Narya-III (800 kW)
High-Power Microwave Platform for Continuous-Duty Industrial Environments
Narya‑III is Rivendell’s 800 kW class high‑power microwave platform designed for high-throughput operations that need serious power delivery with the control and safety behavior required for long-duration runs.
Narya‑III is best suited for industrial users who have a clear value case for microwave and now need the power scale that makes electrification meaningful—without accepting a cost structure that collapses the ROI at high power.
When to Choose Narya-III
Narya‑III targets that industrial wall: scaling power in a way that still behaves like production equipment—integrated, controllable, monitorable, and designed for uptime.
Narya-III is used when:
- A process is proven and scaling the plant requires serious continuous microwave power
- A facility needs microwave to operate like industrial infrastructure (not “special project equipment”)
- Teams are actively electrifying heat-intensive process steps and need scalable microwave delivery with predictable behavior
Narya‑III targets that industrial wall: scaling power in a way that still behaves like production equipment
800 kW Class Scalable Architecture
Built for environments where throughput and cycle time determine viability.
High-Power Combining Control Strategy
Frequency and phase coordination approaches designed to support stable high-power delivery as systems scale.
Industrial Monitoring and Protection Logic
Designed for high consequence fault scenarios where protection speed and systemvisibility matter.
Operator-Ready HMI and Logging
Trend data, fault history, and run traceability to support process improvement and maintainability.
Built for Electrification Deployments
The platform is designed specifically to replace or reduce combustion heat and enable modern electric processing strategies at meaningful scale.
Pulsing
A Clear, Scalable Pathway
Narya-III is designed to deliver using a structured power roadmap from 200kW ⇒ 400kW ⇒ 800kW.
- Industrial-scale throughput with microwave as a primary processing tool
- Improved controllability compared to traditional magnetron-only approaches at scale
- A more practical cost profile than scaling high-power solid-state systems in many
industrial contexts