The Vulkan real estate site in Oslo is owned by Aspelin Ramm, and includes one of the largest parking garages used for EV charging in Europe. EV charging (both AC and DC) is managed for now predominately for costs reasons but also with relevance at further EV penetration level in this car parking location (mixed EV and ICE vehicles). This neighbourhood scale SEEV4-City operational pilot (OP) has 50 22 kW flexible AC chargers with two sockets each and two DC chargers of 50 kW with both ChaDeMo and CCS outlets. All EV chargers now have a smart control (SC) and Vehicle-to-Grid (V2G) functionality (though the latter may not be in place fully for DC chargers, as they may not be fully connected to the remote back-office system of the EV charging systems operator). A Lithium-ion Battery Energy Stationary Storage System (BESS) with a capacity of 50 kWh is pre-programmed to reduce the energy power peaks of the electric vehicle (EV) charging infrastructure and charges at other times from the central grid (which has a generation mix of 98% from hydro-electric power, and in the region covering Oslo also 1% from wind). The inverter used in the BESS is rated at 50 kW, and is also controlled to perform phase balancing of the 3-phase supply system.
Abstract: To gather insight on how Health in All Policies (HiAP) is applied in practice, we carried out a case study on transport policies intended to stimulate a shift from car use to bicycling. We reviewed 3 years (2010, 2011, and 2012) of national budgets and policy documents in the Netherlands, followed by two focus group sessions and a second round of document analysis.
Closing the loop of products and materials in Product Service Systems (PSS) can be approached by designers in several ways. One promising strategy is to invoke a greater sense of ownership of the products and materials that are used within a PSS. To develop and evaluate a design tool in the context of PSS, our case study focused on a bicycle sharing service. The central question was whether and how designers can be supported with a design tool, based on psychological ownership, to involve users in closing the loop activities. We developed a PSS design tool based on psychological ownership literature and implemented it in a range of design iterations. This resulted in ten design proposals and two implemented design interventions. To evaluate the design tool, 42 project members were interviewed about their design process. The design interventions were evaluated through site visits, an interview with the bicycle repairer responsible, and nine users of the bicycle service. We conclude that a psychological ownership-based design tool shows potential to contribute to closing the resource loop by allowing end users and service provider of PSS to collaborate on repair and maintenance activities. Our evaluation resulted in suggestions for revising the psychological ownership design tool, including adding ‘Giving Feedback’ to the list of affordances, prioritizing ‘Enabling’ and ‘Simplification’ over others and recognize a reciprocal relationship between service provider and service user when closing the loop activities.
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.
