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3‘Efficiënter en groener’, dat vat samen wat moderne stadslogistiek kan brengen. De realisatie van deze voordelen is niet altijd eenvoudig gebleken. Stadslogistiek wordt een succes als verzenders, ontvangers, consultants en stadslogistieke dienstverleners elk vanuit hun eigen rol, stappen gaan zetten. Deze stappen moeten niet vrijblijvend zijn en bij voorkeur ook nog eens onomkeerbaar. In deze bluepaper presenteert de expertgroep Next-level City Logistics oplossingsrichtingen voor de belangrijkste showstoppers op het gebied van stadslogistiek.
Geschreven door expertgroep Shopping Tomorrow (Walther Ploos van Amstel is lid)
DOCUMENT
There is a lot of attention for the reduction of city logistics’ emissions. But also if city logistics’ vehicles are zero emission, the vehicles remain present in urban areas. Zero emission vehicles also occupy valuable urban space during unloading on the road and on sidewalks. Despite the spatial impact of city logistics, it is rarely considered in spatial planning. Based on four case studies, we explore possibilities to actively integrate city logistics in spatial planning policies and practices in order to reduce nuisance, but also to enhance efficiency of deliveries. In the end, spatial planning determines the physical urban conditions in which city logistics operations are taking place for many years. From the results we distil a research agenda to bridge the gap between city logistics as a traffic issue and its integration in spatial planning policies.
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Uit: M. Kraan, S. Weijers, & B. Vannieuwenhuyse (Eds.), Bijdragen Vervoerslogistieke Werkdagen 2022 (pp. 353-371). University Press Zelzate Municipalities play an important role in tackling city logistics related matters, having many instruments at hand. However, it is not self-evident that all municipalities use these instruments to their full potential. A method to measure city logistics performance of municipalities can help in creating awareness and guidance, to ultimately lead to a more sustainable environment for inhabitants and businesses. Subsequently, this research is focused on a maturity model as a tool to assess the maturity level of a municipality for its performance related city logistics process management. Various criteria for measuring city logistics performance are studied and based on that the model is populated through three focus fields (Technical, Social and Corporate, and Policy), branching out into six areas of development: Information and communication technology, urban logistics planning, Stakeholder communication, Public Private Partnerships, Subsidisation and incentivisation, and Regulations. The CL3M model was tested for three municipalities, namely, municipality of Utrecht, Den Bosch and Groningen. Through these maturity assessments it became evident the model required specificity complementary to the existing assessment interview, and thus a SWOT analysis should be added as a conclusion during the maturity assessment.
DOCUMENT
Little progress has been made in recent years toward achieving a fully circular economy by 2050. Implementing circular urban supply chains is a major economic transformation that can only work if significant coordination problems between the actors involved are solved. On the one hand, this requires the implementation of efficient urban collection technologies, where process industries collaborate hand-in-hand with manufacturers, urban waste treatment, and city logistics specialists and are supported by digital solutions for visibility and planning. But on the other hand, it also requires implementing regional and urban ecosystems connected by innovative CO2-neutral circular city logistics systems smoothly and sustainably managing the regional flow of resources and data, often at large and with interfaces between industrial processes and private and private and public actors. What are relevant research questions from a city logistics perspective?
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To realize a more sustainable city logistics system the focus should go beyond reducing emissions only. Next to zero emission vehicles, reduction of urban logistics trips is required in light of several urban, environmental and economic challenges. This contribution focuses on the role of hubs and decoupling points, where logistics flows to and from a city are decoupled from the flows in a city, to optimize the city logistics. For six distinctive hubs or decoupling point concepts, we examine the potential under current market and legal conditions. By decomposing city logistics in subsegments and urban logistics trip structures, we estimate the realistic trip reduction potential of decouple points in the current city logistics conditions.
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Research finds that the global market value of cargo bikes will hit 2.4 billion euros by 2031. Analysts with Future Market Insights assessing the growth of cargo bikes have placed the parcel courier industry as a key buyer of electric cargo bikes, forecasting that 43 per cent of sales could go to this industry. This growth is driven by city logistics trends, particularly as studies emerge showing the high efficiency and cost saving of the cargo bike versus the delivery van. It will not solely be direct incentives that drive uptake, however. The policy that restricts motoring and emissions is expected to be a key driver for businesses that seek profitability, with three-wheeled electric cargo bikes making up nearly half the market. The advance of e-bike technology has seen a strong rise in market share for assisted cargo bikes, now accounting for a 73 per cent market share. Potentially limiting the growth is the legislation governing the output and range of electric cargo bikes (FMI, 2021).
To deal with the issues of faster delivery, clean delivery (low/zero emission) and less space in dense cities, the light electric freight vehicle (LEFV) can be–and is used more and more as–an innovative solution. The way logistics in urban areas is organized is being challenged, as the global growth of cities leads to more jobs, more businesses and more residents. As a result, companies, workers, residents and visitors demand more goods and produce more waste. More space for logistics activities in and around cities is at odds with the growing need for accommodation for people living and working in cities.
Book: Innovations in Transport: Success, Failure and Societal Impacts
DOCUMENT
This study investigates whether a system of hub locations distributing goods across the water to the city of Amsterdam can be a potential future solution to guarantee same-day delivery to shopkeepers. A simulation model was developed to analyse the logistics performances and to optimise the number of hub locations and required fleet size. The simulation tests have shown that two hub locations are sufficient when they are equipped with two vessels. Conclusion of this study is that a waterborne city logistics concept with a small number of hub locations can compete with truck deliverance and seems to be a sustainable solution for other cities with large canals as well.
DOCUMENT
When it comes to City Logistics, the need to innovate comes from multiple directions. Greenhouse gas emissions must be drastically reduced while at the same time maintaining a vibrant and healthy economy, demanding robust action from each and every sector, including transport. At the same time, competition for scarce and precious common resources in a city (open and green space, an attractive and healthy nvironment, safety, clean air and low noise levels) puts political and societal pressure on supply networks to innovate in order to do more with less consumption of these scarce resources. This needs to be achieved not only by means of low-GHG-emission vehicles, but with less noise, less danger, less local pollution harmful to citizens, fewer transport movements and reduced need for roads and parking spaces.
DOCUMENT
Many new logistics initiatives arise based on the principles of resource sharing through crowdsourcing. Sharing unused and/or underused resources can deliver new efficiencies in the logistics value chain in an industry where efficiency is the name of the game. The benefits of applying sharing economy concepts in logistics in terms of higher efficiency, lower costs, less congestion and lower CO2 emissions seem easy to realize for both industry and society. While the sharing economy offers promising opportunities to start new businesses, the sharing economy is not without its challenges. Themes such as strict liability, insurance, transparency, and employee protection can hinder the progress of the sharing economy. Most difficult of all, the pace of technological innovation and social change often exceeds regulatory frameworks, resulting in banned services and protests from those working in traditional industries. Among five sectors in urban freight transport, i.e. city logistics, construction logistics, transportation & warehousing (retail logistics), healthcare logistics, and service logistics sharing concepts are studied over for the entire city of Rotterdam. Based on our main case study findings it can be observed that within the sectors of urban freight transport quite some differences exist with respect to the sharing maturity. Therefore a dedicated implementation plan is needed for each sector. This paper has shown what are the next steps to be taken for each sector and how the knowledge transfer can be established.
DOCUMENT
The demand for the transport of goods within the city is rising and with that the number of vans driving around. This has adverse effects on air quality, noise, safety and liveability in the city. LEFVs (Light Electric Freight Vehicles) offer a potential solution for this. There is already a lot of enthusiasm for the LEFVs and several companies have started offering the vehicles. Still many companies are hesitating to start and experience. New knowledge is needed of logistics concepts for the application of LEFVs. This paper shows the outcomes of eight case studies about what is needed to successfully deploy LEFVs for city logistics.
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