World’s largest pit thermal storage in Vojens
In Vojens, Denmark, a 200,000 m³ pit thermal storage basin stores surplus solar heat from a 70,000 m² collector field. Using Solmax geosynthetics, the system reduces CO₂ emissions by 6,000 tons annually.

Infrastructure developments in South East Asia often involve construction on soft soils, which present significant challenges. Pulau Indah in Malaysia, where Westport is located, has a subsoil consisting of very soft marine clay. The project required a stable load supporting platform for container handling and storage.
The demand for container handling and storage increased, necessitating the construction of additional load supporting platform areas. However, the soft marine clay profile made the initial platform construction challenging and costly. To create a stable platform, 1 meter (3.28 feet) of base course material was used.
The platform at Westport Pulau Indah was reconstructed using the MIRAFI® HP380a subgrade stabilization geotextile. This geotextile was placed between the soft subgrade and a reduced base course thickness of 500 millimeters (19.69 inches). The MIRAFI HP380a geotextile provided reinforcement, base course confinement, separation, and permeability, resulting in a stable load supporting platform. This solution offered cost savings for the client.
The subgrade was prepared by leveling and smoothing the surface. The MIRAFI HP380a geotextile was then placed flat and tightly without folds or wrinkles on the prepared subgrade. Adjacent rolls were joined by overlapping. The aggregate fill was placed in loose lifts of 200 to 300 mm (7.87 to 11.81 in) over the geotextile. The fill was dumped from the edge and spread outward. Finally, the aggregate fill was compacted according to project requirements.
The use of geosynthetics, such as the MIRAFI HP380a geotextile, has been proven to enhance the performance of roads and load support structures. In the Westport Pulau Indah project, the adoption of the MIRAFI HP380a geotextile with a reduced base course thickness of 500 mm (19.69 in) provided a stable load supporting platform for container handling and storage. This geotextile offered reinforcement, base course confinement, separation, and permeability, effectively improving subgrade stabilization. The solution proved to be cost-effective compared to the initial construction without geotextile, which was both expensive and unsatisfactory.

ENTERTAINMENT CITY, PARANAQUE, PHILIPPINES

CONTAINER YARD, KLANG, MALAYSIA
CONTAINER YARD, KLANG, MALAYSIA
World’s largest pit thermal storage in Vojens
In Vojens, Denmark, a 200,000 m³ pit thermal storage basin stores surplus solar heat from a 70,000 m² collector field. Using Solmax geosynthetics, the system reduces CO₂ emissions by 6,000 tons annually.
Reinforced soil walls maximizing urban developable land
Geocomposite-reinforced soil walls totaling 1,385 m supported land formation at Eco Botanic City, providing stable retaining walls, efficient drainage, and the use of local backfill while maximizing developable land on a constrained urban site.
Pit thermal energy storage in Gram, Denmark
In Gram, Denmark, a 122,000 m³ pit thermal energy storage with a 44,800 m² solar collector field provides 18,000 MWh of heat annually. Solmax geosynthetics ensure safe high-temperature storage and reduce CO₂ emissions by 3,700 tons per year.