FRP pipe: an effective solution for wastewater management

Commonly employed fibres include carbon, glass, basalt or aramid. In some cases, other fibres like wood, asbestos, and paper have been utilised. While vinyl ester, polyester, epoxy thermosetting plastics are used as matrix materials. In some cases, phenol formaldehyde resins are also used.

Fibreglass-reinforced pipes are experiencing a rapid surge in demand because they play a vital role in the industrial sector. These pipes, made from FRP, are non-metallic and crafted by continuously wrapping fibreglass filament saturated with a specialised combination of epoxy resin and curing chemicals. Their applications range from piping systems to tankers, and various vessels across numerous fields and industries. The global FRP pipe industry is gaining momentum owing to an expansion of the building and construction sector and the benefits of FRP pipe in the construction domain.

Features of FRP pipes:

• Lightweight

FRP pipes, designed from a combination of 1/10 P.S.C., 1/5 steel, and 1/8 C.I., exhibit a reduced strength-to-weight ratio compared to alternative materials. Their lightweight construction enables easy handling, installation, modification, and repair of FRP pipes.

• Non-corrosive

FRP pipes inherently possess corrosion resistance. In many cases, fibreglass-reinforced plastics stand as the sole material capable of withstanding certain parameters. Additionally, their corrosion resistance, typically coupled with cost efficiency, positions them as the most viable solution. The corrosion resistance of Fibreglass Reinforced Plastic pipes depends on both the overall resin content and the specific resin employed in the pipe's laminate. Thus, a higher resin content equals to increased resistance against corrosion.

FRP pipes offer an excellent solution for transporting corrosive wastewater and sewage. Their smooth inner surface effectively facilitates the flow of various fluids. Corrosion resistance is a crucial attribute in these applications.

• Flexibility

FRP pipes offer versatility in shaping various equipment pieces or configurations using permanent or temporary molds. For instance, constructing ductwork with FRP pipes is highly feasible as it enables the production of different types of rectangular transitions, Tee inlets, circular transitions, flanges, and elbows at a minimal expense. Additionally, Fibreglass Reinforced Plastic pipes are a suitable option for lining both new and existing structures.

Computer software programmes have significantly improved the design of FRP systems. These programmes include various functionalities such as analysing gas flow, chemical composition, liquid flow, and thrust blocks, and providing installation information.

Recent developments transforming the FRP pipe industry:

RPS Composites introduced a robust and durable joint specifically designed for FRP (Fibreglass Reinforced Plastic) piping systems.

RPS Composites, based in Franklin, Ohio, US, has introduced the RPS Grooved Adapter, specially designed for use in combination with RPS fibre-reinforced polymer (FRP) piping systems. This adapter is designed for use with a Victaulic Style 296-A coupling, resulting in a sturdy and dependable joint for FRP piping. As per the RPS, the most appealing feature of the Grooved Adapter is its ease of use, enabling coupling or uncoupling within minutes without requiring any specialised tools or training. Specifically designed for mild corrosive environments such as water, seawater, and wastewater, the RPS Grooved Adapter offers practicality and convenience in its application.

The RPS FRP adapters have undergone rigorous testing and meet the ASME NM.2-2020 Proof of Design qualification test standards. These tests include static pressure, cyclic pressure evaluations, and hydrostatic strength testing.

CPP has successfully installed the tallest Fibre Reinforced Polymer (FRP) stack liner for the Bangladesh-India Friendship Power Company

CPP (Chemical Process Piping), a company specialising in industrial piping solutions producing GRP and FRP-based pipes, has introduced an FRP stack in the FGD (Flue Gas Desulfurisation) plant established by BIFPCL (Bangladesh India Friendship Power Company). This joint venture operates on a 50:50 partnership between the Bangladesh Power Development Board and the National Thermal Power Corporation.

CPP has accomplished Phase I of the Maitree Super Thermal Power Plant project in collaboration with BHEL and Simplex in Bangladesh. Marking a significant achievement, CPP stands as the pioneering entity in this sector by successfully constructing an 800 ft FRP stack for the 1320 MW coal-fired power station located in Rampal, Bangladesh. This accomplishment positions CPP as the foremost FRP manufacturer in this region to employ vertical winding technology for filament winding the FRP stack, a pioneering approach adopted for their project in Bangladesh. The project itself represents an environmentally friendly initiative, leveraging supercritical technology for the thermal power plant.

To sum up, the global FRP pipe industry is experiencing growth due to the advantages of these pipes in the construction sector and the rapid growth of the construction and building sector. The potential of FRP pipes in wastewater management will present remunerative growth opportunities to the market in the upcoming years.

Read the article online at: https://www.worldpipelines.com/special-reports/13122023/frp-pipe-an-effective-solution-for-wastewater-management/