Private sector/Corporate/Company

Carillion-igloo, a joint venture company formed between The igloo Regeneration Partnership and Carillion plc was selected by Newcastle City Council and the Homes and Communities Agency to work in partnership with them in the redevelopment of a number of sites in the Lower Ouseburn Valley, Newcastle.
The regeneration project has been carried out in line with the sustainable investment policy of Igloo and consists of 5 phases. Phase 1: The Mailings focused on the transformation of a former industrial brownfield into a vibrant residential area on the banks of the Ouseburn promoting sustainable, low-energy living, flood protection and community building. These objectives were achieved by green areas creation, sustainable drainage system application and unique urban planning measures. (2, 15)

The Brunton Park residential area in the northern part of Newcastle had a history of flooding as a result of urban growth in the local area and developments in the upper parts of the Ouseburn catchment. A total of 62 properties were at risk of sewer flooding whilst 74 properties were located within a flood zone. In 2014, the collaboration of the Northumbria Water, the Environmental Agency and the Newcastle City Council created the Brunton Park Flood Alleviation Scheme with the strategic objective to reduce the potential for flooding of adjacent properties from surface water and the Ouseburn, whilst also developing a sustainable, self-maintaining channel which supports environmental, social and economic purposes at the same time. (12)

The project included physical measures of embankment building, diverting part of the Ouseburn river, installation of sewage storing tank, and creating new water-dependent habitat (12)

The nonprofit organisation of Groundwork North East & Cumbria is working with partners from across the region to protect and preserve the upper part of the Ouseburn River. The Ouseburn River Restoration Project includes several physical measures and a number of enhancements to the river and the surrounding environment to slow the flow of the river, restore its ecosystem and improve water quality. The Project also works with farmers and landowners about how to manage fertiliser and sediment runoff, thus decreasing water contamination. The project will improve in-river and bankside habitats and provide with more water monitoring data and analysis.” (1)

The "PROSIT" project aimed at undertaking a series of actions based on environmentally compatible mechanisms to protect and recover the coastal rural territory of Cinque Terre. Today, the terraced landscape is characterised by intense processes of land abandonment and disuse, caused both by practical and economic difficulties of maintenance and by social changes. There is a risk that the damage caused by land abandonment can compromise the area's delicate hydrogeological balance, especially in an area where landslides and floods are highly common (1). A demonstration project to recover abandoned terraces was carried out in five areas of the park (1).

LIFE VIMINE is a project that aimed to define and apply a new type of integrated approach to the management of the territory, based on the erosion protection of the most indigenous barns and marshes in the Laguna of Venice. These unique habitats are rapidly disappearing due to natural processes and human impacts of varying nature. The project has contributed to repair and protect salt marshes borders as soon as erosion starts, build micro soil bioengineering works that are able to absorb wave energy, reduce erosion, promote sedimentation with a low effort and cost and improve coastal resilience and protection (1).

This vertical garden was created with the aim to integrate the shopping mall in the surrounding green. A total of 44.000 plants of 200 different species were used on a surface of 1.262 square meters, making it the largest living wall in the world (now in Italy) at the time it was created. The green wall has met large positive response both by the owners of the shopping mall, who noticed a decrease in their energy expenses, and by local residents, who can appreciate the aesthetic beauty of the wall and breathe fresher and cleaner air. (2,3)

The roof of IKEA in Åsane outside Bergen covers 22,000 m2 and has been covered with plants since 2011. (Ref. 1) The green roof promotes biodiversity, cleanses the air from pollutants and acts an important flood prevention measure in the region, as Bergen experiences a lot of rainfall and is expected to receive more as a consequence of climate change over the coming decades. (Ref. 3,5) The roof has attracted a lot of birdlife, including endangered species. (Ref. 2)

The Vertical Garden Wall situated at the J&T Bank Café Bratislava was constructed in 2010 as Bratislava's first vertical green wall. The green wall in the two-story J & T Bank Café is one of the most recent implementations of Patrick Blanc – botanist and the creator of Vertical Garden. The Café was designed by the architectural studio MIMOLIMIT, and has been realized under the supervision of AED project. The vertical garden consists of more than 2600 plants of 66 various species (3).

This office complex at 10 Gedonstrasse in Munich was completed in the spring of 2002 with a pre-grown Ceratodon purpureum green roof and living green wall panels. It uses a special technique called BRYOTEC Technology, which enables the producing of (plant) mosses for revitalization. The biological crusts of mosses which it produces play a very important role in engineered soil media stabilisation, accelerating the development of depleted soils/substrates for vegetation establishment.
The extensive green roof is built up from mosses that require minimum maintenance. (Reference 1, 4)

The data centre for Citi Bank in Frankfurt is the first in the world to put sustainability at its heart, setting radical new standards in an industry at the forefront of the fight against global carbon emissions (1). The functional and aesthetic aspects, as well as their CO2 balance and later reusability, played a decisive role in the selection of all materials. Disguising the full volume of the data hall, the iconic green wall features indigenous plants and is fully irrigated by harvested rainwater. The wall, measuring some 55 m by 12 m high, complements the extensive green roof and helps maintain a constant building temperature throughout the year while reducing thermal gain in the summer months. (1)