The developments in city logistics are leading to an increasing number of smaller, time-sensitive deliveries. The parcel market has consistently grown over the past decade, with emerging business models such as ship-from-store (both B2C and B2B) and quick commerce. Moreover, companies are increasingly striving to become more sustainable. To address the challenges of faster delivery, clean transportation (low/zero-emission), and limited space in dense cities, the Light Electric Freight Vehicle (LEFV) presents itself as an innovative solution. This study focuses on LEFVs, encompassing all vehicles with a logistics application ranging from pedal-assisted cargo bikes to light electric vans (LEFV-N1). We specifically examine fresh goods delivery, parcel delivery, service logistics, and construction logistics for urban logistics applications. The study concentrates on factors that account for the potential growth of various types of LEFVs in the Netherlands across these applications over the next decade. The research methodology involves desk research, validation through workshops, quantitative analysis, and interviews with users, legislators, manufacturers, and dealers/leasing companies. The findings of the study include identification of trends, developments, vehicle characteristics, legal frameworks, potential growth opportunities for LEFVs, policies governing LEFV deployment, user profiles, reasons for deployment, and an estimated count of LEFVs in 2027. This count distinguishes between cannibalization on N1 and the number of LEFVs entering new (and partly non-existent) markets.
MULTIFILE
In the Dutch National Environmental Vision the societal challenge of building sustainable 1 million homes by 2035, is associated to the energy and mobility transitions. New living and working locations are mapped on existing urbanized sites - mainly at catchment areas of public transportation (PT) nodes or stations – and connected to good accessibility. The stations of the future become hubs, where you can transfer from one mode of transport to another, and find places to meet up, work, exercise and eat. In order to reduce congestions and CO2 emissions, the Ministry of Infrastructure and Water Management has developed a vision on the future of public transport in PT 2040 based on Door-to-Door solutions. This requires the development of new city policies in the field of bicycle and car parking, shared mobility systems, environmental zones (car-free) and public space design. The hubs are important enablers of the mobility transition (promoting the transition from car to PT or bike, in combination with shared mobility to be prepared for a post-pandemic phase). Most stations do not meet the new mobility requirements and face problems such as lack of space for bicycle parking and shared modes, as well as lack of public space. How to improve mobility transition, make it seamless and create public space for more inviting and attractive stations for people and with less cars? WALK-IN will develop a toolkit for designers which provide generic guidelines and spatial solutions for the integration of sustainable mobility in public space at PT nodes. The toolkit is developed between and with academia, public and private partners. The project aims to develop a new network and an EU funding proposal on Energy transition and Sustainability or for the forthcoming Driving Urban Transitions program from the Joint Program Initiative Urban Europe.
