MODULAR AND CONVENTIONAL REACTOR DESIGN & OPTIMISATION

From Small-Scale Power to Full-Scale Solutions

We provide engineering services for Small Modular Reactors (SMRs), Microreactors, and conventional fission reactors — from conceptualization to core physics modelling. Our expertise covers thermal-hydraulic simulations, criticality safety, reactor core and fuel design, and licensing support. We also advise on retrofitting and repurposing existing nuclear infrastructure to meet modern safety and efficiency standards.

RADIOISOTOPE THERMOELECTRIC GENERATOR (RTG) SYSTEMS

Power Where the Grid Can't Reach

We engineer RTG-based systems not only for deep-space probes but also for remote Earth-based installations. We work on thermocouple design, radioisotope selection, heat dissipation modelling, and modular housing for rugged and extreme environments. Use cases span defense perimeter outposts, off-grid industrial operations, and application development for mainstream large-scale consumer products.

NON-POWER NUCLEAR APPLICATIONS

Harnessing the Atom Beyond Electricity

We develop radiation-based tools for materials testing, asset protection, and strategic deterrence applications. Our portfolio includes nuclear batteries, activation analysis tools, neutron imaging, and radiological sensors. For defense, we emphasize nuclear safeguarding technologies, radiation-hardened electronics, and systems to minimise nuclear escalation.

NUCLEAR DECOMMISSIONING CONSULTING

Responsible Closure, Reliable Guidance

We support clients through the strategic shutdown and decommissioning of nuclear power plants and reactors. Our methodology includes risk-informed planning, radiological characterization, dismantling logistics, waste classification strategies, and regulatory documentation—ensuring safe, environmentally conscious, and cost-effective execution.

RADIATION SHIELDING, CONTROL SYSTEMS, SEE & ION IMPLANTATION RESEARCH

Barriers Against the Invisible Forces

We simulate and test material resistance to alpha, beta, gamma, neutron, and heavy ion exposure for shielding and electronics design, and design suitable control systems. Our research includes single-event effects (SEE), total ionizing dose (TID) studies, alpha implantation patterns, and multi-layered shielding design. Applications include spacecraft design, nuclear facility walls, and semiconductors for high-radiation environment.