power

Invisible Hybrid Green Power

OPPORTUNITY

The Challenge

GreenSeaPower

GreenSeaPower Overview

Platform Design and Structural Capabilities

Small Modular Reactor (SMR) Power Core

Battery Energy Storage System (BESS)

Hydrogen Generation and Storage

DC Power Transmission to Shore

Sustainability and Environmental Impact

Digital Control, Cybersecurity, and AI Integration

Use Cases and Applications

Economic Viability and Deployment Strategy

Toward a Carbon-Free Maritime Future

Key Advantages and Benefits of GreenSeaPower

GreenSeaPower Concept

GreenSeaPower

Small Modular Reactor

Battery Transfer Vessel Concept

KINETX ADVANTAGES

24/7 Green Power BASE LOAD

No infrastructure Upgrade Requirements for Networks

No infrastructure Upgrade Requirements for Networks

No infrastructure Upgrade Requirements for Networks

No infrastructure Upgrade Requirements for Networks

No infrastructure Upgrade Requirements for Networks

Best ROI Opportunity

No infrastructure Upgrade Requirements for Networks

Best ROI Opportunity

Lower CAPEX & OPEX

Saving Time and Money

Best ROI Opportunity

Saving Time and Money

Saving Time and Money

Saving Time and Money

Storm Avoidance

Saving Time and Money

Saving Time and Money

ANALYSIS

SENIOR MANAGEMENT

Col Chambers - Managing Director - Globally

Lindsay Barton - Director & Company Secretary - Globally

Lindsay Barton - Director & Company Secretary - Globally

Lindsay Barton - Director & Company Secretary - Globally

Lindsay Barton - Director & Company Secretary - Globally

Lindsay Barton - Director & Company Secretary - Globally

Jurgen Horhann - Head of Engineering and Design

Lindsay Barton - Director & Company Secretary - Globally

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Kamolbhan Sangmacha - Director of Thailand Operations (as Proposed)

Varachaya Sawaikool - General Manager for Thailand Operations (as proposed)

Kamolbhan Sangmacha - Director of Thailand Operations (as Proposed)

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