Objective
Write about the Future Global Energy Production and Infrastructure Report.
The energy availability is the essential and significant quality determinant of life in the settlements among human beings (Acar and Dincer 2014). Numerous countries especially the oil-importing developing countries have been affected seriously by energy’s high cost that has implemented the widespread balance of the difficulties of payment (Chu and Majumdar 2012). However, both the urban and rural areas have been affected adversely by current changing economics of energy, the associated issues of energy supply and the force of impact (McGlade and Ekins 2015). The environmental movement has provided a significant emphasis on the sustainability of the development as well as use of energy. The muscle power of animals and human beings was the first application of human energy and the food chain was the energy system in use (Ellabban, Abu-Rub and Blaabjerg 2014). Human beings have designed the energy systems with the objective of implementing most work, which is possible with the minimum amount of human effort for generating the energy (Scheer 2013). The discoveries and the inventions of the Industrial revolution propelled the quest for more powerful energy sources. A seemingly inexhaustible and a large reliable energy source because essential for the transportation and industrial uses (Lesage and Van de Graaf 2016). Since the 16th century, human beings are making several innovations in energy production in association with the trends, demands and the growth in society (Ieropoulos, Greenman and Melhuish 2012). Thus, this study mainly focuses on the implementation of the analysis of energy sustainable factors. On the other hand, this study also focuses to speculate over the future challenges. How the needs and the production of energy would change in the coming centuries and decades are also aimed to be discussed in this report.
This study is aimed on the examination of the factors, which are related to the generation of energy for the commercial, global as well as the urban utilization. Therefore, in order to accomplish the major aim of this report, there could be few objectives of this report. These are as follows:
- To examine the factors associated with the generation of energy for the global, commercial and urban use
- To identify the global, rural and urban energy requirements
- To speculate over the future consequences as well as the challenges in regards to the energy generation factors in the urban and the rural areas over the world
- To examine the production of energy with respect to the rural or urban infrastructure, commercial use, individual use as well as the expansive factors.
- To identify the factors, which are critical to the future and the current challenges
- To address the challenges for meeting the sustainable needs in future
The mission for the more potential sources of energy was driven by the discoveries as well as the inventions of the industrial revolution (Acar and Dincer 2014). The requirement for the large quantities of transportable, dependable and accessible energy encouraged the energy source’s exploration. The inventions associated with the industrial revolution given the equipment towards the further mine or drill the already visible deposits of oil and coal (Scheer 2013). The steam power was invented as well as implemented in the 1600’s in conjunction with the coal mining for helping the pump water out of the mines (Holmberg, Andersson and Erdemir 2012). On the other hand, an improvised version of the steam engine was built as well as designed by James Watt in 1763. Therefore, the sun was also studied as the source of energy in the 18th century. Moreover, Alexander Becquerel invented that an electric current could be generated while the certain elements were exposed to light in 1839 (Moriarty and Honnery 2012). Therefore, the wind energy was also implemented on a wide scale in the US as the source of energy for the railroad stations and farms. During the 20th century the energy technologies have been developed in a very rapid manner (Chu and Majumdar 2012). The crude oil as well as its products had become an essential component of the economy of industries by the early part of the 20th century.
Energy Sustainability Factors
In today’s world, the energy diversity has helped in terms of balancing the costs, risks as well as the benefits in association with the production of electricity or another energy system (Lund et al. 2014). Maintaining or managing a diverse fuel supply or implementing or using the renewable sources for supplying energy can easily protect the consumers from the potential price volatility as well as the issues in regards to the environment sustainability (Darling and You 2013). In recent days, the solar as well as the wind energy generate a growing share of the electricity all over the world (Scheer 2013). People are relying more on the renewable energy sources in rural, urban as well as the global areas (Holmberg, Andersson and Erdemir 2012). On the other hand, it must be stated that the renewable energy systems are being utilized increasingly for the generation of electricity, either at the decentralized system at small scale with the capacity in the medium scale or the kW systems (Scheer 2013).
Diversity is a important as well as significant factor for the development of the energy systems (Scheer 2013). The energy diversity is very important in terms of providing the facility of power supply at the businesses as well as the homes of people all over the world (Ieropoulos, Greenman and Melhuish 2012). Therefore, it can also be stated that energy diversity is the most crucial factor for the world power consumption. The “World energy consumption” is the entire energy, which is used by all the human civilization (Ellabban, Abu-Rub and Blaabjerg 2014). The supply of energy has accomplished most of the needs of people all around the world. In the rural, urban as well as the global world, the energy supply has become mandatory. Thus, maintaining diversity while supplying energy is the pivotal point in order to effectively meet the need of people in the rural, urban as well as global areas all over the world (Lesage and Van de Graaf 2016). Energy diversity has evolved in order to change the demands of the people who are living in the urban areas (Chu and Majumdar 2012). Along with that, energy diversity and the development of energy supply system have played the significant roles in order to make several important and popular technical innovations such as increment in the number of the electronic devices, electric cars, and many other inventions (Moriarty and Honnery 2012). On the other hand, the energy diversity can also play significant role in order to resolve the significant environmental issues of energy systems like peak oil production, global warming, and green house gas emission as well as the other issues.
Brief History of Energy Development
The environmental sustainability is the major concern of the energy generation for all the urban, rural as well as the global areas all over the world. The major, especially the epic challenge of the 21st century is filling the gap between the demand with the clean, inexpensive and reliable energy as well as the energy supply (Holmberg, Andersson and Erdemir 2012). The environmental impact of the energy industry has become the major concern for people in the rural, urban and the global areas all over the world (Scheer 2013). The fossil fuel consumption has resulted in the climate change as well as the global warming (Srirangan et al. 2012). The electricity supply through the non-renewable sources can lead to the vulnerability of the decrement of the sources on the earth. However, the rapid advancement in the technologies can achieve the transition of the waste and water management and energy generation and food production to the energy usage and environmental practice utilizing the methods industrial and systems ecology (Darling and You 2013). Climate change, bio-fuel use, fossil fuel, electricity generation, wind power generation and the nuclear power generation are the major issues with energy generations which can create significant impacts over the urban, rural and the global systems (Acar and Dincer 2014). On the other hand, as per the governance and the legislative issues of the energy sustainability, it can be stated that the governments of many developing countries have failed to implement the proper rules and regulations in order to mitigate the environmental issues of energy production (McGlade and Ekins 2015). The usage of the renewable sources of energy has become the most important agenda for all over the world (Moriarty and Honnery 2012). However, the governments of several countries have failed to properly concentrate on the enhancement of the usage of these energy sources by implementing strict and effective rules and regulations (Lesage and Van de Graaf 2016). Therefore, it is the most important concern for people to think about and implementation of the mitigation technique to mitigate the issues with the energy sustainability.
This report has provided a brief background regarding global energy production before the beginning of the execution of the study. This study has also identified all the objectives which are very important to be accomplished by the entire analysis depicted in this report. On the other hand, in the energy sustainability factor section, a brief history of the global energy production has been portrayed. On the other hand, this section has also provided the crucial idea regarding the utilization of energy diversity along with the explanation of the energy diversity in the global world incorporating rural, urban and the global places over the world. Apart from that, this section has also identified as well as portrayed the challenges of energy system. Most importantly, this report has also shed light on all the recommending strategies to resolve the issues with energy sustainability in association with the global energy production.
Diversity of Energy Production
Conclusion and Recommendations
Conclusion
After conducting the entire study, it can be stated that the urban, rural as well as the global areas all over the world are the major areas that have to face the positive and the negative impacts of the environmental sustainability the most. This study has successfully portrayed this particular fact with the sound analysis of the issues of the environmental sustainability. Along with that, this study has also successfully incorporated all the factors of the energy sustainability. On the other hand, it must be stated after the completion of the report that the government of different developing countries over the global world should follow all the recommendations or the mitigation techniques provided in the below subsection. The government of the countries can significantly play a crucial role in order to mitigate the environmental impact of the systems by implementing the suitable and effective legislations.
There can be few significant ways or the techniques through which the issues and the negative environmental impacts associated with the energy generation over the urban, rural as well as the global areas around the globe can be resolved.
Energy Conservation – This particular effort should be implemented as it can reduce the issues with the consumption of energy. It can be achieved with the help of the enhanced use of the efficient energy, in association with the decreased consumption of energy and minimized consumption from the sources of conventional energy. It can lead to the enhanced human comfort, personal security, national security, environmental quality as well as financial capital. The organizations and the individuals those are energy’s direct consumers select for conserving energy for reducing the costs of energy and promote the economic security over the rural and urban areas.
Energy Policy – It should be the manner in that a provided entity often government entity has made the decision for addressing the energy development energy incorporating energy consumption, distribution and production. The energy policy attributes may incorporate the international treaties, legislation, investment incentives and guideline for the taxation, conservation of energy and other techniques of public policy.
References
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Darling, S.B. and You, F., 2013. The case for organic photovoltaics. Rsc Advances, 3(39), pp.17633-17648.
Ellabban, O., Abu-Rub, H. and Blaabjerg, F., 2014. Renewable energy resources: Current status, future prospects and their enabling technology. Renewable and Sustainable Energy Reviews, 39, pp.748-764.
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Ieropoulos, I., Greenman, J. and Melhuish, C., 2012. Urine utilisation by microbial fuel cells; energy fuel for the future. Physical Chemistry Chemical Physics, 14(1), pp.94-98.
Lesage, D. and Van de Graaf, T., 2016. Global energy governance in a multipolar world. Routledge.
Lund, H., Werner, S., Wiltshire, R., Svendsen, S., Thorsen, J.E., Hvelplund, F. and Mathiesen, B.V., 2014. 4th Generation District Heating (4GDH): Integrating smart thermal grids into future sustainable energy systems. Energy, 68, pp.1-11.
McGlade, C. and Ekins, P., 2015. The geographical distribution of fossil fuels unused when limiting global warming to 2 [deg] C. Nature, 517(7533), pp.187-190.
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Srirangan, K., Akawi, L., Moo-Young, M. and Chou, C.P., 2012. Towards sustainable production of clean energy carriers from biomass resources. Applied Energy, 100, pp.172-186.
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