Specialized Applications

Thermal Energy Storage

Capturing Heat, Powering Progress

At Re:Build DAPR, we design and develop advanced Thermal Energy Storage (TES) systems that help clients store, manage, and reuse thermal energy across a wide range of industrial and energy applications. Whether it’s maximizing process efficiency, enabling clean energy integration, or unlocking new manufacturing capabilities, our thermal storage solutions are engineered for performance, scalability, and sustainability.

Our Approach

Thermal energy is often wasted, but it doesn’t have to be. We design systems that store it intelligently, release it precisely, and turn excess heat or cold into long-term value.

Engineered for Efficiency

We capture heat and cold energy where others lose it, maximizing energy recovery and minimizing waste.

Designed for Integration

Our TES systems interface with reactors, kilns, turbines, and cryogenic infrastructure, tailored to your process.

Scalable by Design

From pilot platforms to grid-scale energy systems, we build solutions that scale with your operation.

What We Build

We develop thermal energy storage systems for a wide range of temperatures, applications, and performance requirements.

Thermal Energy Storage System Design

Sensible and latent heat storage systems
Solid, liquid, and phase-change materials
Hybrid TES architectures
Integrated thermal regulation and control systems
TES integration with power cycles, reactors, and heat exchangers

High-Temperature TES Solutions

Storage systems rated up to 1200°C
Ceramic, graphite, and metallic storage media
Structural insulation and containment strategies
Systems integrated with furnaces, kilns, gas turbines, and more
Thermomechanical modeling to ensure safe, durable operation

Fluid Handling & System Integration

Liquid air or cryogen-based cold storage
Subcooled loops and cold sink designs
Vaporization and boil-off control
Cryogenic insulation and fluid management

Fluid Handling & System Integration

Heat transfer and flow simulation (FEA, CFD)
Charging/discharging cycle optimization
Thermal loss minimization strategies
System lifetime and reliability modeling

Capabilities

TES System Engineering (High & Low Temp)

Phase Change & Hybrid TES Design

Cryogenic Cold Storage Solutions

Integrated Thermal Management

Process Simulation & Thermal Modeling

System Validation & Optimization

Modular Skid Design for Field Deployment

Why Re:Build DAPR?

End-to-End Engineering

We manage the entire TES lifecycle, from feasibility to field deployment, with mechanical, thermal, and controls expertise under one roof.

Application-Focused

We design TES systems to work in real industrial conditions, accounting for safety, space, economics, and process constraints.

Flexible Across Energy Sources

Whether powered by fossil, electric, or renewable systems, our TES solutions support your energy strategy.

Innovation with Execution

We bring deep R&D knowledge into manufacturable, scalable systems that perform in the field.

Example Applications

High-temp ceramic TES system for load-leveling in manufacturing operations

Latent heat battery integrated with a solar thermal plant

Cryogenic cold storage for next-gen cooling infrastructure

Modular TES skid design for industrial waste heat recovery

Ready to discuss your project needs?

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