Civils and Utilities

Plastic piping systems are widely used for the transport of water, wastewater, surface water run-off and gas. Applications encompass drainage from domestic properties, water and gas supply, right up to large scale infrastructure and industrial projects.

Technical Guidance

Altering, diverting or repairing polyethylene water pipelines

Structural design of buried thermoplastic piping systems

Discharge to drains from domestic properties

Maximising the lifespan of plastic geocellular drainage systems

Selection and installation of plastic inspection chambers for underground drain and sewer systems

Connecting pipes to manholes,chambers and other structures

Effective cleaning of drains and sewers

Lifetime of polyethylene pipelines under pressure v2

The effect of sunlight on the physical properties of PVC-U pipes

Dealing with longitudinal forces in a polyethylene pipeline under pressure

Butt fusion jointing of polyethylene pressure pipes

Polyethylene pipes for below ground water applications in brownfield sites

Branch connections for water and gas mains

Guide to designing geocellular systems to CIRIA report C737

Designing drains and sewers for brownfield sites

Quality assurance with electrofusion jointing

Specification Guidance

Colours for plastic conduit systems

Specifications for plastic conduit systems

Selection and installation of covers for manholes and inspection chambers - BS 7903: 2020 v2

Infographic - Plastic pipes for public gravity foul sewers (adoptable) 100 to 300mm

Infographic - Plastic pipes for private gravity foul sewers (non-adoptable) 100 to 300mm

Infographic – Plastic pipes for public gravity foul sewers (adoptable) >300 to 500 mm

Infographic – Plastic pipes for public gravity foul sewers (adoptable) 500 to 900 mm

Specifying flanged joints for polyethylene pressure piping systems v2

Specifications for plastic pipes, chambers, manholes and covers for drainage and sewerage applications v4

Guide to leaktightness testing of gravity drains and sewers

Specifications for plastic drainage and service ducts in highways v2

Designing geocellular drainage systems - a practical approach

Recycled bedding and surround for gravity drains and sewers v2

Joining of polyethylene pressure pipes for below ground water applications v3

Specifications for polyethylene pipe and fittings for water supply, and drains and sewers under pressure v4

Specifications for PVC pipes and fittings for water supply, drainage and sewerage under pressure v2

Joining of polyethylene pressure pipes for below ground gas applications v2

Guide to the suitability of plastic piping for industrial systems v2

Literary Review

LITERARY REVIEW - Environmental impact of trenchless technology

PVC Q&A Supporting evidence

Webinars

Making Connections To Polyethylene Water Pipes | 1st July 2021

Designing Drains and Sewers | 24th November 2021

Benefits

Plastics offer many benefits for the construction of new pipelines, storage and attenuation of surface water, rehabilitation of old drains and sewers, and access facilities such as chambers and manholes for maintenance of pipelines.

The inherent properties of plastics are used to provide corrosion resistant, flexible and fully weldable piping systems for gas and water supply. Polyethylene pipes up to 1.2 metres in diameter reliably transport drinking water every day, maintaining water quality right to the customer. The long service life (in excess of 100 years), tolerance to external forces such as traffic loading and ground movement, together with ease of handling and robustness on site add up to a trusted material for civils and infrastructure projects.

Plastics have a lower carbon footprint through their whole life cycle than other materials for pipes. When they reach their end of life as water and sewer pipe systems, they can be recycled meaning they have an important role to play in contributing to the circular economy.

With more incidents of flooding taking place worldwide, having a robust infrastructure system is essential, which means being able to manage surface water more efficiently than ever before. Infiltration units, attenuation tanks and SuDS systems are increasingly playing their part in addressing the problems associated with rising rainfall levels and run-off from newly developed sites.