Book contents
- Frontmatter
- Contents
- Introduction
- Credits
- 1 Historical notes
- 2 Internal structure of the Earth
- 3 Basic equations
- 4 Heat conduction
- 5 Heat transport by convection
- 6 Thermal structure of the oceanic lithosphere
- 7 Thermal structure of the continental lithosphere
- 8 Global energy budget. Crust, mantle and core
- 9 Mantle convection
- 10 Thermal evolution of the Earth
- 11 Magmatic and volcanic systems
- 12 Environmental problems
- 13 New and old challenges
- Appendix A A primer on Fourier and Laplace transforms
- Appendix B Green's functions
- Appendix C About measurements
- Appendix D Physical properties
- Appendix E Heat production
- List of symbols
- References
- Index
- Plate section
2 - Internal structure of the Earth
Published online by Cambridge University Press: 18 December 2014
- Frontmatter
- Contents
- Introduction
- Credits
- 1 Historical notes
- 2 Internal structure of the Earth
- 3 Basic equations
- 4 Heat conduction
- 5 Heat transport by convection
- 6 Thermal structure of the oceanic lithosphere
- 7 Thermal structure of the continental lithosphere
- 8 Global energy budget. Crust, mantle and core
- 9 Mantle convection
- 10 Thermal evolution of the Earth
- 11 Magmatic and volcanic systems
- 12 Environmental problems
- 13 New and old challenges
- Appendix A A primer on Fourier and Laplace transforms
- Appendix B Green's functions
- Appendix C About measurements
- Appendix D Physical properties
- Appendix E Heat production
- List of symbols
- References
- Index
- Plate section
Summary
Objectives of this chapter
The Earth can be compared to a big thermal engine: its internal heat provides the energy that drives all geodynamic processes and its long term evolution is governed by cooling. The total energy of the Earth depends on its internal structure and composition. How energy is transported in the Earth depends on its physical properties, which are controlled by the thermal structure. Here, we review some basic geophysical information about the present state of the Earth's interior and show how it is related to the thermal regime and the energy budget of the Earth. This chapter is not intended as a comprehensive description of the Earth and its main units and is focused on aspects that are most relevant to heat generation and transport.
Introduction
This chapter is focused on the silicate Earth which is made of a thin crust over a thick mantle, lying above a central metallic core. For the sake of brevity, we do not explain plate tectonics and assume familiarity with some of its basic premises and terminology. Mid-ocean ridges are zones of shallow sea floor where volcanic eruptions and earthquakes occur frequently. The sea floor is formed out of the mantle there, moves horizontally, and eventually returns into the mantle through deep trenches in a process called subduction.
- Type
- Chapter
- Information
- Heat Generation and Transport in the Earth , pp. 8 - 34Publisher: Cambridge University PressPrint publication year: 2010