Thermal System/
MORE FTA
Innovative radiant floor heating and cooling system, with low thickness, high reaction speed, and high efficiency.
Benefits:
- Low thickness
- High reaction speed
- Energy efficiency
- Uniform heat distribution
What is MORE FTA?
MORE FTA is the innovative dry radiant heating system with high speed reaction that can be installed on the floor, wall or ceiling and does not require a screed. Its very small overall footprint enables the realization of finished systems in less than 35 mm thickness.
Thanks to its reduced thickness and very low thermal inertia, the panel MORE FTA represents the ideal solution for new construction or redevelopment in any area of use. The rapid thermal response allows for shorter system set-up and response times to disturbances, which combines well with the high inertia of the building envelope.
MORE FTA can be installed on any type of planar substrate and on existing floors, and can also be applied to walls, ceilings and false ceilings.
MORE FTA, thanks to its flexibility, is compatible with any type of finish: ceramic, parquet, resin, marble, stone, resilient flooring type LVT - SPC.
Plus
- Uniform temperature distribution
- Dual coil system
- Direct flooring installation
- No need for load distributors
- No need for cement screed
- For heating and cooling systems
- Total thickness less than 3 cm
- Simple and quick installation
- Ideal for renovations and new high-energy-efficiency homes
- High resistance to concentrated loads
- Suitable for all types of finishes
- Energy savings
- Compatibility with renewable energy sources
- Silent operation
- Suitable for heat pumps
Stratigraphy
Production range
MORE FTA PANEL Installation pitch 80 mm
This panel allows the installation of double coil circuits with compensated return. This configuration further improves the thermal efficiency and management of room climate control, for a more homogeneous distribution of heat in favor of climatic Wellbeing.
MORE FTA PANEL Installation pitch 160 mm
This panel allows the installation of coil circuits with an installation pitch of 160 mm. It ensures even heat distribution and efficient space conditioning.
The MORE FTA system
The MORE FTA system consists of a high-strength panel mechanically, made of sintered expanded polystyrene type EPS 300, molded with closed cells, coated on the top with aluminum foil, suitable for the realization of radiant air conditioning systems with reduced thickness, without screed and load dividers, with direct installation of the flooring on the panel and characterized by very low thermal inertia. The permanent compressive strain stress value of 90 kPa allows considering a load of up to 570 kg distributed on a single tile with dimensions 25x25 cm.
Equipped with parallel rectilinear seats for MORE PLUS PIPE Ø16x2 mm with preshaped pitch and head bends pre-shaped in the panel. The special conformation of the rails allows the system to be laid in a double-coil configuration for a more homogeneous distribution of heat in favor of perceived climatic Wellbeing compared to single-coil laying typical of dry systems.
To complete the system, MORE ZONE, the brass multi-zone modular manifold kit, ensures efficient distribution of the heat transfer fluid. MORE FIL, the flush-wall cabinets, integrate perfectly with any type of finish—from masonry to plasterboard, ceramic to wood—offering a discreet and functional solution. MORE SET, the integrated system for climate regulation, monitoring, and control, provides advanced management of climate wellbeing, optimising both comfort and efficiency.
MORE FTA PANEL
High-efficiency insulation panel for dry installation, made of EPS 300 sheet milled for pipe laying and coated superficially with a layer of aluminum.
MORE PLUS PIPE
4-layer polyethylene pipe (PE-RT TypeII/EVOH/PE-RT) for underfloor heating.
MORE ZONE
Brass multi-zone modular manifold kit.
MORE FIL
Flush-wall cabinets that can be integrated with any type of finish: masonry, plasterboard, ceramic and wood.
Applications
The MORE FTA system is the ideal solution for new constructions, thanks to its extremely low thermal inertia and consequently reduced system response times. It integrates perfectly with the high inertia of the building envelope and is also suitable for renovations, raised floors, or any context with limited ceiling height.