Three clean technology projects you didn't know about
Posted: Sun Dec 15, 2024 6:25 am
The clean energy boom is bringing with it a host of opportunities. Taking advantage of these new, environmentally friendly energies to give them the greatest possible number of applications is now one of the priorities within the energy sector.
Currently, Spanish households consume a fifth of the country's energy production and most of this consumption is used for air conditioning in homes.
Aware of this fact, research has been launched to transform air coo email list conditioning systems into greener ones , something that has taken on great importance in recent years. In Castilla y León, the national leadership is being taken in this field of research. The SWIFT (Solar and Wind Feasibility Technologies)
research unit at the University of Burgos is looking for new ways to take advantage of renewable resources , such as wind and solar energy, both thermal and photovoltaic. At Naturgy we want to make visible any initiative that encourages the transition towards a sustainable model in which efficiency takes on the main value and for that reason, today we are going to tell you about 3 projects that you should know about.
Implementation of energy efficiency systems in buildings
The multidisciplinary team is currently carrying out a study to assess the possibility of installing vertical photovoltaic energy, i.e. on the facades of public buildings . This study provides examples of the different types of installation and explains the costs of the projects, as well as the details of the amortisation of each installation, so that it is easier to take them into account in future works. This study also establishes that vertical photovoltaic installations are perfectly viable. The results of the research would make it possible to refurbish facades to transform them into photovoltaic installations!
Reliable measurement systems
Continuing along the lines of solar energy, the SWIFT team is working on creating systems capable of reliably measuring global radiation, ultraviolet radiation, PAR and luminance. Currently, there are approved devices for measuring these parameters, but they are not widely used due to their high cost. The goal of the team from the University of Burgos is to develop “ low cost ” systems that can perform the same measurements as approved devices.
In order to demonstrate the effectiveness of its technologies, SWIFT has also developed a comparison system between its device and others, with a similar price range, that are already on the market. With this, they hope to create a manageable and economical final product, suitable for domestic air conditioning!
Hybrid solar panel and heat exchanger for homes
In keeping with its goal of improving the energy efficiency of homes, SWIFT has developed a prototype of a hybrid PVT solar panel , thermal and photovoltaic! Using new materials for storing energy and a domestic heat exchanger with practically zero consumption , the first prototype of this product, derived from an industrial heat exchanger but adapted, achieves a more economical exchange at an energy level and a better operation. This adaptation has been carried out by incorporating peltier cells and heat pipes to create a highly innovative heat process control system.
Currently, Spanish households consume a fifth of the country's energy production and most of this consumption is used for air conditioning in homes.
Aware of this fact, research has been launched to transform air coo email list conditioning systems into greener ones , something that has taken on great importance in recent years. In Castilla y León, the national leadership is being taken in this field of research. The SWIFT (Solar and Wind Feasibility Technologies)
research unit at the University of Burgos is looking for new ways to take advantage of renewable resources , such as wind and solar energy, both thermal and photovoltaic. At Naturgy we want to make visible any initiative that encourages the transition towards a sustainable model in which efficiency takes on the main value and for that reason, today we are going to tell you about 3 projects that you should know about.
Implementation of energy efficiency systems in buildings
The multidisciplinary team is currently carrying out a study to assess the possibility of installing vertical photovoltaic energy, i.e. on the facades of public buildings . This study provides examples of the different types of installation and explains the costs of the projects, as well as the details of the amortisation of each installation, so that it is easier to take them into account in future works. This study also establishes that vertical photovoltaic installations are perfectly viable. The results of the research would make it possible to refurbish facades to transform them into photovoltaic installations!
Reliable measurement systems
Continuing along the lines of solar energy, the SWIFT team is working on creating systems capable of reliably measuring global radiation, ultraviolet radiation, PAR and luminance. Currently, there are approved devices for measuring these parameters, but they are not widely used due to their high cost. The goal of the team from the University of Burgos is to develop “ low cost ” systems that can perform the same measurements as approved devices.
In order to demonstrate the effectiveness of its technologies, SWIFT has also developed a comparison system between its device and others, with a similar price range, that are already on the market. With this, they hope to create a manageable and economical final product, suitable for domestic air conditioning!
Hybrid solar panel and heat exchanger for homes
In keeping with its goal of improving the energy efficiency of homes, SWIFT has developed a prototype of a hybrid PVT solar panel , thermal and photovoltaic! Using new materials for storing energy and a domestic heat exchanger with practically zero consumption , the first prototype of this product, derived from an industrial heat exchanger but adapted, achieves a more economical exchange at an energy level and a better operation. This adaptation has been carried out by incorporating peltier cells and heat pipes to create a highly innovative heat process control system.