Importance of solar energy for green building
Discuss about the Demonstration Buildings As Protected Spaces.
Green building is a sustainable developments and energy saving building. It has an important role to make alleviate resources as well as protecting the environment reducing pollution (Kibert 2016). The solar energy is considered as renewable energy. The particular field regarding green technology encompasses constant groups of methods and materials from the technique in order to generate energy for non-toxic cleaning methods. The sun provides unlimited resources for power across the world. In addition, there are several people are tapping energy into the energy for homes as well as business.
In the present era, the future of energy is not certain (Zuo and Zhao 2014). Solar energy is considered as radiant light as well as heat from the sun. The technology can be helpful to enable radiant light of the sun to be transformed into electrical energy. In this perspective, it is required to carry out a research that can be helpful to understand the importance of solar energy for green building. There are different types of solar power cells. It consists of crystalline silicone, film cells, ordinary cells as well as concentrator cells. The cells are considered as the most used in solar plants. On the other hand, as the raw materials for generating conventional energy are reducing day by day, it becomes inevitable to use alternative sources for generating energy. In this aspect, it is required to conduct a research that deals with the use of solar energy in green building.
The aim of the study is to demonstrate and analyze the impact of solar energy integration in green building. On the other hand, the advantages and disadvantages of using the system is assessed in the current study. The challenges faced while integrating the solar system is described in the present study.
H0: Solar system integration has a great impact on green building
H1: There is any role of solar system integration on green building
- What is the role of solar system integration on green building?
- What are the challenges while implementing solar system on green building?
There is circulate water through the particular system. However, it is important to take additional benefits of the active solar energy (Kumar and Bhimasingu 2015). Active solar heating is one of the methods of heating air inside of the building. The particular method utilizes the mechanical equipments such as pumps, fans as well as blowers in order to collect, store as well as distribute heat across the building. On the other hand, active solar heating is one of the methods of heating building using sun as well as pumps for circulating water. The cells are developed from specific layers. There is positive layer as well as negative layer. An electric field is generated between the layers during striking by protons on the semiconductors.
Types of solar power cells
Solar power works in an integrated way. It starts with sunlight and available as well as powerful resource that we can tap into. On the other hand, it is important to create activity that is readily available on the world and does not reduce from pollution. The environmental advantages of green building are not limited. However, there are compelling causes for implementing green building report some issues and increase of asthma as well as allergies. It helps to minimize costs of energy. In addition, green building is able to minimize cost of energy. It has power to attract as well as retain top talent. On the other hand, green buildings are usually sell money compared to standard buildings. There are also extra business scopes through appealing to increasing pool of aware customers.
A current study has revealed that there are 81% global customers surveyed have shown their desire to sacrifice for preserving the environment. In addition, there are 80% people stated that the people buy products from unknown brands and powerful commitment for creating strong commitment for social responsibility. Green building makes an attempt working for on-site energy production with the help of renewable energy use to the requirements of energy. For example, solar thermal systems assist producing hot water as well as replacing conventional electric geyser in the buildings. In addition, solar PV channels can be helpful to produce electricity that can minimize the dependence of buildings on grid power. Green building can consume 40% to 80% less water compared to conventional building. Thus, using dual pluming system as well as harvesting by rain water, green buildings can minimize demand for water.
Research methodology is one of the chapters that helps to define the most appropriate approach that requires to be adopted attaining complete as well as detailed outcomes of the process. Application of research methodology assists in understanding the process adopted in order to analyze the role of solar system integration for green building.
Application of research philosophy assists to determine the proper way to obtain detailed way that can be effectively processed with research process. On the other hand, it is required to manage the entire process Heiskanen et al. 2015). In the present study, positivism philosophy is selected for the research. It is considered as the way to dominate the process through making scientific knowledge.
Deductive research approach and inductive research approach are the types of research approaches used in academic research. Deductive research approach deals with deducing research ideas or concepts from existing theory or model, whereas inductive research approach deals with development of theory or model by analyzing existing research papers. On the other hand, research approach is the format for conducting the study. A research topic is undertaken for the study that assists in studying the research topic when adequate data on the selected topic is not available. In the current study, deductive approach is selected for conducting the research in proper way. It assists the study for conducting the research in proper way.
Advantages and disadvantages of solar system integration in green building
Descriptive, explanatory and exploratory research designs are the types of research approaches used in researches. On the other hand, it is important to make the process of data collection for the study (Byrne et al., 2015). Exploratory, explanatory and descriptive research designs are the types of research designs. In the present study, descriptive research design is selected for the research.
Primary data collection and secondary data collection are the types of data collection methods used in researches. Primary data are collected from primary sources such as conducting survey and interview. On the other hand, secondary data are collected from secondary ssources such as articles and websites. Secondary data is collected for the research. The data is collected from secondary sources like books, journals and websites. Thus, qualitative data analysis technique has been applied in the present study. Simple random probability sampling technique has been applied in the research that assists to select sample for the research.
Data collected from secondary sources help to generate results for the research. According to the data collected, themes have been formed. It assists to get conclusion for the research.
It demonstrates the heat sources of hot-water system (Murgul 2014). On the other hand, the decoration of the balconies is included in it. In addition, it provides a feasible design method be developed multi-story buildings as well as high-rise buildings. The arrays of solar collector as well as high-rise buildings for the residential buildings are included in it. The process is connected through copper pipes as well as valves in order to develop a closed circulating system.
An integrated energy system that is based on solar system on the solar thermal technologies has been designed as well as set up for the building. On the other hand, as office buildings, demand of hot water is not adequate like residential buildings. Hence, the solar-powered design for integrated system. Different design is considered as natural for the process of improving ventilation by solar water (Modi et al. 2017). It is effective as well as essential for solving the issue regarding surplus hot water in the transitional seasons. On the other hand, it provides a new way for designing the systems (Lamnatou et al. 2015). The solar collectors are helpful for the particular system that mainly consists of adsorption chillers as well as floor heating pipes. In addition, it is important to develop the finned tube heating exchanges and cooling tower.
Challenges faced during solar system integration
Solar technologies are divided into two categories. Dynamic sun situated essentialness system is the use of photovoltaic board and sun based warm gatherers to harness the imperativeness while, separated daylight based imperativeness structure is the technique to equip the sun based essentialness inactively (Oró et al. 2015). Daylight based joined essentialness structure is sensible system that merging all the sun controlled advances structure that planned with the attempting to make the building greater imperativeness successful and reduce the use of depleting imperativeness sources. Daylight based joined imperativeness system incorporates warming, cooling, general ventilation and warmed water giving was created to the green building, which recognizes high blend of sun fueled warm advancements. Except for solar collectors, the daylight based energized composed imperativeness structure generally consolidates, floor warming channels, finned tube warm exchangers, revolving around pumps. In addition, a bubbling water-accumulating tank is used to assemble solar warmth, along these lines giving high temperature water to the planned solar energy system.
Moreover, the sun based essentialness is not only an imperativeness, and a reasonable influence source, however which rich in resources (Sichilalu. and Xia 2015). It free usage of, and in addition not to be transported, and it makes no pollution to condition and for the most part using as a piece of the green building (Cellura et al. 2014). There are several benefits for using green building. Green buildings develop less pollution during barricading of the particular sites and construction materials. In addition, green buildings can ensure appropriate safety, health as well as sanitation facilities for worker. Development of green building with solar power integration system has various benefits as it decreases embodies energy of the particular buildings by efficient design and utilization of recycled as well as local materials. The design of green building can minimize consumption of energy over the time. Moreover, strategically placement of windows as well as skylight can reduce the requirement for generating electrical lightning in day. Assumption of high quality building can also minimize temperature regulation costs in summer and winter. Additionally, it consumes less water compared to traditional type of buildings.
Conclusion
From the above study, it concludes that development of solar energy by solar integrated system has a great impact on the environment and society. The integration of solar energy in buildings can reduce the use of the conventional sources that is limited in amount. On the other hand, solar energy integration can reduce the amount of pollution generated while producing energy. Solar energy is getting much thought in green building imperativeness structure in perspective of its no-limit and clean being. Overall, the more breakthrough green structures solidify a couple of solar developments. They are essentially daylight-based structures. Daylight based facilitated imperativeness system is the blend of different solar development. Hence, solar energy integration in green buildings can be helpful for overall society.
In order to use solar energy in green buildings in better way, some recommendations can be provided.
- It is required to increase the use of solar energy in multiple fields so that it can be rapidly used.
- The cost of materials required to minimize so that people can afford it easily.
- On the other hand, it is required to be familiar with the solar energy system so that integration makes easy in the green buildings.
References
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Cellura, M., Guarino, F., Longo, S. and Mistretta, M., 2014. Energy life-cycle approach in Net zero energy buildings balance: Operation and embodied energy of an Italian case study. Energy and Buildings, 72, pp.371-381.
Heiskanen, E., Nissilä, H. and Lovio, R., 2015. Demonstration buildings as protected spaces for clean energy solutions–the case of solar building integration in Finland. Journal of Cleaner Production, 109, pp.347-356.
Kannan, N. and Vakeesan, D., 2016. Solar energy for future world:-A review. Renewable and Sustainable Energy Reviews, 62, pp.1092-1105.
Kibert, C.J., 2016. Sustainable construction: green building design and delivery. John Wiley & Sons.
Kumar, Y.P. and Bhimasingu, R., 2015. Renewable energy based microgrid system sizing and energy management for green buildings. Journal of Modern Power Systems and Clean Energy, 3(1), pp.1-13.
Lamnatou, C., Chemisana, D., Mateus, R., Almeida, M.G.D. and Silva, S.M., 2015. Review and perspectives on Life Cycle Analysis of solar technologies with emphasis on building-integrated solar thermal systems. Renewable Energy, 75, pp.833-846.
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Modi, A., Bühler, F., Andreasen, J.G. and Haglind, F., 2017. A review of solar energy based heat and power generation systems. Renewable and Sustainable Energy Reviews, 67, pp.1047-1064.
Murgul, V., 2014. Solar energy systems in the reconstruction of heritage historical buildings of the northern towns (for example Saint-Petersburg). Journal of Applied Engineering Science, 12(2), pp.121-128.
Oró, E., Depoorter, V., Garcia, A. and Salom, J., 2015. Energy efficiency and renewable energy integration in data centres. Strategies and modelling review. Renewable and Sustainable Energy Reviews, 42, pp.429-445.
Ruparathna, R., Hewage, K. and Sadiq, R., 2016. Improving the energy efficiency of the existing building stock: A critical review of commercial and institutional buildings. Renewable and sustainable energy reviews, 53, pp.1032-1045.
Sichilalu, S.M. and Xia, X., 2015. Optimal energy control of grid tied PV–diesel–battery hybrid system powering heat pump water heater. Solar Energy, 115, pp.243-254.
Zuo, J. and Zhao, Z.Y., 2014. Green building research–current status and future agenda: A review. Renewable and sustainable energy reviews, 30, pp.271-281.
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