The Interreg Europe eBussed project supports the transition of European regions towards low carbon mobility and more efficient transport. The regions involved are Turku (Finland), Hamburg (Germany), Utrecht (The Netherlands), Livorno (Italy), South Transdanubia (Hungary) and Gozo island in Malta. It promotes the uptake of e-busses in new regions and supports the expansion of existing e-fleets. Within the project, there are four thematic working groups formed that aim at delivering a best practices report and policy recommendations to be used in the partner regions. Thematic Working Group 4 (TWG4) focusses on the topics of Procurement, Tendering and Costs of e-busses. As a starting point for TWG4, the value chain for e-bus public transport per region has been mapped. By mapping how the value chain for e-bus public transport works and defining the nature of the issues, problems or maybe challenges per region can be better understood.
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Authorities aim at making the urban freight system more sustainable. The most common instruments to do so are regulation or stimulation of good practices, by offering subsidies or initiating projects together with the private parties that are responsible for actually performing urban freight transport operations. This contribution examines the possibilities for (local) authorities to use their market role, i.e. being a big procurer of goods and services in a city that result in many urban freight transport trips, to stimulate more sustainable urban freight transportation. Procurement is usually not linked to transport and data from procured goods and services do not provide sufficient insights to estimates the impacts of deliveries and trips related to the procured goods and services. This contribution discusses two cases in which (local) authorities try to make the urban freight transport that results from their procurement activities visible, via different methods, such as delivery service plans, and spend analyses. The cases of Rotterdam (in the project BuyZET) and for the logistics hub in The Hague show the first results of how (local) authorities can act to improve urban freight transport once the trips caused by procured goods and services are clearly mapped. © 2019 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/)
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Abstract: Last few years the hindrance, accidents, pollution and other negative side effects of construction projects and namely construction transport have become an issue particularly in urban areas across Europe such as in London, and in the Netherlands as well, including the cities of Utrecht, Rotterdam and Amsterdam. Municipalities have issued new legislation and stricter conditions for vehicles to be able to access cities and city centres in particular and accessibility of older and polluting vehicles. Considerate clients, public as well private, have started developing tender policies to encourage contractors to reduce the environmental impact of construction projects. Contractors and third party logistics providers have started applying consolidation centres. These developments have shown considerable reductions of number of vehicles needed to deliver goods and to transport workers to site. In addition these developments have led to increased transport efficiency, labour productivity and cost reductions on site as well as down the supply chain. Besides these developments have led to increased innovations in the field of logistics planning software, use of ICT , and handling hardware and equipment. This paper gives an overview of current developments and applications in the field of construction logistics in the Netherlands, and in a few project cases in particular. Those cases are underway as part of an ongoing applied research project and studied by using an ethnographic participative action research approach. The case findings and project results show initial advantages how the projects, the firms involved and the environment can profit from the advancement of logistics management leading to reduced environmental impact and increased efficiencies of construction transport.
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The Dutch Environmental Vision and Mobility Vision 2050 promote climate-neutral urban growth around public transport stations, envisioning them as vibrant hubs for mobility, community, and economy. However, redevelopment often increases construction, a major CO₂ contributor. Dutch practice-led projects like 'Carbon Based Urbanism', 'MooiNL - Practical guide to urban node development', and 'Paris Proof Stations' explore integrating spatial and environmental requirements through design. Design Professionals seek collaborative methods and tools to better understand how can carbon knowledge and skills be effectively integrated into station area development projects, in architecture and urban design approaches. Redeveloping mobility hubs requires multi-stakeholder negotiations involving city planners, developers, and railway managers. Designers act as facilitators of the process, enabling urban and decarbonization transitions. CARB-HUB explores how co-creation methods can help spatial design processes balance mobility, attractiveness, and carbon neutrality across multiple stakeholders. The key outputs are: 1- Serious Game for Co-Creation, which introduces an assessment method for evaluating the potential of station locations, referred to as the 4P value framework. 2-Design Toolkit for Decarbonization, featuring a set of Key Performance Indicators (KPIs) to guide sustainable development. 3- Research Bid for the DUT–Driving Urban Transitions Program, focusing on the 15-minute City Transition Pathway. 4- Collaborative Network dedicated to promoting a low-carbon design approach. The 4P value framework offers a comprehensive method for assessing the redevelopment potential of station areas, focusing on four key dimensions: People, which considers user experience and accessibility; Position, which examines the station's role within the broader transport network; Place-making, which looks at how well the station integrates into its surrounding urban environment; and Planet, which addresses decarbonization and climate adaptation. CARB-HUB uses real cases of Dutch stations in transition as testbeds. By translating abstract environmental goals into tangible spatial solutions, CARB-HUB enables scenario-based planning, engaging designers, policymakers, infrastructure managers, and environmental advocates.
Dit voorstel getiteld ?Circulaire Rundermest? staat een integrale aanpak voor ogen van de mestproblematiek in de melkveehouderij. Een consortium van MKB bedrijven wil samen met de Vilentum Hogeschool de eerste stappen zetten om bij te dragen aan een duurzame oplossing voor de Nederlandse mestproblematiek en toekomstige fosfaatschaarste. Het oplossen van het Nederlandse mestoverschot is cruciaal voor de overleving van de veehouderijsector in Nederland. In combinatie daarbij tevens de (toekomstige) schaarste aan fosfaat oplossen is een kans voor de Nederlandse landbouw. Gezien de ervaringen uit het verleden rondom de mestproblematiek wordt de aanpak gericht op marktconforme producten maken uit het mestoverschot, in plaats van de afvalbenadering, waarbij uitgegaan wordt van het circulaire gedachtegoed. Andere unieke aspecten in dit traject zijn i) de applicatie van een nieuwe high-tech scheidingstechnologie en ii) gebruikmaking van nieuwe combinaties van bestaande bioraffinage-technieken. Er wordt gestreefd naar het produceren van minimaal twee eindproducten: i) een anorganische fosfaat rijke fractie en ii) een organische fosfaatarme fractie. Deze fracties voldoen aan alle kwaliteitseisen om in de markt toegepast te worden als fosfor/fosfaatmeststof en bodemverbeteraar. Om dit te bereiken wordt door middel van praktijkgericht onderzoek antwoord gegeven op de onderzoeksvraag: ?Welke combinaties van bioraffinage-technieken zijn duurzaam en effectief voor het synthetiseren marktconforme fosfor/fosfaatconcentraten en organische stof producten uit rundermest?? Op basis van ervaringen uit de praktijk en opgedane kennis bij de betrokken lectoraten en de projectpartners wordt een conceptueel raffinage proces ontworpen. Dit proces wordt vervolgens in deelstappen experimenteel getoetst zowel bij de deelnemend MKB als bij de aangesloten hogescholen. Het optimale design wordt tenslotte in de praktijk getoetst door samenwerking van de aangesloten MKB projectpartners. Dit totaal wordt gecomplementeerd met economische en ecologische analyses ter vergelijking met bestaande systemen van de gemaakte keuzes. Relevante uitkomsten voor de sector over marktconforme producten en best presterende scheidingstechnieken worden onder andere via (vak)publicaties en een symposia verspreid.
PBL is the initiator of the Work Programme Monitoring and Management Circular Economy 2019-2023, a collaboration between CBS, CML, CPB, RIVM, TNO, UU. Holidays and mobility are part of the consumption domains that PBL researches, and this project aims to calculate the environmental gains per person per year of the various circular behavioural options for both holiday behaviour and daily mobility. For both behaviours, a range of typical (default) trips are defined and for each several circular option explored for CO2 emissions, Global warming potential and land use. The holiday part is supplied by the Centre for Sustainability, Tourism and Transport (CSTT) of the BUas Academy of Tourism (AfT). The mobility part is carried out by the Urban Intelligence professorship of the Academy for Built Environment and Logistics (ABEL).The research question is “what is the environmental impact of various circular (behavioural) options around 1) holidays and 2) passenger mobility?” The consumer perspective is demarcated as follows:For holidays, transportation and accommodation are included, but not food, attractions visited and holiday activitiesFor mobility, it concerns only the circular options of passenger transport and private means of transport (i.e. freight transport, business travel and commuting are excluded). Not only some typical trips will be evaluated, but also the possession of a car and its alternatives.For the calculations, we make use of public databases, our own models and the EAP (Environmental Analysis Program) model developed by the University of Groningen. BUAs projectmembers: Centre for Sustainability, Tourism and Transport (AT), Urban Intelligence (ABEL).