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EUREMnext - Taking European EnergyManagers to next efficiency levels by implementing energy audit recommendations - EUREMnext

The overall goal of the EU funded project „EUREMnext“ is to enrich the well-established EUREM European EnergyManager trainig program, making it available in new countries to allow more persons to become qualified/accredited experts or upgrade their knowledge and skills, and adding ancillary implementation support activities. Thereby contribute to increasing the quality of energy audit results, the probability of implementation of the recommendations, and ultimately the energy efficiency and competitiveness of the businesses.

SmaCiSe - Smart City Sensing – Thermal Screening of Physical Objects and Air-quality at Urban Scale

The project aims at innovations concerning georeferenced urban data acquisition and innovative data processing for digital urban data analytics. Three dimensional microclimatic and air quality models will be created gained from measured surface temperatures and air quality data of different heights. For data acquisition dedicated detector instruments mounted on zeppelins, drones and UAVs will be used. The project focuses on thermal environmental analysis and three dimensional small-scale data acquisition of air pollutant concentrations in Austria and China / Guandong.

Amstetten Smart City Life 2030 - FutureHub

Amstetten has a clear vision to use the district development in the vacated ÖBB railway station area as an opportunity for a big step towards Zero-Emission-City. A systemic approach to sustainable heating and cooling, including a low-temperature network with technical measures at building and neighbourhood level and initiatives to change mobility behaviour, should contribute to reducing the CO2 footprint in the medium term.

SCORES - Self-Consumption of Renewable Energy by Hybrid Storage Systems

SCORES will combine and optimize the multi-energy generation, storage and consumption of local renewable energy (electricity and heat) and grid supply, bringing new sources of flexibility to the grid, and enabling reliable operation with a positive business case in Europe’s building stock.

giga_TES - Giga-Scale Thermal Energy Storage for Renewable Districts

To reach 100 % renewable energy supply in a long term, district heating (DH) networks require large-scale thermal energy storage (TES) technologies such as pit and tank storage. These would enable a) seasonal storage of heat from renewables such as solar thermal energy and b) flexible heat storage from waste heat sources (e.g., power plants, waste incineration) as well as power-to-heat. As these systems need to be implemented in an urban environment, the required surface area should be minimized to compensate for the relatively high land value in an urban environment. These minimized costs can be achieved by moving the system below surface level and further decreased by allowing usage of the surface area for recreation or installation of solar collector fields.

OptSmallGrids - Opimization of small district heating systems

Heating networks are considered to be one of the key technologies in regard to energy transformation because of facilitating smart connection of different renewable energy sources, waste heat, storages, heat consumers and coupling the networks to other energy supply networks such as power and gas to increase the overall efficiency, the economic performance and the reduction of CO2 emissions of future energy systems.

IEA IETS TCP Task 17 - Emerging membrane technologies for energy efficient separation of lignocellulosic biomass in biorefineries

The IEA IETS TCP Task 17 project "Membrane filtration for energy-efficient separation of lignocellulosic biomass components" pursued the overall goal of ensuring optimized use of lignocellulosic material in a biorefinery approach through energy- and cost-efficient separation technologies. The pulp and paper industry plays a special role in biorefineries due to the feedstock wood and the high volume of production. Since this industrial sector is also one of the most energy-intensive industries in Austria, a special focus was placed on it in the course of the project. The goal of the biorefinery is to achieve the highest possible added value in terms of cascading raw material utilization. Membrane separation processes combine the material use of the components through selective separation mechanisms with energy efficiency measures. Emerging membrane processes such as forward osmosis (FO), membrane distillation (MD), pervaporation (PV) and liquid membrane permeation (LMP) are of great interest.

IEA-EBC Annex 73: Towards Net Zero Energy Resilient Public Communities

Public building clusters like hospitals or university campuses often include critical infrastructure which have to be operational at every occasion. Consequently, these structures are in dire of robust and reliable energy supply which is additionally sustainable and cost-effective as far as possible. The IEA EBC Annex 73 aims at developing tools for the planning process of resilient, efficient and low carbon energy systems for such building clusters.

KooWo - Volkersdorf

Kooperatives Wohnen Volkersdorf – Suffizienz, Flächen sparen und Energieeffizienz im Areal

Am Beispiel des gemeinschaftlich geplanten Wohnprojekts „KooWo“ in Volkersdorf soll Suffizienz umgesetzt und das übergeordnete Ziel einer ganzheitlichen Energie- und CO2-Reduktion erreicht werden.

DeStoSimKaFe - Concept development & coupled deterministic/stochastic evaluation of cold district heating for heating & cooling supply

The main objective of the project is to increase the applicability and feasibility of an innovative and sustainable heat and cold supply based on cold district heating. In order to achieve this, the development of complex technical system solutions and methodical fundamentals for the simulation, conception, planning and long-term evaluation of such systems takes place. Furthermore, a stochastic model for the long-term evaluation of system solutions based on varying framework conditions and exogenous scenarios is being developed. Based on the developed system solutions and the technical/ecological evaluation, tailor-made products and services for cold district heating are developed, which are then incorporated into an economic evaluation method.

 
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