Prowess EcoTechnologies Ltd


GCCT TECHNOLOGY ADVANTAGES

TO GCCT UNIQUE CHARACTERISTICS

Wildfires, floods, and hurricanes have globally become some of the worst enemies for many of the world's communities in recent years.

GCCT's superior eco-friendly design methods for more sustainable and high-quality housing provide more resilient structures capable of withstanding more violent nature.

Besides strength and durability with VIC Super-insulation, a GCCT building, or villa can also be equipped with one or more energy systems.

GCCT energy systems comprise various energy systems designed for self-sufficient homes that do not compromise the house’s quality and environmental considerations.

Magma is transformed into basalt reinforcement in

HPCC (High Performance Ceramic Concrete).

The absence of iron in GCCT "Global Ceramic Construction Technology" further reduces the carbon footprint, weight, and degeneration of the structure cause by rust. All iron has been replaced with basalt reinforcement.

Basalt fibre is produced from melted basalt (magma), one of the most common minerals on Earth. Our manufacturing process enhances the properties of basalt fibre to be comparable to those of carbon fibre, but without the health risks associated with carbon fibre and at a significantly lower cost.

ADVANTAGES
Advantages with the GCCT “Global Composite Construction Technology”

  • Environmentally Friendly.
  • Almost Maintenance Free.
  • Energy efficient.
  • Cost-effective investment.
  • GCCT is ideal for most constructions.
  • Industrial made.
  • Ceramic Roof, Walls & Floor.
  • Integrated with VIC Super-insulation.
  • Long life length.
  • High debris impact resistance > Up to 15 Mpa (Mega Pascal).
  • High Hurricane Resistance > Up to 5 scale hurricanes.

GCCT SELF-SUFFICIENT ENERY SYSTEMS

These energy systems are designed to be exceptionally self-sufficient.

With proper design and dimensioning, they can achieve over 100% self-sufficiency even in the Nordic countries, this surplus energy ensures a highly reliable power supply, providing a much safer electrical network in case of local grid interruptions.

In countries like South America, Asia, and Africa, where solar energy is abundant, it is possible to produce a significant energy surplus. Such a system can be utilized to produce hydrogen, which can be stored or sold to established customers and users within industries, transportation, and similar fields.

In the near future, hydrogen, besides supplying household electricity, could also power battery or hydrogen vehicles.
With GCCT’s self-sufficient energy systems, this will lead to improved household economies.