Suchergebnisse für "Factsheet: Energietechnologien gestalten, die für alle sinnvoll und nutzbar sind"

Design Guidelines - Solar Space Heating of Factory Buildings With Underfloor Heating Systems (Jaehnig/Weiss 2008)

The energy required for the space heating of factory buildings and warehouses can be a major percentageof the energy consumption of a company. While in some cases, waste heat from other processesin the company is available and is the most cost effective way to heat a factory building, aninteresting option is to use solar energy to cover the heat demand of an industrial building. Englisch

IEA-SHC Task 64: Solar Process Heat

The main objective of the task is to identify, verify and promote the role of SHIP (Solar Heat in Industrial Processes) systems as single system and in integrated energy systems. Technical and non-technical barriers will be tackled. The main results of the project are a dimensioning and integration guideline for SHIP and integrated energy systems and a Guideline to Market for SHIP and integrated energy systems.

IEA-SHC Task 65: Solar Cooling for the Sunbelt Regions

Without measures, cooling demand will triple by 2050. The aim of Task 65 is to adapt existing technologies to the boundary conditions of the sunbelt, to find suitable system concepts, to evaluate them and to disseminate the advantages. In addition to system adaptations, the Austrian focus is on life cycle cost-benefit analysis and the further development of existing assessment tools.

BIPV as Architectural Tool

15. June 2018
TU Wien, Getreidemarkt 9, 1060 Wien, AT

Within the international meeting of the IEA PVPS Task 15 "Enabling Framework for the Acceleration of Building integrated Photovoltaics (BIPV)", a workshop on "BIPV as Architectural Tool" is organized providing the opportunity to meet local PV-Architects and BIPV stakeholders.

Potential for Solar Heat in Industrial Processes (Claudia Vannoni/Riccardo Battisti/Serena Drigo 2008)

The goal of this report, developed in the framework of the IEA Solar Heating and Cooling Programme Task33 and IEA SolarPACES Programme Task IV - Solar Heat for Industrial Processes (SHIP), is to highlightthe potential use of solar thermal (ST) plants to provide heat for industrial applications. In order to fulfil thisaim, several national potential studies were surveyed and compared with a focus on the key results and themethodologies applied. Englisch

IEA SHC Task 48: Quality Assurance and Support Measures for Solar Cooling

The completed IEA SHC Task 48 focused on an enhanced quality improvement and market-support measures for the technology option ‘solar thermal cooling or air-conditioning'. In cooperation with a total of 22 organizations (12 research institutes, 5 universities and 5 companies) from eight countries numerous useful reports and tools have been created to improve the quality of solar cooling systems with significant contribution of the Austrian partners.

IEA SHC Task 69: Solar Hot Water for 2030

Solar water heating will play a crucial role in the decarbonization of the energy system for 2030 and beyond. IEA SHC Task 69 focuses on two technologies which are likely to play the biggest role in the global solar hot water market: thermosyphon and photovoltaic (PV) hot water systems. For these technologies global market surveys, systems and component optimizations, cost reduction analyses and revision of standards are being conducted to accelerate growth in target markets.

IEA-SHC Task 66: SOLAR ENERGY BUILDINGS - Integrated solar energy supply concepts for climate-neutral buildings and communities for the "City of the Future”

The energy supply for climate-neutral buildings is based on holistic system concepts that achieve high renewable fractions by intelligently combining technologies, sector coupling, high grid interaction and flexibilization measures. The Solar Energy Buildings Task supports exactly this development. The objective is to identify relevant stakeholders and their needs, to develop a technology portfolio and optimised integrated energy concepts and to give recommendations to policy makers and energy-related companies.

IEA-SHC Task 50: Advanced Lighting Solutions for Retrofitting Buildings

Retrofitting of non-residential buildings with energy efficient daylight and artificial lighting solutions can significantly contribute to reductions in electric energy consumption. However, appropriate technologies have to be made available to the stakeholders (investors, industry, consultants, designer) that are involved in the retrofitting process. Thus, system solutions for daylighting and artificial lighting were evaluated, simple rating and evaluation tools were developed and case studies that serve as best practice examples were monitored. The results were collected in the Lighting Retrofit Advisor, which helps stakeholders within the lighting retrofit process.

IEA SHC Task 42/ECES Annex 29: Compact Thermal Energy Storage - Material Development for System Integration

The key accomplishments of the task are summarized in the following points: New material characterizing methods were investigated, a new standard for an improved DSC measurement method has been developed, a data base for PCM, TCM and sorption materials was developed and established, advances in the numerical modelling of materials, compact thermal storage systems were developed for different material applications, a tool for the economic evaluation of thermal energy storages has been developed. Also numerous joint R&D Projects and more than twenty publications arose from the IEA-SHC Task 42 networking activity.

Working Party on Industrial Decarbonisation (WPID)

The aim of the Working Party on Industrial Decarbonisation WPID is to provide a platform with a focus on key aspects towards accelerating industrial decarbonisation. The initial focus area of the WPID will be on definitions related to what constitutes climate friendly production standards in heavy industry and how these standards can support successful decarbonisation policies. Thus WPID is working together with IEA members as well as relevant globale private and public stakeholder and supports the IEA office in reporting, benchmarking and foresight.

IEA Bioenergy Technology Collaboration Programme (IEA Bioenergy TCP)

IEA Bioenergy’s vision is to achieve a substantial bioenergy contribution to future global energy demands by accelerating the production and use of environmentally sound, socially accepted and cost-competitive bioenergy on a sustainable basis, thus providing increased security of supply whilst reducing greenhouse gas emissions from energy use.