
Earl Shilton Treatment Works Severn Trent Severn Trent Earl Shilton Sewage Treatment Works Earl Shilton Sewage Treatment Works Wrekin Products was approached by Severn Trent’s contractor to discuss the creation of site access and a proposed working platform to be installed at the sewage treatment works at Earl Shilton, south west of Leicester. The works was being developed to increase its waste processing capacity. The proposed plant for the site works required temporary works access as well as a working platform for the concrete pump and hydraulic (Kobelco CKE700) crawler crane. The traditional approach to working platform design is to use a BR470 design methodology as suggested by BRE – Working Platforms for Tracked Plant (2004). Instead, Wrekin’s technical team proposed using a form of load spread analysis incorporating the use of E’GRID Biaxial geogrid. This meant the working platform thickness could be reduced by a further 40% compared to BR470. Although the application area was not large, when operating in such confined spaces, the benefit was significant. Reducing the resources required can have a very positive impact on such a restricted site, not only reducing costs, but also minimising the contractor’s construction programme and overheads. “ The value-engineered solution provided by Wrekin Products cut our costs by 40%. We were very pleased with the savings made, but also the technical support and the professional levels of service provided. Sam Harris MWH Global (Stantec) Within a well-managed time-frame, the technical team was able to value engineer the traditional approach to working platform construction. With tight site constraints and limited resources, the impact on value engineering the temporary working platform was a 40% cost reduction, after an allowance for the cost of the geogrids. Throughout the project, Wrekin assisted with the coordination of the proposals, collaborating with the full supply chain, which included Noble Works as the scheme designers and Stantec as the Tier 1 contractor. E’GRID Biaxial geogrid from Wrekin is a large aperture polypropylene geogrid used to reinforce the ballast layer, reducing ballast settlement and subsequent maintenance intervention following ballast renewal. E’GRID delivers ground stabilisation under roads, railways (Wrekin Products has a Network Rail certificate of acceptance for E’Grid Biaxial Grid) and paved areas. Employed in single or multi layers, the tough platform created provides tremendous load dispersal, allowing previously weak soils to be reclaimed for a wide range of uses, including, as at Earl Shilton, for access roads and platforms. When granular particles are compacted over E’GRID Biaxial grids, they partially penetrate and project through the apertures to create a strong and positive interlock. The load dispersal effect from the interlocking mechanism increases shearing resistance within the soil, improving compaction and allowing the sub-base thickness to be decreased, ultimately cutting construction costs and time. Related case studies Related case study 30,000 homes powered cleanly after Wrekin intervention The Sneddon Law Community Wind Farm in East Ayrshire, Scotland is set to deliver 15 wind turbines – each 130 metres tall from bottom to tip. However, before the project could get underway, we were brought in to help lay the groundwork. Community Wind Power Read more Related case study Chelsea Garden Project The Hospital of St John and St Elizabeth in London is one of the UK’s largest independent charitable hospitals. This project involved a need to solve the design constraints for the relocation of a Chelsea Flower Show garden to a hospice, on part of the hospital site. Wrekin provided geosynthetics products, and our experts led on-site product installation supervision to devise innovative solutions. Hospital of St John & St Elizabeth Read more Share this page

Earl Shilton Treatment Works

Severn Trent
Severn Trent
Earl Shilton Sewage Treatment Works
Earl Shilton Sewage Treatment Works

Wrekin Products was approached by Severn Trent’s contractor to discuss the creation of site access and a proposed working platform to be installed at the sewage treatment works at Earl Shilton, south west of Leicester.

The works was being developed to increase its waste processing capacity. The proposed plant for the site works required temporary works access as well as a working platform for the concrete pump and hydraulic (Kobelco CKE700) crawler crane.

The traditional approach to working platform design is to use a BR470 design methodology as suggested by BRE – Working Platforms for Tracked Plant (2004). Instead, Wrekin’s technical team proposed using a form of load spread analysis incorporating the use of E’GRID Biaxial geogrid. This meant the working platform thickness could be reduced by a further 40% compared to BR470.

Although the application area was not large, when operating in such confined spaces, the benefit was significant. Reducing the resources required can have a very positive impact on such a restricted site, not only reducing costs, but also minimising the contractor’s construction programme and overheads.

“

The value-engineered solution provided by Wrekin Products cut our costs by 40%. We were very pleased with the savings made, but also the technical support and the professional levels of service provided.

Sam Harris

MWH Global (Stantec)

Within a well-managed time-frame, the technical team was able to value engineer the traditional approach to working platform construction. With tight site constraints and limited resources, the impact on value engineering the temporary working platform was a 40% cost reduction, after an allowance for the cost of the geogrids.

Throughout the project, Wrekin assisted with the coordination of the proposals, collaborating with the full supply chain, which included Noble Works as the scheme designers and Stantec as the Tier 1 contractor.

E’GRID Biaxial geogrid from Wrekin is a large aperture polypropylene geogrid used to reinforce the ballast layer, reducing ballast settlement and subsequent maintenance intervention following ballast renewal.

E’GRID delivers ground stabilisation under roads, railways (Wrekin Products has a Network Rail certificate of acceptance for E’Grid Biaxial Grid) and paved areas. Employed in single or multi layers, the tough platform created provides tremendous load dispersal, allowing previously weak soils to be reclaimed for a wide range of uses, including, as at Earl Shilton, for access roads and platforms.

When granular particles are compacted over E’GRID Biaxial grids, they partially penetrate and project through the apertures to create a strong and positive interlock. The load dispersal effect from the interlocking mechanism increases shearing resistance within the soil, improving compaction and allowing the sub-base thickness to be decreased, ultimately cutting construction costs and time.

Related case studies

Related case study

30,000 homes powered cleanly after Wrekin intervention

The Sneddon Law Community Wind Farm in East Ayrshire, Scotland is set to deliver 15 wind turbines – each 130 metres tall from bottom to tip. However, before the project could get underway, we were brought in to help lay the groundwork.

Community Wind Power

Related case study

Chelsea Garden Project

The Hospital of St John and St Elizabeth in London is one of the UK’s largest independent charitable hospitals. This project involved a need to solve the design constraints for the relocation of a Chelsea Flower Show garden to a hospice, on part of the hospital site. Wrekin provided geosynthetics products, and our experts led on-site product installation supervision to devise innovative solutions.

Hospital of St John & St Elizabeth

Share this page

Earl Shilton Treatment Works

Related case studies

30,000 homes powered cleanly after Wrekin intervention

Chelsea Garden Project

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