Urban consolidation centres (UCCs) have been discussed over many years in the city logistics literature. The amount of successful UCCs in the long run were, and are, very scarce, though. Little is published on the practical issues and experiences of running a UCC and offering UCC-services. In the Netherlands, Binnenstadservice (BSS) has run UCCs and UCC services for over a decade now. This contribution discusses development and the experiences of running a UCC in practice in the form of seven lessons, including the evolvement of the business model and organisation model, as well as the development from offering 'only' the cross-dock of physical flows, to that of the full triple cross-dock, including financial and information flows. Next, UCCs can be the answer to future challenges, such as zero emission city logistics and fit perfectly into the Physical Internet vision.
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A new urban consolidation centre, called Binnenstadservice.nl ('Inner city service'), started business in April 2008 in the Dutch city of Nijmegen. The consolidation centre in Nijmegen differs from initiatives in the past, distinguishing itself from other UCC initiatives by its focus on receivers rather than on carriers. After one year already 98 stores joined Binnenstadservice.nl and this number is still growing. Due to Binnenstadservice.nl, fewer trucks enter the city centre and fewer kilometres are driven. In this paper we provide insights into the local effects of the Binnenstadservice pilot after one year, such as air quality, inconvenience for residents and noise nuisance. The effects on local air quality and noise nuisance are limited, due to the amount of passenger and bus traffic remaining. Plans exist to start Binnenstadservice.nl franchises in other Dutch cities, which could result in making Binnenstadservice.nl a more serious partner for carriers to handle the transport of last mile distribution in cities.
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from the article: "Abstract The way in which construction logistics is organised has considerable impact on production flow, transportation efficiency, greenhouse gas emissions and congestion, particularly in urban areas such as city centres. In cities such as London and Amsterdam municipalities have issued new legislation and stricter conditions for vehicles to be able to access cities and city centres in particular. Considerate clients, public as well private, have started developing tender policies to encourage contractors to reduce the environmental impact of construction projects. This paper reports on an ongoing research project applying and assessing developments in the field of construction logistics in the Netherlands. The cases include contractors and third party logistics providers applying consolidation centres and dedicated software solutions to increase transportation efficiency. The case show various results of JIT logistics management applied to urban construction projects leading to higher transportation efficiencies, and reduced environmental impact and increased production efficiency on site. The data collections included to-site en on-site observations, measurement and interviews. The research has shown considerable reductions of vehicles to deliver goods and to transport workers to site. In addition the research has shown increased production flow and less waste such as inventory, waiting and unnecessary motion on site."
