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In the recent years, some experimental forms of housing (cohousing and social housing) have developed in Italy, which also take on the features of real energy communities. These initiatives have been planned and implemented thanks to the active participation and investments of the people involved in the project. Their primary aim is to implement new form of shared housing, but by adopting renewable generation systems and sharing both energy production and consumption, they are contributing to foster the energy transition process. In this research, we studied the management of the energy resource and the social interactions among the cohousers. Moreover, we analysed the social impacts on the surrounding territory in order to know as they can widespread the clean energy technologies and social innovation processes. To do this, we compared two experiences of collaborative housing: the first one, active since some years in Northern Italy, is a bottom-up initiative set up by the voluntary action of some families and individuals. Its goal is to share common spaces and activities, but also to produce and use renewable energy with a view to economic and environmental sustainability. The second one is a social cohousing, established in Messina (Southern Italy) and implemented by the Fondazione di Comunità di Messina. The project involves people who live in socio-economic difficulties. Through the ESCO Solidarity & Energy, the Fondazione has designed and applied energy systems to allow the tenants to become prosumers and prosumagers.

This research proposes an innovative solar thermal plant able to generate mechanical power through an optimized system of heliostats with Scheffler-type solar receivers coupled with screw-type steam expanders. Scheffler receivers appear to perform better than parabolic trough collectors due to the high compactness of the focal receiver, which minimizes convective and radiative heat losses even at high vaporization temperatures. At the same time, steam screw expanders are volumetric machines that can be used to produce mechanical power with satisfactory efficiency also by admitting two-phase mixtures and with further advantages compared to steam turbines: low working fluid velocities, low operating pressures, and avoidance of overheating. This study establishes a mathematical model to assess the energetic advantages of the planned solar thermal power system by evaluating the solar-to-electricity efficiency for different off-design working conditions. For this purpose, a numerical model on the Scheffler receiver is initially investigated, thus assessing all the energy losses which affect the heat transfer phase. A thermodynamic model is then developed to evaluate the energy losses and performance of the screw expander under real working conditions. Finally, parametric optimization of the solar energy conversion is performed in a wide range of operating conditions by establishing thermodynamic formulations related to the whole solar electricity generation system. Water condensation pressure and vaporization temperature are so optimized with respect to global energy conversion efficiency which, under the best operating conditions achieved in this research, rises from 10.9% to 14.4% with increasing solar irradiation intensity. Hence, the combined use of screw expanders and Scheffler receivers for solar thermal power system application can be a promising technology with advantages over parabolic dish concentrators. Novelty statement: This research proposes an innovative direct steam solar power plant based on an SRC, with water utilized as both heat transfer and working fluid, equipped with Scheffler solar receivers as a thermal source and screw expanders as work-producing devices. Technical studies and energy assessments of this kind of SEGS at part-load operation do not exist in scientific literature; after reviewing the literature, it was determined that volumetric expanders have been rarely combined with Scheffler receivers for solar thermal power system application. In effect, combined use of screw expanders and Scheffler-type solar concentrator in a direct steam solar power system represents a completely new plant configuration; however, as a promising DSG solar system, at present numerical model of this new sort of SEGS is lacked in literature and the optimum operating conditions have yet to be defined. For this reason, the chief objective of this paper is to define a first parametric optimization of all thermodynamic variables involved to maximize global efficiency of the proposed solar thermal power generation system for ordinary working conditions.

Introduction The European Union aims at raising the share of energy consumption produced from renewable resources to 20% in 2020 as compared to 1990. Moreover, the European Commission adopted a strategy called "Innovating for Sustainable Growth: a Bioeconomy for Europe" to shift the European economy towards greater and more sustainable use of renewable resources. The S2Biom project (www.s2biom.eu) - Delivery of sustainable supply of non-food biomass to support a "resource-efficient" Bioeconomy in Europe - supports the sustainable delivery of non-food biomass feedstock at local, regional and pan-European levels through developing strategies and roadmaps that will be render available to the user by a "computerized and easy to use" toolset (and respective databases) with updated harmonized datasets at local, regional, national and pan-European level for EU-28, Western Balkans, Moldova, Turkey and Ukraine. Methodology Taking in consideration the results and experiences of current and past EU projects, the S2Biom project activities are implemented in three individual but strongly interrelated Themes: 1) To focus on methodological approaches, data collection and estimation of sustainable biomass potentials resources, efficient pathways and optimal logistical supply routes as well as the development of a computerised toolset. 2) To make use of the findings of Theme 1 and develop a Vision, strategies and a R&D roadmap for sustainable delivery of non-food biomass feedstock at local, regional and pan- European levels. 3) To validate the results from themes 1 and 2 and ensure the project outreach; this will be performed through selected case studies which will efficiently capture the different scales of applications for biomass supply chains in a sufficient number of regions across Europe. Conclusion The first draft version of this toolset have been developed, allowing to analyse different levels of bioenergy production, its costs and feedstock biomass crops available across EU at a resolution level of Nuts3.

Over the last decade, significant attention has been devoted to Closed-Loop Supply Chain (CLSC) design problems. As such, this review aims at assessing whether the current modelling approaches for CLSC problems can support the transition towards a Circular Economy at a supply chain level. The paper comprehensively assesses the extent to which existing modelling approaches evaluate the performance of supply chains across the complete spectrum of sustainability dimensions. Also, the capability of the current approaches of incorporating strategic, tactical, and operational decisions is considered, along with adopted solution methodologies. As a result, a comprehensive analysis was performed on 254 selected articles. This paper emphasises how most of the current literature in the field is affected by a disconnection between supply chain design and the founding principles of Circular Economy. Specifically, the CLSC literature exhibits a reductionist interpretation of the Circular Economy. CLSC studies focusing on all three dimensions of sustainability are relatively rare, and performance measurement approaches appear to be very much focused on monetary issues. While methodological contributions appear adequate to focus on the non-deterministic nature of CLSC design problems, there is paucity of empirically-grounded research. Coherently, a research agenda is proposed, in order to address the mentioned gaps and increase the relevance of this research field to practice.

The role of cities and their commitment to meet the European targets on energy and climate has steadily increased in the latest years as testified by the large number of ambitious initiatives undertaken by European cities to face multiple challenges towards sustainability. Many projects and initiatives have arisen all around Europe to support cities in the achievement of the Europe 2020 targets of smart, sustainable and inclusive growth. RE-SEEties "Towards resource-efficient urban communities in SEE" is one of the projects funded under the South East Europe program aimed to enhance the policy-making and strategic planning competences of municipalities in the field of energy efficiency, renewable energy sources and waste valorization. This paper focuses on the methods developed and the main results achieved in the framework of RE-SEEties. The main focus is on the eight partner cities (The Local Government of Budapest District 18 - Hungary/HU, Municipality of Aigaleo - Greece/EL, Municipality of Potenza - Italy/IT, City of Nitra - Slovakia/SK, City of Skopje - Former Yugoslav Republic of Macedonia/FYROM, City of Miercurea Ciuc - Romania/RO, Municipality of Ptuj - Slovenia/SI, City of Ivani?-Grad - Croatia/HR) and how they were assisted by professional institutions in translating their commitments towards resource efficiency into Local Strategies and Action Plans. A critical comparison of these final results points out differences and similarities in the state-of-the-art of cities across South East Europe as well as a the level of ambition and difficulties faced to turn into resource efficient urban communities.

The development of net negative electric cities encompasses the three strategies of decarbonizing power supply, energy efficiency and electrification. There is potential to pursue these combined strategies rapidly to hold climate change to within 1.5 °C. Recent work has identified many cities in developing countries that are ideal for electrification today based on carbon intensity and high access to electricity. Net negative electric cities could be achieved by following a comprehensive policy framework for low carbon investment.

The knowledge economy has featured the last few decades and the innovation is the strategic factor to improve the competitiveness of a country or a region. Within this context, the knowledge production and the technology transfer to companies have been becoming increasingly important components to be competitive in the global economy. In very different countries, public policies have been implementing in order to foster the collaborations between research centers and business, increase the number of patents, support for new business creation as a spin-off of public sector research. Intermediate structures intended to promote the convergence of businesses and public sector research (universities and research institutions) have been multiplied. This phenomenon regards, more or less, all technological fields. In this paper we examine the technology transfer mechanism in the energy sector and in particular we focus our research in spin off firms which operate in the energy sector. The energy sector is facing two big issues: the growing electricity demand and the environmental challenges. In such field, the energy sector plays a main role in the mitigation of climate change, to increasing efficiency and to guaranteeing energy security. For this reason the innovation in energy technology has become over the years a crucial strategic factor both for governments and companies. If it is refered to renewable energy, we can find out that the amount of investment (government and corporate) in research and development increased during the period 2004-2014 up to 129%: from $5.1 billion in 2004 to $ 11,7 billion in 2014. (Global Trends In Renewable Energy Investment 2015 - Frankfurt School-UNEP Centre ). Also the number of patent applications has increased from 2003 to 2013, about 65% more.(WIPO data elaborated by Istituto per la competitività ). According to some studies the innovation process not only affects big companies but also SMEs. The smaller companies make a greater effort in R&D, measured in relative terms with respect to sales, in particular the younger firms are more likely to perform R&D. What we want to examine in this paper is the incidence of R & D investment on the creation of start-ups, in particular as research results and patents produced within universities and research institutes have enabled the creation of spin off firms in the energy sector. Our research has focused on Italian spin off firms by analyzing the characteristics of these companies making a comparison with those of other sectors.

The solidarity economic networks: resilient communities. Are the network of businesses that aspire to a sustainable economic system (environmentally, socially and economically) able to evolve and resist in a non-facilitating if not averse framework? The research carried out in La Spezia between 2013 and 2014 indicates a positive response, especially if their activity is accompanied by flexible and targeted training models. Indeed, as the regional regulation show, the same context changes for the presence of solidarity networks, by issuing specific legislation or by innovating existing legislation.

Translating resource efficiency into practical European, national and local policy frameworks which integrate the various economic, social and environmental components passes through short to long term visions, strategies as well as measurable targets. The RE-SEEties project was funded by the South East Europe programme in order to contribute to the resource efficiency challenge.The project investigated on energy consumption and waste production and disposal; potential changes in consumption patterns and how policy making alternatives may support the achievement of resource efficiency targets. This paper aims to present the main results of this unique international cooperative experience carried out by research centres and municipalities in the South East Europe area. First, the paper focuses on the methodological toolkit and criteria for assessment which aims to support municipalities increating a sustainable and resource efficient future through coherent and appropriate planning practices. Second, the paper discusses the main result sobtained and lessons learned on a wide range of interrelate dissues covering the policy making process, financing of local resource-efficiency investments, good practices, tools to support decision-making and assessment methodologies. It also covers behavioural change and how policy can stimulate public authorities, companies and citizens to become more sustainable.