Projects within the framework of open4innovation
There are 583 results.
IEA PVPS Task 15: Enabling Framework for the Acceleration of BIPV (Working period 2024 - 2027)
Photovoltaics in general, and thus also the integration of photovoltaics into buildings (BIPV), represents a key component in the energy system of the future. The issues of land consumption for PV and dual use are now making BIPV increasingly important. Solutions for photovoltaics integrated into the building envelope are therefore increasingly becoming the focus of the construction industry.
IEA PVPS Task 17: Photovoltaik for Transport (working period 2018 - 2021)
The IEA PVPS Task 17 focuses on the potential contributions of PV technologies to the transport sector as well as on the expected market potential of PV application in the transport sector.
IEA PVPS Task 1: PV Analysis and Outreach
Since the start of the IEA photovoltaics program in 1993, this task has carried out analyses of worldwide photovoltaic development, from which the program's key work areas are also derived. This gives Task 1 strategic importance for the overall PVPS program. The participation of all PVPS countries in this task is mandatory to ensure high quality of data and analysis.
IEA PVPS Task 1: Strategic PV Analysis and Outreach (Working period from 2025)
This task, which is mandatory for all countries participating in the IEA-PVPS program, has been producing global reports on photovoltaic development since 1993. In addition, content-related priorities are set, or new topics and tasks are developed, which are then sent to the ExCo for decision-making. This gives Task 1 strategic importance for the overall IEA PVPS program.
IEA Photovoltaic Power Systems (PVPS)
Enhance the international collaborative efforts which facilitate the role of photovoltaic solar energy as a cornerstone in the transition to sustainable energy systems. The IEA PVPS programme aims to realise its mission through objectives related to reliable PV power system applications, contributing to sustainability in the energy system and a growing contribution to CO2 mitigation.
IEA SHC Task 49/IV: Solar Process Heat for Production and Advanced Applications
IEA SHC Task 49/IV focussed ist work on important research questions on solar process heat within the three subtasks: Process heat collectors, their application, comparison and possible standarization; Process Integration and process intensification as required interlinkage between solar heat and production processes; Design Guidelines, case studies and promotion as key for market penetration.
IEA SHC Task 67: Compact Thermal Energy Storage Materials within Components within Systems
This Task aims to push forward the compact thermal energy storage (CTES) technology developments to accelerate their market introduction through the international collaboration of experts from materials research, components development and system integration. These technologies are based on the classes of phase change materials (PCM) and thermochemical materials (TCM). Materials from these classes will be studied, improved, characterized and tested in components.
IEA SHC Task 68: Efficient Solar District Heating Systems (Working period 2022 - 2024)
Regarding the use of CO2-free technologies for local/district heating systems, solar technologies in particular offer an efficient option. In this task, the opportunities and challenges are investigated in order to efficiently provide the required temperatures necessary for local/district heating networks through solar technologies, to promote digitalisation, to identify new business models and measures for cost reduction, and to spread the knowledge about the potential of solar district heating systems.
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 70: Low Carbon, High Comfort Integrated Lighting
With the goal of decarbonization and sustainability of buildings in the sense of the circular economy, for integrated lighting systems the so far purely energy-based focus must be broadened to include the entire life cycle, with special consideration of visual and non-visual user requirements. In the task, strategic, technical, and economic information will be developed for the relevant stakeholders and networking activities will be offered.
IEA SHC Task 72: Solar Photoreactors for Fuels and Chemicals (working period 2024 - 2028)
With the increasing demand for green fuels and chemicals, solar-based photoprocesses that utilize direct sunlight are gaining importance. The IEA SHC Task 72 aims to develop new materials, reactor designs and system integration strategies as well as standardized test and evaluation protocols in an interdisciplinary approach to ultimately pave the way for future solar photoreactors as new market segments for the solar industry.
IEA TCP AFC Annex 33: Stationary Fuel Cells (Working period 2024 - 2027)
The focus of this task is on the secure supply of electricity for service and industrial applications. Analyses of at least three real applications (e.g. applications in healthcare facilities, data centers) show the strengths and weaknesses of stationary fuel cells compared to batteries and diesel generators. Global technological developments are considered in the analyses and target group-specific communication is used to promote the exchange with stakeholders.
IEA UsersTCP Empowering all: Gender in policy and implementation for achieving transitions to sustainable energy (Working period 2024-2026)
Intersectional factors such as gender, age, and socioeconomic status impact access to and use of energy within private households. This project investigates these inequalities using a comprehensive approach that incorporates surveys, focus groups, policy recommendations, and the establishment of a TCP Gender Knowledge Hub to promote inclusive energy transitions. By addressing these disparities, the project fosters a more equitable and sustainable energy transition while promoting systematic inclusion in energy policy.
IEA UsersTCP SLA 2.0: Inclusive and Community-Oriented Approaches to a Social License to Automate (Working period 2022-2024)
The energy transition is critical in solving the climate crisis. Automated demand side management has great potential in this process but struggles with social acceptance. In SLA2.0, the role of gender and diversity factors concerning flexibility and engagement was analysed, and the potential contribution of energy communities to a social license for automation was explored. Based on the findings, flexibility profiles and recommendations were developed.
IEA Wind Energy Systems (Wind TCP)
The mission of the Wind TCP is to stimulate co-operation on wind energy research and development and to provide high quality information and analysis to member governments and commercial sector leaders. The focus lies on technology development and deployment, as well as market and policy instruments.
IEA Wind Task 51: Forecasting for the weather driven energy system (Working period 2024 - 2027)
The project aims to improve forecasting accuracy for weather-dependent energy systems to enable the efficient integration of renewable energies. The focus is on physical/statistical and machine learning-based modelling of energy production from renewable energy sources, reducing uncertainties, and enhancing the communication of forecast information to the energy sector. International collaboration within the framework of the task aims to help develop standards and best practices that advance both research and practical applications.
IEA Wind Task 52: Large-Scale Deployment of Wind Lidar (Working period 2022 - 2026)
Task 52 works towards the widespread adoption of wind LiDAR-systems and provides a strong opportunity to generate and spread knowledge and experience through global networking. Energiewerkstatt contributes to Task 52 with a comparative study of data availability of different LiDAR measurement principles under Alpine conditions and will take an organisational role in the creation of guidelines for the use of ground-based LiDAR in wind energy applications.
IEA Wind Task 54: Wind Energy in Cold Climates (Working period 2025 - 2029)
In order to achieve the expansion targets for renewable energies, generation plants will increasingly have to be erected at locations with more demanding framework conditions in the future. For wind energy, this means planning and operating turbines under icing conditions in many countries. The task examines and evaluates technological solutions in this environment and publishes procedural recommendations in the form of technical reports and guidelines.
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 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.