PRODUCTS

 

 

Platform‑Driven Radiant Heating Systems Derived from the 40–200 W/in Patent NAllen Holdings’ product line is built directly from our patented 40–200 watt‑per‑inch radiant heating platform (136.5–682.4 BTU/in²). Every configuration—from compact field units to high‑output thermal systems—is engineered from the same core patent, allowing precise watt‑density control and application‑specific performance for cementitious construction.

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1. Compact Units (Low Watt‑Density Range)​

Portable, Controlled Heating for Localized Substrate Work

 

Ideal for:

• Spot‑drying

• Small‑area conditioning

• Detail work

• CMU moisture tuning in tight or limited‑access zones

 

Benefits:

• Lightweight, portable field units

• Low‑range watt density for sensitive materials

• Perfect for small contractors and repair crews

 

Built From:

The patented 40–200 W/in platform (adjusted toward the low end for precision work)

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2. Mid‑Output Units (Balanced Range)​

General‑Purpose Radiant Systems for CMU Conditioning and Coating Workflows

 

Ideal for:

• Standard CMU walls

• Concrete substrate preparation

• Moisture management before coatings

• Everyday commercial jobsite needs

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Benefits:

• Balanced watt‑density range

• Field‑tested for construction environments

• Predictable thermal performance across varied substrates

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Built From:  

The patented radiant platform tuned to a mid‑range watt‑density output

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3. High‑Output Systems (Example: 307,080 BTU Configuration)​

Large‑Scale Exterior Wall Conditioning & Accelerated Thermal Demands

 

Ideal for:

• Large CMU envelope stabilization

• Heavy‑moisture assemblies

• Cold‑weather operations

• Coating dehydration on large exterior structures

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Benefits:

• Highest output option

• Extremely fast thermal response

• Rapid moisture movement and stabilization

 

Important Clarification:
The well‑known 307,080 BTU field system is only one physical implementation of our patented platform—not the limit, not the definition, and not the only power level. It is simply one scaled configuration based on your current build.

 

Built From:  

The patented 40–200 W/in platform scaled toward the upper range

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4. Custom‑Configured Systems​

Tailored Watt‑Density, Size, Geometry, and Thermal Profiles

 

Because the patent covers a range, not a fixed design, we can engineer:

• Narrow or wide systems

• Long‑throw radiant systems

• Modular arrays

• Multi‑zone thermal panels

• Substrate‑specific watt‑density profiles

• Custom assemblies for unique architectural conditions

 

This is where NAllen Holdings stands apart:  We are not a heater manufacturer—we are a thermal engineering platform capable of custom configurations.

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5. Micro‑Climate Control for Modern Construction Technologies (Including 3D‑Printed Structures)

 

3D‑printed concrete construction introduces new performance challenges that traditional heaters, torpedoes, and air‑based systems cannot address. Because these structures are extruded layer‑by‑layer, they often suffer from:

• Uneven moisture between layers

• Slow or unpredictable curing

• Temperature inconsistency across the print surface

• Weak interlayer bonding caused by thermal instability

• Delamination, cracking, or structural inconsistency

• Extended construction schedules due to moisture retention

 

NAllen Holdings’ patented radiant heating platform directly solves these issues by creating engineered micro‑climates — controlled thermal zones that surround the printed structure and stabilize both moisture and temperature.

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How Our Platform Solves 3D‑Printed Building Problems

• Delivers targeted radiant heat that penetrates cementitious extrusions

• Evens out moisture across layers to improve bond strength

• Accelerates curing cycles without overheating the surface

• Reduces cracking and layer separation

• Maintains a stable temperature envelope around the structure

• Enables consistent results in outdoor or variable‑weather conditions

 

Why It Works

 

Because the platform is derived from a configurable 40–200 W/in (136.5–682.4 BTU/in²) patent, watt‑density can be tuned to the geometry, thickness, and thermal needs of 3D‑printed assemblies — something conventional heaters cannot do.

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Platform Summary

 

All product configurations are derived from the same patented foundation:

 

“40–200 W/in Radiant Thermal Platform (136.5–682.4 BTU/in²)”