Participation has been of ongoing interest in the field of action research and the New Health Promotion movement, but it is not without tensions and problems. This article presents the challenge of containing the conflicting demands of personal empowerment, practical advancement and theory building in a community-based participatory action research project Aspiring to Healthy Living in The Netherlands. A Participatory Action Research (PAR) methodology was chosen because of its contribution to empowerment of the community of older people, which was one of the project goals. Besides that, the project aimed at the development of an intervention program for encouraging healthy living amongst older people in The Netherlands and contributing to the knowledge base on healthy living, by analyzing narratives from the participants. However, when time pressure rose, the empowerment goal started to collide with academic and practical aims, and the dialogue within the project team became obstructed leading to a return to the traditional routine of applied research and the accompanying power relationships, with implications for the learning in and about the project.
Action research assumes the active engagement of the stakeholders, such as the community, in the research, and a multiple level process of reflection in order to evaluate and monitor the actions taken. This makes action research a suitable methodology to increase critical understanding of the participants. In this paper we describe the challenge of teaching action research within the context of an undergraduate community health psychology module. The module was designed using principles from transformative learning, critical pedagogy and action learning. The module took place over one semester; and 15 (13 females, 2 males) students took part in it. We discuss the background to the module development and the alignment of the learning objectives with the teaching and assessment methods, and reflect upon the students' experiences in the module and the learning outcomes. We conclude by addressing the major challenges involved in teaching action research to increase critical understanding: the ability to deep learning of undergraduate psychology students; our role and expectations as tutors on the course; and the current higher education system in which action science yet has to find a place.
The extent to which action research has a democratising influence - and the ethical pitfalls involved in the practice of action research. The conduct of action research within the organisational context and the practice community receives attention.
MUSE supports the CIVITAS Community to increase its impact on urban mobility policy making and advance it to a higher level of knowledge, exchange, and sustainability.As the current Coordination and Support Action for the CIVITAS Initiative, MUSE primarily engages in support activities to boost the impact of CIVITAS Community activities on sustainable urban mobility policy. Its main objectives are to:- Act as a destination for knowledge developed by the CIVITAS Community over the past twenty years.- Expand and strengthen relationships between cities and stakeholders at all levels.- Support the enrichment of the wider urban mobility community by providing learning opportunities.Through these goals, the CIVITAS Initiative strives to support the mobility and transport goals of the European Commission, and in turn those in the European Green Deal.Breda University of Applied Sciences is the task leader of Task 7.3: Exploitation of the Mobility Educational Network and Task 7.4: Mobility Powered by Youth Facilitation.
In this proposal, a consortium of knowledge institutes (wo, hbo) and industry aims to carry out the chemical re/upcycling of polyamides and polyurethanes by means of an ammonolysis, a depolymerisation reaction using ammonia (NH3). The products obtained are then purified from impurities and by-products, and in the case of polyurethanes, the amines obtained are reused for resynthesis of the polymer. In the depolymerisation of polyamides, the purified amides are converted to the corresponding amines by (in situ) hydrogenation or a Hofmann rearrangement, thereby forming new sources of amine. Alternatively, the amides are hydrolysed toward the corresponding carboxylic acids and reused in the repolymerisation towards polyamides. The above cycles are particularly suitable for end-of-life plastic streams from sorting installations that are not suitable for mechanical/chemical recycling. Any loss of material is compensated for by synthesis of amines from (mixtures of) end-of-life plastics and biomass (organic waste streams) and from end-of-life polyesters (ammonolysis). The ammonia required for depolymerisation can be synthesised from green hydrogen (Haber-Bosch process).By closing carbon cycles (high carbon efficiency) and supplementing the amines needed for the chain from biomass and end-of-life plastics, a significant CO2 saving is achieved as well as reduction in material input and waste. The research will focus on a number of specific industrially relevant cases/chains and will result in economically, ecologically (including safety) and socially acceptable routes for recycling polyamides and polyurethanes. Commercialisation of the results obtained are foreseen by the companies involved (a.o. Teijin and Covestro). Furthermore, as our project will result in a wide variety of new and drop-in (di)amines from sustainable sources, it will increase the attractiveness to use these sustainable monomers for currently prepared and new polyamides and polyurethanes. Also other market applications (pharma, fine chemicals, coatings, electronics, etc.) are foreseen for the sustainable amines synthesized within our proposition.
Carboxylated cellulose is an important product on the market, and one of the most well-known examples is carboxymethylcellulose (CMC). However, CMC is prepared by modification of cellulose with the extremely hazardous compound monochloracetic acid. In this project, we want to make a carboxylated cellulose that is a functional equivalent for CMC using a greener process with renewable raw materials derived from levulinic acid. Processes to achieve cellulose with a low and a high carboxylation degree will be designed.
