I apply systems engineering principles to capital allocation. Every venture is analyzed as a machine: inputs, process constraints, and yield optimization.
The Arkansas Smackover Formation holds globally significant lithium brine reserves. Current evaporation methods are land-inefficient. The opportunity lies in closed-loop DLE (Direct Lithium Extraction) systems that minimize surface footprint.
Modular DLE adsorption columns integrated with existing bromine infrastructure. Reduces Capex by utilizing brownfield brine disposal wells. Systems architecture enables incremental scaling from pilot to commercial production without complete facility rebuild.
Targeting <$4,000/ton production cost via brine-agnostic ion exchange resin. Comparative analysis shows 60% reduction in water usage vs. traditional evaporation ponds, addressing environmental compliance constraints.
Infrastructure Requirements: Sovereign edge computing systems (ARK Node) for process control in remote Smackover field locations. Autonomous telemetry ensures 100% data retention for regulatory compliance during network outages.
Rapid deployment of specialized labor for large-scale events. Just-in-time staffing architecture for high-churn environments like music festivals and trade shows. Two-sided marketplace platform with real-time demand matching and automated credential verification.
Directed full SDLC: Database schema design, API architecture, and beta launch management. Process optimization reduced staffing lead time from 48 hours to 4 hours.
#WorkforceDeployment #EventOps
Deployed mobile energy solutions for large-scale events. Engineered 3.5kW solar/battery bank trailers for remote reliability. Modular design enables rapid deployment and scaling from single trailer to multi-unit microgrid networks.
Field validation: 99.9% uptime across 12+ month deployment cycle. Zero data loss during extended network outages via integrated ARK Node telemetry systems.
#MobilePower #DistributedEnergy
Custom DC microgrid design and fabrication for mobile applications (RV/van conversions). Specialized in high-density lithium storage and integrated charge controllers. Systems enable 100% off-grid operation for extended periods.
Technical specifications: Direct DC power architecture eliminates inverter losses. LiFePO4 battery banks with integrated monitoring systems provide real-time SoC and power consumption telemetry.
#MobilePower #LiFePO4
Detailed prospectus and financial modeling available for qualified partners.