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Fundamentals of Ocean Renewable Energy
Generating Electricity from the Sea
Simon P. Neill, M Reza Hashemi
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eBook - ePub
Fundamentals of Ocean Renewable Energy
Generating Electricity from the Sea
Simon P. Neill, M Reza Hashemi
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Über dieses Buch
Fundamentals of Ocean Renewable Energy: Generating Electricity from the Sea presents the basic concepts of mechanics and introduces the various technical aspects of ocean renewable energy. Contents follow a logical sequence, starting with hydrodynamics and then separately examining each conversion technology, with special focus on tidal energy, offshore wind and wave energy, as well as current and ocean thermal energy conversion (OTEC). The authors explore key topics for resource characterization and optimization, such as monitoring and measurement methods and ocean modeling. They also discuss the sustainability, planning, integration and distribution challenges for the implementation of these technologies, including co-location with other systems.
Finally, case studies of ocean energy sites and devices allow for a better understanding of how ocean energy conversion works in real-world settings. This book is an invaluable resource for students at graduate and senior undergraduate level engineering (ocean, mechanical, and civil) and oceanography with prior knowledge of fluid mechanics and mechanics of materials.
- Presents the fundamental physics and theory behind ocean energy systems, covering both oceanographic and engineering aspects of ocean energy
- Explores the most widely adopted conversion technologies, including tidal, wave, offshore wind, ocean thermal and currents
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Information
Chapter 1
Introduction
Abstract
There has been a considerable increase in global electricity consumption over the last few decades, yet with vast differences between countries and regions. In addition, the global energy mix has changed significantly over time—the world still relies on coal for over 40% of its electricity generation, but the amount of electricity that is generated from renewable sources has risen rapidly over the last decade. In this chapter, we introduce the global energy mix and demonstrate how electricity consumption per capita is linked to quality of life. We discuss the pressures of climate change, and dwindling fossil fuel reserves, and how these two issues are driving the transition towards low carbon renewable sources of energy. However, renewable energy generation presents a challenge to electrical grid systems, and we discuss the challenges of accommodating a high penetration of renewable energy into existing grid infrastructure. Finally, we introduce the topic of marine energy, and the fundamental concepts of energy and power.
Keywords
Global energy mix; Climate change; Sea-level rise; Fossil fuel reserves; Electrical grid systems; Levelised cost of energy; Energy and power; Capacity factor
There has been a considerable increase in global electricity consumption over the last few decades, yet with vast differences between countries and regions. In addition, the global energy mix has changed significantly over time—the world still relies on coal for over 40% of its electricity generation, but the amount of electricity that is generated from renewable sources has risen rapidly over the last decade.
In this chapter, we introduce the global energy mix and demonstrate how electricity consumption per capita is linked to quality of life. We discuss the pressures of climate change, and dwindling fossil fuel reserves, and how these two issues are driving the transition towards low carbon renewable sources of energy. However, renewable energy generation presents a challenge to electrical grid systems, and we discuss the challenges of accommodating a high penetration of renewable energy into existing grid infrastructure. Finally, we introduce the topic of marine energy and the fundamental concepts of energy and power.
1.1 The Global Energy Mix
Global electricity production was 23,950 TWh in 2015 (Fig. 1.1), which, with a world population of 7.35 billion, translates as an annual power output of 3.3 MWh per capita (Fig. 1.2). Electricity generation has doubled since 1990, when global production was 11,854 TWh, representing an annual power output of 2.3 MWh per capita.1 Energy consumption is one of the most accurate indicators of wealth, and so more affluent countries will generally have a higher electric power consumption per capita (Table 1.1). For example, it is fairly striking to note from this table that the United States, with an electricity usage of 12,988 kWh per capita in 2013, has 17 times the electricity consumption (per capita) as India (765 kWh per capita). The Human Development Index (HDI) is a summary measure of average achievement in key dimensions of human development: a long and healthy life, being knowledgeable, and having a good standard of living [1]. The HDI is the geometric mean of normalized indices for each of the three dimensions. The trend of electricity consumption per capita against HDI is very clear (Fig. 1.3). Noting that the x-axis in this figure is logarithmic, Norway tops Iceland (in contrast to Table 1.1) for HDI, despite having almost half of the electricity consumption per capita, but observe that the relationship of electricity consumption per capita between the United States and India is reflected in the HDI.
Table 1.1
| Country | kWh per Capita |
|---|---|
| Iceland | 54,799 |
| Norway | 23,326 |
| Canada | 15,519 |
| Qatar | 15,471 |
| Sweden | 13,870 |
| United States | 12,988 |
| United Arab Emirates | 10,904 |
| Australia | 10,134 |
| Saudi Arabia | 8741 |
| Japan | 7836 |
| France | 7374 |
| Russia | 6539 |
| Ireland | 5702 |
| United Kingdom | 5407 |
| Spain | 5401 |
| Chile | 3879 |
| China | 3762 |
| Iran | 2899 |
| Brazil | 2529 |
| Mexico | 2057 |
| Costa Rica | 1955 |
| Peru | 1270 |
| Indonesia | 788 |
| India | 765 |
| Pakistan | 450 |
| Bangladesh | 293 |
| Sudan | 159 |
| Nigeria | 142 |
| Ethiopia | 65 |
| Niger | 49 |
| South Sudan | 39 |
Source: Data from the World Bank (www.worldbank.org)
Take a look at the image of Earth’s city lights in Fig. 1.4, based on satellite data processed by NASA....