Glass-fiber reinforced plastic septic tanks refer to specialized equipment made from a synthetic resin matrix and glass fiber reinforcement materials, designed for treating domestic wastewater.

Its lightweight, high strength, excellent toughness, corrosion resistance, vibrant colors, and glossy finish reaching mirror-like quality.

Fiberglass septic tanks are specialized equipment made from a synthetic resin matrix and glass fiber reinforcement materials, designed for treating domestic wastewater. They are actively promoted composite products by the state, known for their lightweight, high strength, excellent toughness, corrosion resistance, vibrant colors, and mirror-like finish. They have far outperformed similar products made from ceramics, rigid plastics, and steel, and are widely used in industries such as chemicals, petrochemicals, construction, textiles, aviation, maritime, transportation, electricity, metallurgy, machinery, food, papermaking, and environmental protection. Fiberglass septic tanks are also used in industrial and civil buildings like residential complexes for the purification and treatment of domestic wastewater. They temporarily store excrement, allowing for initial decomposition within the tank to reduce the solid content in the discharged wastewater.

1. Backfilling must meet construction specification requirements. Pools can be lined with clean-out wells (inspection wells), which come in two types: brick-lined wells and prefabricated reinforced concrete wells.

2. To prevent leakage in brick-lined manholes, it is required to apply a waterproof mortar coating on both the inner and outer walls of the well, with a thickness of 20mm (1:2 waterproof mortar, with 5% of the waterproofing agent by weight of the cement), and a 45-degree angle be applied at the internal corners. On the inclined surface, the thickness should be 50mm. When groundwater is present, apply two layers of hot asphalt (or other waterproof coating) to the outer wall of the well, and then cover it with soil up to the ground level requirements.

Advantages

One: Cost-Effective: The fiberglass septic tank is factory-produced, mechanized, mass-produced, and in an integrated shape. It employs new technology and materials, featuring a compact size with a large effective volume.

Section 2: The glass fiber reinforced septic tank is an integrated design, lightweight yet high-strength, with quick and easy installation.

Three, the compact fiberglass septic tank saves land excavation area.

Four, fiberglass septic tanks have excellent sealing performance, effectively treating feces, and their anaerobic decomposition effect is more than twice as good as traditional septic tanks.

Five. The environmentally-friendly glass fiber reinforced plastic septic tanks are produced in a monolithic form, featuring excellent sealing performance with no leakage or contamination of surface water. They do not corrode the surrounding plants, grass, trees, or electrical cables. The tanks utilize high-level siphon drainage with multiple sedimentation and purification processes.

Six, the durable glass fiber reinforced plastic septic tank is made of new material glass fiber, with resistance to aging and acid and alkali, with a service life of over 50 years.

Seven, high-pressure-resistant glass fiber Reinforced Plastic septic tanks with international 50 steel reinforced resin sealing, cylindrical shape, offer several times the compressive strength compared to polygonal or square shapes.

Section 8: The glass-fiber septic tanks, without post-maintenance, feature a long slag removal cycle, are buried underground, require no power, and no maintenance or management is needed later on.

Once the glass fiber reinforced septic tank is in place, backfilling should be conducted. The lower part of the tank should be filled with sand and soil (the height should not be less than half the diameter of the tank), and it is strictly prohibited to use construction waste as backfilling material. Stones in the backfilling soil should be removed, and the soil should be compacted in layers, with each layer compacted at a thickness of 30mm. It is advisable to use manual compaction. Avoid local strong impacts during backfilling (such as using pneumatic rammers), ensuring the backfilling soil around the tank is compact and dense.