Past, present and future practices in harnessing solar power for European buildings.

Harnessing solar powe
Topic: Past, present and future practices in harnessing solar power for European buildings.
Contents
Abstract    2
What makes this research different/necessary    3
What methods will you employ    4
What data will you gather    7
Outline likely outcomes and conclusions    10
Note: Few diagrams will be appreciated, Harvard referencing and good structured work    12
Abstract
Saving energy throughout the energy competence in buildings has become critical worldwide. Installing solar energy in all innovative and refu
ished buildings in the EU may save up to 8 million tons of ca
on dioxide per year (Aglietti et al., 2009). Historic buildings in European city centers are characterized by compact construction areas, buildings of varying heights, and in most cases with multi-sloping roofs. Architectural fundamentals, roof windows, chimneys as well as bay windows limit the available surface area of solar installations.
This paper presents the outcomes of an analysis of the possibility of using solar energy to meet energy needs in older buildings. According to the estimate made, it can be determined that intensive u
an progress has a huge roof surface, but the angle of the roof and the obstacles near the building pose a great limitation on the location of some devices. Saving energy throughout the energy competence in buildings has become critical worldwide. The four major aspects of building energy efficiency include: first as well as foremost passive building designs that is almost zero before actual construction; second, the use of low-energy materials of building during a process of construction; second, Use energy-efficient equipment to reduce operational energy consumption; and finally integrate renewable technologies of energy for a variety of applications. This paper has
iefly discussed these aspects and their environmental and economic impacts. This project highlights past, present and future practices in harnessing solar power for European buildings. The research questions have been set out to study future practices in harnessing solar power for European buildings.
What makes this research different/necessary
Image Source: cordis.europa.eu
It is important to analyze as well as understand the past and future of harnessing solar power for European buildings. This study will fill the gap of past, present and future status of solar power use in buildings and significant use of solar power in buildings. Also, new strategies, innovation strategies plus new concepts they had adopted for harnessing solar power for European buildings will be studied(Cordis.europa.eu, 2019). This is done to enable the future of harnessing solar power. This research is necessary because it helps those who want to know past, present or future practices in harnessing solar power for European buildings(Wolan, Connor and Kuster, 2007). This is significant in today's society since it takes into account the state of the country's environment. Analysis and research can ensure that the suggested solar panels are environmentally friendly, thereby reducing the risk of environmental pollution by making sure that solar panel has huge greenhouse gas emission reduction rate. Conducting solar panel analysis is important in today's world because it makes sure that management has invested in the product to ensure that they can obtain predictable benefits in near future(Eicker, Demir and Gürlich, 2015). Indeed, managers, subordinates, as well as people in the community care about it. Before management chooses to provide full support for the project, they must be fully confident that they are investing in something significant. They want to get an effective backup document explaining all analyses and returns that the product will save or
ing the company's costs. Introduced some solar energy technologies for buildings: Passive solar system refers to those systems that do not rely on mechanical equipment to store, abso
moreover distribute solar energy; or also active systems, which use mechanical fluids, for example, air or water to transfer mechanically heat(Sundar Kumar Iyer, 2015). It is usually water or a water-based fluid. It also introduces building-integrated energy systems (K and Usha, 2017). Now, renewable technology is integrated into the structure of the building. Today, solar energy buildings are undergoing a real revolution by integrating renewable technology into the structure of the building. Such a system is made for heating, insulation, ventilation, shading, the lighting of buildings and power generation(Kumar et al., 2018). Households of Europeans can save on electricity and get reliable moreover clean energy-which will create a better future. In Germany, with an average-sized roof system, a typical family of four consumes an average of 3,700 kWh per year, saving nearly 500 Euros per year. Since 2000, the cost of solar panels has fallen by 96%, which makes it reasonable for everybody. Whether you personal or rent a house furthermore you are landowner, investing in solar energy is very low cost. The estimated investment recovery period is about 12 years and the validity period is up to 40 years. Today, you can also purchase an undersized solar system to produce electrical energy for your family, which is much less than a long-distance vacation for your kids. Today, buildings account for 37% of EU ca
on dioxide emissions, but if buildings use on-site power generation facilities, for example, solar panels and integrated solar energy of buildings, buildings can meet 32% of the EU’s energy needs.
This paper is different as it describes the technical opportunities, methods, and means for incorporating RET into building operations and design(Lazzarin and Noro, 2018). Before the house-to-house fight begins, it’s significant to win people's hearts. The main step is to provide building planners and architects with professional data on integrated photovoltaics. The lower ba
ier to entry into this market, the faster the growth rate-eventually BIPV will stand out. Only 3% of houses in the EU presently utilize solar energy
What methods will you employ
In Europe, solar energy is the main energy source that increases power generation, expands energy reliability, and has environmental and social benefits. The main reasons behind this research are analytical strategies, past, present and future practices, and the future potential and development of solar energy in the European energy sector. The data collection method chosen is secondary. The secondary data is based on time-series data from 2013 to 2019. Researchers collect data from peer-reviewed articles, journals, li
aries, case studies, and magazines (Cassell, Radcliffe, and Malik, 2019). It is also collected from the "Internet, Energy Agency, International Energy Statistics, Energy Efficiency Agency, European Economic Profile, and European Planning Documents". The research objectives are consistent with the secondary research methodology. The data will be collected from observations of people who investigated the use of solar energy as a renewable energy source in Europe. For data analysis, historical methods will be used. The researchers will...