Energieforschung am JRC der EU-Kommission

Energy research at the JRC includes a number of diverse activities which all provide support to the policy making process of the European Commission. Concrete examples are world class laboratories, the knowledge centre for energy efficiency (KCEE), the development of models and the support to the European SET-plan.JRC.F.6-Energy Technology Policy Outloo

Guidebook How to develop a Sustainable Energy Action Plan (SEAP) in South Mediterranean Cities

This guidebook is adapted to the South Mediterranean context from the Joint Research Centre’s (JRC) guidebook "How to develop a Sustainable Energy Action Plan", developed in 2010 to support the implementation of the Covenant of Mayors (CoM) initiative in European cities. Through the CES-MED project, the European Union has opened the CoM initiative to local authorities of ten southern Mediterranean countries (Algeria, Egypt, Israel, Jordan, Lebanon, Libya, Morocco, Palestine, Syria and Tunisia). The purpose of this guidebook is to make energy efficiency and climate change mitigation measures relevant, achievable and compelling to local authorities in the southern Mediterranean context. Ultimately, it aims to enhance the competitiveness of municipalities and ensure their economic development while reducing dependence on energy imports and fossil fuels through the implementation of energy efficiency, renewable energy and other well-planned climate change mitigation actions at the local level. The guidebook provides detailed, step-by-step guidance to local authorities in southern Mediterranean countries to develop an effective Sustainable Energy Action Plan (SEAP). The process has four phases: initiation, planning, implementation, and monitoring and reporting. The choice and sequence of actions can vary according to the policies and measures already in place. This flexibility allows local authorities to develop a SEAP coherent with and effective for their local circumstances and objectives.JRC.F.7-Renewables and Energy Efficienc

Location data for buildings related energy efficiency policies

Based on the priority currently given by the European Union to the energy efficiency topic through its Energy Union Package, this feasibility study has focused on the role of location data in support of energy efficiency policies, taking into account the requirements of INSPIRE, EPBD and EED Directives, as well as the CoM initiative. The EU Member States are already due to implement such Directives according to different roadmaps, but there are benefits to be gained from a coherent and consistent approach. Moreover, data is not always available in consistent form and with good quality. The monitoring and reporting requirements set by the CoM need real data and models, that can be used and that should work consistently across different administrative levels. The analysis reported in this document support these statement, showing that there is lack of data quality and reliability. These aspects might hinder the effective application of the energy efficiency policies at the municipal, district and national level. Geospatial technologies in general and accurate location data in particular can support this field, because they can significantly support efficient processes related to data collection, elaboration and communication to be executed in all the phases of energy efficiency policies life cycle; and effective decision-making. INSPIRE has a role to play as it can provide common data models and common data access rules adopted by all EU MS and a roadmap to provide interoperable datasets of high relevance with energy efficiency. The study has identified areas of development and analysis that can be useful to fill the recognised “data gap”, and proposed an initial pilot activity as a start-up project to investigate concretely these ideas with a limited number of pilot citiesJRC.H.6-Digital Earth and Reference Dat

Methodologies for energy performance assessment based on location data: Proceedings of the workshop, Ispra, 12-14 September 2016

This expert workshop is one of a series covering the following topics: energy, buildings, location, assessment methods and data in relation to European Directives on Energy Efficiency (EED), Energy Performance of Buildings (EPBD), INSPIRE, establishing an Infrastructure for Spatial Information in Europe and the Covenant of Mayors (CoM) initiative. These workshops are jointly organised by the EC DG JRC project on Energy and Location and the European Union Location Framework (EULF) action of the EC ISA Programme (Interoperability Solutions for Public Administration) . So far the JRC team has produced a feasibility study and started a dedicated pilot project on location data for buildings related energy efficiency policies . The first event organised was the workshop on “Spatial data for modelling building stock energy needs” held at JRC in Ispra 23-25 November 2015 . The aim of this second workshop was to discuss different approaches and methodologies to assess energy efficiency measures as well as energy usage and monitoring of energy flows at building, urban and regional level, representing an opportunity to share information, integrate stakeholders’ views and set the ground for mutual collaboration. Eleven invited leading organisations and EU projects were invited to take part in this workshop sending experts to present their projects and discuss how to assess synergies and how to arrive to a coherent approach for assessment of energy use in the built environment. Another twelve people from JRC, experts on energy efficiency, energy performance, geospatial data modelling and processing participated to the workshop. From the discussions, it has emerged that a holistic approach would give more evidence of the needs for measures to reduce energy consumption. This is a bit in contrast to what the EU policy requests by the present energy related Directives. More and more it becomes evident that the target should be reducing emissions and not necessarily reducing energy consumption. Integration of energy technologies are playing an important role at a higher level than the building only (i.e. at the EPBD–level). The energy market (gas and electricity) is able to provide an enormous buffer in storing energy virtually and the buildings itself should be much better balanced in energy terms to the thermal needs, e.g. heating and cooling. At the same time the energy network requires buildings for balancing. INSPIRE could be very relevant for energy assessment in the built environment and for this reason the Energy Pilot initiated under the “Energy and Location” and “European Union Location Framework” projects will be continued over the next years. Main objectives of the pilot project will be to continue to work on Use Cases already outlined, to be further elaborated based on the information gathered at the workshop. The JRC will seek to develop partnerships to implement the defined use cases with the selected partners.JRC.B.6-Digital Econom

EULF Energy Pilot - Final Report Phase 1

The European Union is giving more and more emphasis to its energy policies, reinforcing a political commitment to very high energy savings, with the aim to achieve a more competitive, secure and sustainable European energy system. Increased energy efficiency is vital to achieve the challenging goals set for the future and energy efficiency constitutes one of the five dimensions of the European Commission's Energy Union Package, designed to enhance energy security, sustainability and competitiveness. Within this policy context, this report focused on the 2010/31/EU Directive on the Energy Performance of Buildings and the 2012/27/EU Directive on Energy Efficiency, describing an initial set of pilot activities undertaken to enable and test the use of geospatial technologies in Digital Government processes and services related to energy efficiency EU policies, aiming to show, through a set of use cases, that accurate and interoperable location-based information can lower the barriers faced by government, companies and citizens involved in the energy efficiency policies’ lifecycle. The approach adopted is based on the INSPIRE Directive 2007/2/EC, establishing an infrastructure for spatial information in Europe to support Community environmental policies, and policies or activities which may have an impact on the environment, such as energy policies. The enabling role played by INSPIRE consists in the provision of common data models and common data access rules adopted by all EU MS and a roadmap to provide interoperable datasets of high relevance with energy efficiency. The report has identified a series of next steps to be undertaken to achieve the expected benefits deriving from the use of interoperable location-based information within the analysed energy policy instruments and to solve the issues encountered.JRC.B.6-Digital Econom

Smart Grid Projects in Europe - Lessons Learned and Current Developments

The main goal of this study is to collect a wide inventory of Smart Grid projects in Europe and use project data to support analysis on trends and developments. The report looks into several aspects of the Smart Grids landscape to describe the state of the art of their implementation, the emerging hallmarks of the new electricity system and the foreseeable developments. A key focus of the Report is to describe how Smart Grid projects address and respond to the EU energy policy challenges and to point out the main benefits and beneficiaries. Particular attention is devoted to identifying the most important obstacles to investments and the possible solutions that could help to overcome them. e-book attached. S.N.JRC.F.3-Energy securit

Techniques and Survey for 3D Modeling of Touristic Caves: Valdemino Case

Nowadays, touristic caves are a relevant topic among topographical and geological studies. Modern techniques allow to elaborate 3D models with high accuracy and precision. Anyway, underground surveys are always delicate to perform, due to narrow and difficult to reach environments. In this paper, we show a case study, “Valdemino” cave, that involved the utilization of different point cloud acquisition methods: UAV, TLS, SLAM. The first purpose was to obtain 3D models of outdoor and indoor environments with a medium and high accuracy. These models were used to calculate the thickness of the rock between surface and cave’s roof and will be used for further studies, taking part in the PRIN 2017 project, concerning the impact of the tourist on show caves. The second purpose was to discuss about the feasibility and precision of the different survey methods, when studying a cave. The results showed how SLAM technology is enough accurate for speleological purposes, if compared with the more accurate TLS method. It is precise, maneuverable, easy to use and it allowed to get into environments that TLS can’t reach, such as non-touristic areas

JRC DEVELOPING NUCLEAR SKILLS AND COMPETENCES

Bochure on the activities of JRC and it's infrastucture, including open access policy to the nuclear reaserach infrasturcture, for distribution to general public.JRC.02 - Euratom Coordinatio

Multi-platform, Multi-scale and Multi-temporal 4D Glacier Monitoring. The Rutor Glacier Case Study

At present most alpine glaciers are not in equilibrium with the current climate, as a result they are undergoing a dramatic mass loss. Monitoring glacial variations is crucial to assess the consequences of climate change on the territory. In this work different geomatics techniques are exploited to measure and monitor the Rutor glacier over the years. In this study two different techniques were adopted to generate 3 digital surface models (DSMs): aerial and satellite photogrammetry. Two photogrammetric aerial surveys were carried out: at the end of the hydrological year 2019/20 and at the end of the following hydrological year. Additionally, a very high-resolution satellite stereo pair, acquired by the Pléiades-1A platform in 2017, was processed to assess whether satellite images can be applied to extract the 3D surface of the Rutor glacier. In order to evaluate the Rutor glacier mass-balance throughout the years several reference points were positioned and measured before the 2021 aerial flight. Thanks to the presence of the materialized points the 2021 model is considered as the ‘Reference Model’ against which subsequent models can be compared for glacier analysis. This model was validated by means of a comparison with the authoritative Regional DSM based on LiDAR surveys. In alpine glaciers, the positioning of artificial square cross target in time invariant areas is crucial to enable a multitemporal 4D analysis. The use of very high-resolution satellite imagery allows large areas to be mapped in 3D, but with lower accuracies proportionally decreasing with respect to slope and exposure

The Joint Research Centre Supporting Nuclear Safeguards

Booklet on Nuclear Safeguards for the 60th Anniversary of the JRC.JRC.02 - Euratom Coordinatio