Technology

How SWB Delivers 24/7 Power

Addressing “Renewable Deficiencies” (Intermittency) with a hybrid wind + solar architecture and multi-storage energy recycling.

Diagram showing how SolarWindBooster (SWB) delivers 24/7 power using hybrid wind + solar generation and multi-storage energy recycling.
The Solution

Special Aerospace Compounder (SAC) + Tri-Storage

SWB integrates Hybrid Wind, Solar PV (light), Solar CSP (thermal), and the Special Aerospace Compounder (SAC) to generate, store, and distribute on-demand, uninterruptible, non-intermittent power.

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Solar power tower with surrounding mirrors representing concentrated solar thermal energy
Efficiency

Designed to Recycle More Energy

70%

Energy entropy recycling

Recovering and recirculating mechanical, thermal, chemical, and electrical energy to reduce waste and improve system output.

60%

Wind production boost

Hybrid configuration and drivetrain strategy designed to increase usable wind energy versus stand-alone turbines.

Tri-storage

Air / Salt / Liquid

Compressed air medium, cold liquid air, and hot molten salt storage to support grid-ready, dispatchable power.

This architecture is engineered to deliver reliable power across variable weather conditions while targeting comparatively lower levelized cost of electrical energy (LCoEE).

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How the System Works

A simplified view of the SWB energy pathway—from capture to storage to distribution.

01

Capture

Hybrid wind turbine + Solar PV + Solar CSP dish capture energy across multiple modalities (mechanical, electrical, thermal).

02

Compound

The Special Aerospace Compounder (SAC) enables thermodynamic cycling to extract and recirculate energy for higher utilization.

“We’re engineering SWB to solve intermittency without relying on a single storage pathway—enabling dependable renewable power when it’s needed most.”

03

Store

Tri-storage (compressed air medium, cold liquid air, hot molten salt) buffers variability and supports dispatchable output.

04

Distribute

Multi-distribution to the Grid, EV charging stations, mini-grids, and household loads—designed for 24/7/365 reliability.

05

Boost Wind Availability

The waste from SAC is used in boosting the wind power availability for the wind turbine to harvest. 500% wind power availability increase seen in our ongoing analysis.

Components

SWB Technology Stack

Hybrid Wind

Turbine + drivetrain

Proven drivetrains paired with a hybrid architecture to increase usable production and smooth output.

Solar PV

Light-to-electric

PV generation complements wind profiles and supports daytime production for local loads and charging.

Solar CSP

Thermal capture

Thermal energy captured for storage and cycling—supporting dispatchability beyond sunlight hours.

SAC + Storage

Air / salt / liquid

Tri-storage strategy designed to provide grid-ready power with reduced intermittency.

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IP Strategy

“Global IPs Pending” to protect the proprietary thermodynamic cycle and system integration approach.

We’re building defensible technology around the SAC cycle, tri-storage integration, and multi-distribution architecture—supporting partnerships, pilots, and commercialization.

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Next Steps

Partner, Pilot, or Invest

Reach out to discuss partnerships, pilot deployments, and early customer opportunities.

Contact SWB

Email: info@hi-n-lowtechnology.co.uk

Contact: +44(0)1157791841

Company Address: 550 Valley Road, Nottingham, England, NG5 1JJ.

Project / Venture Location: Nottingham, East Midlands, England, United Kingdom.