Explaining Renewable Energy
Autor Elaine A. Mooreen Limba Engleză Paperback – 16 dec 2022
Renewable energy is currently on everyone’s mind in the context of climate change. This text provides students with an introduction into the science behind the various types of renewable energy enabling them to access review literature in the field and options that that should be considered when selecting methods.
Features
- Collates the most relevant and up to date information on renewable energy systems in a user friendly format for undergraduate and high school students.
- Focuses on power production technologies from renewable energy sources.
- An introduction to how sources of renewable energy work; their advantages and drawbacks.
- Timely text with the need for fast adoption of renewable energy technologies around the world.
- Suitable for a diverse audience including students with some scientific background such as final year in high school wanting to know more about combatting climate change.
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Specificații
ISBN-13: 9781032275758
ISBN-10: 1032275758
Pagini: 102
Ilustrații: 33 Line drawings, color; 2 Line drawings, black and white; 9 Halftones, color; 42 Illustrations, color; 2 Illustrations, black and white
Dimensiuni: 156 x 234 x 9 mm
Greutate: 0.14 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
ISBN-10: 1032275758
Pagini: 102
Ilustrații: 33 Line drawings, color; 2 Line drawings, black and white; 9 Halftones, color; 42 Illustrations, color; 2 Illustrations, black and white
Dimensiuni: 156 x 234 x 9 mm
Greutate: 0.14 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Public țintă
Postgraduate, Professional, Undergraduate Advanced, and Undergraduate CoreCuprins
1. Introduction
2. Solar Energy
2.1. Photovoltaic (solar) cells
2.1.1 Semiconductors
2.1.2. The p-n junction
2.1.3. Materials
2.1.4. Other solar cells
2.2. Other Considerations
2.3. Solar thermal panels
2.3.1 Materials
2.3.2 Other Considerations
Questions
3. Wind power
3.1. Wind turbines
3.2. Electrical generators
3.3. Materials
3.4. Other Considerations
Questions
4. Water power
4.1. Hydroelectric dams
4.2. River turbines
4.3. Wave power
4.4. Tidal power
4.5. Material
4.6. Other Considerations
Questions
5. Geothermal Energy
5.1. The origin of geothermal energy
5.2. Accessing geothermal energy
5.2.1 Using geothermal energy for heating
5.2.2 Using geothermal energy to produce electricity
5.3. Considerations
Questions
6. Hydrogen
6.1. Hydrogen production
6.1.1. Electrolysis
6.1.2. Chemical Reactions
6.1.3. Biohydrogen production
6.2. Storage and transport
6.3. Hydrogen use
6.3.1. Fuel cells
6.4. Considerations
Questions
7. Biomass
7.1. How is energy produced from biomass?
7.2. Why is energy derived from biomass considered renewable?
7.3. Types of biomass
7.3.1. Wood
7.3.2. Crops and Grasses
7.3.3. Algae
7.3.4. Waste
7.4. Considerations
Questions
8. Energy storage
8.1. How rechargeable batteries work
8.2. Batteries for storage
8.2.1 Kead-acid batteries
8.2.2. Lithium-ion batteries
8.2.3. Sodium based batteries
8.2.4. Redox flow batteries
8.3. Batteries for transport
8.3.1. Lithium-based batteries
8.4. Capacitors
8.5. Pumped storage hydropower
Questions
9. Carbon capture, storage and conversion
9.1. Carbon capture and storage
9.1.1. Trees and peat bogs
9.1.2. Construction materials and minerals
9.1.3. Porous solids
9.1.4. Absorbance by liquids
9.2. Conversion of captured carbon dioxide
9.2.1. Mineralisation
9.2.2 Chemicals and Fuels
Questions
Notă biografică
Elaine A. Moore studied chemistry as an undergraduate
at Oxford University, England, and then stayed on to complete
a DPhil in theoretical chemistry with Peter Atkins.
After a two-year postdoctoral position at the University of
Southampton, England, she joined the Open University, UK
(OU), in 1975, becoming a lecturer in chemistry in 1977,
senior lecturer in 1998 and reader in 2004. She retired in
2017 and currently has an honorary position at the Open
University.
She has produced OU teaching texts in chemistry for
courses at levels 1, 2 and 3 and written texts in astronomy
at level 2 and physics at level 3. She is a co-author of Metals
and Life and of Concepts in Transition Metal Chemistry,
which were part of a level 3 Open University course in
inorganic chemistry, and were co-published with the Royal
Society of Chemistry. She was team leader for the production
and presentation of an Open University level 2 chemistry
module delivered entirely online. She is a Fellow of
the Royal Society of Chemistry and a Senior Fellow of the
Higher Education Academy. She was a co-chair for the successful
departmental submission of an Athena Swan bronze
award.
Her research interests are in theoretical chemistry applied
mainly to solid-state systems, and she is the author or
co-author of more than 50 papers in refereed scientific journals.
A long-standing collaboration in this area led to her
being invited to help run a series of postgraduate workshops
on computational Materials Science hosted by the University of
Khartoum, Sudan.
at Oxford University, England, and then stayed on to complete
a DPhil in theoretical chemistry with Peter Atkins.
After a two-year postdoctoral position at the University of
Southampton, England, she joined the Open University, UK
(OU), in 1975, becoming a lecturer in chemistry in 1977,
senior lecturer in 1998 and reader in 2004. She retired in
2017 and currently has an honorary position at the Open
University.
She has produced OU teaching texts in chemistry for
courses at levels 1, 2 and 3 and written texts in astronomy
at level 2 and physics at level 3. She is a co-author of Metals
and Life and of Concepts in Transition Metal Chemistry,
which were part of a level 3 Open University course in
inorganic chemistry, and were co-published with the Royal
Society of Chemistry. She was team leader for the production
and presentation of an Open University level 2 chemistry
module delivered entirely online. She is a Fellow of
the Royal Society of Chemistry and a Senior Fellow of the
Higher Education Academy. She was a co-chair for the successful
departmental submission of an Athena Swan bronze
award.
Her research interests are in theoretical chemistry applied
mainly to solid-state systems, and she is the author or
co-author of more than 50 papers in refereed scientific journals.
A long-standing collaboration in this area led to her
being invited to help run a series of postgraduate workshops
on computational Materials Science hosted by the University of
Khartoum, Sudan.
Descriere
Renewable energy is the solution to mitigation of fossil carbon emissions. Understanding the principles, advantages and challenges of renewable energy will help accelerate wider adoption of renewable energy solutions and carbon mitigation.