Advanced Hybrid Distributed Energy Resource (AHDER) System
A patented distributed energy platform designed to provide clean electric power with near-zero emissions through the integration of dispatchable generation, battery storage, emissions control, carbon capture, and flexible power delivery.
Our Vision for a Decentralized, Eco-Restorative Energy Future
Our vision centers on a circular energy model that represents a strategic shift toward a decentralized and cost-effective power economy. By strategically locating CO2 conversion plants in remote areas where renewable resources, such as large-scale solar, wind farms, and geothermal energy, are naturally abundant, we overcome the traditional barriers of missing grid infrastructure. This approach also allows for the safe and efficient integration of nuclear energy, utilizing isolated locations to maximize security while providing the steady baseload power required for hydrocarbon synthesis. Through this “Eco-Restorative” cycle, we transform captured CO2 back into high-energy hydrocarbon fuels using locally gathered clean power. Ultimately, this vision eliminates the need for expensive long-distance grid expansion and creates a truly sustainable, unlimited source of clean electric power for the next generation.
A New Model for Clean Distributed Power
The AHDER System is Apollo Investments’ advanced approach to distributed energy generation. Built around a novel, high-efficiency architecture using TRL-9 subsystems, AHDER combines fuel-based generation with post-combustion treatment, CO2 capture, energy storage, and application-ready power output to support critical modern loads.
How the AHDER System Works
AHDER integrates seven coordinated subsystems: a Main Control Center, Fuel Power Generator System, Battery Energy Storage System, Emission Control System, Combined Heat and Power System, CO2 Capture System, and Power Application System. Together, these elements enable high-efficiency power generation, emissions treatment, carbon capture, waste heat recovery, and storage support. The system delivers high-value AC/DC power tailored for data centers, EV charging infrastructure, and residential, commercial, and industrial facilities. Furthermore, the AHDER system can be designed as both a grid-off (islanded) and grid-tied system, allowing users to switch between sources to utilize power from the available grid at the most cost-effective rates.
Designed for Efficiency and Environmental Performance
The system is intended to produce clean electricity from traditional hydrocarbon fuels while achieving overall energy efficiency of up to 75% to 85%. Its integrated design supports compliance with strict air-quality requirements and creates a pathway for carbon capture, purification, and potential CO2 product monetization.
Built for Modern Energy Demands
AHDER is designed for resilient, flexible, and scalable deployment across high-demand applications. Potential use cases highlighted in the presentation include AI data centers, EV charging infrastructure, residential communities, commercial facilities, and industrial operations.
Value Beyond Power
In addition to delivering dispatchable electricity, AHDER is designed to unlock broader economic value through improved efficiency, waste heat utilization, CO2 capture, and potential revenue from electricity sales, carbon products, and carbon credits.
Partnerships & Careers: Developing the AHDER System
Building the Advanced Hybrid Distributed Energy Resource (AHDER) system requires a multidisciplinary coalition of visionary industry leaders, engineers, and specialists.
Strategic Partnerships
We are actively seeking highly reputable partners with deep industry expertise to collaborate on the design, integration, and deployment of our revolutionary AHDER platform. We invite engineering consulting firms, EPCs (Engineering, Procurement, and Construction), and financial partners (such as private equity and infrastructure funds) to join us in shaping the future of clean baseload power. If your organization is interested in collaborating, please [email us].
Join Our Team
To drive our internal development, we are rapidly expanding our leadership team. We are currently seeking:
- Business Development Director: To lead market strategy, financial modeling, and partner acquisition, transforming our net-zero prototypes into a scalable commercial business.
- Principal Engineer, High Voltage Systems: To oversee our Main Control Center, Battery Energy Storage Systems (BESS), Power Application System (PAS), and grid integration (SCE/CAISO).
- Principal Engineer, Power Generation & Emission Control: To spearhead the design and ensure strict environmental compliance (EPA/CARB/SCAQMD) for our alternative-fuel reciprocating engines, Combined Heat and Power (CHP), and carbon capture systems.
For a complete list of current job openings, please click [here] for more information.