Electrical Engineering: Principles and Applications; Allan R. Hambley; 2010

Electrical Engineering: Principles and Applications Upplaga 5

av Allan R. Hambley
Tomorrow's Engineers

Finding and developing practical ways to provide the energy needed for modern technical societies on a sustainable basis without disrupting the environment is the most important problem confronting the coming generation of engineers and scientists. Among the proposed energy sources, two of which (solar and wind) are used by the dandelion to grow and disperse its seeds are:

Wind energy Earth-based solar thermal concentrators and photovoltaic solar cells Hydroelectric energy Biomass energy Geothermal energy Gulf stream, wave, and tidal energy Clean coal, in which the C02 is captured and stored ot recycled in a biomass energy plant Systems of nuclear fission reactors combined with hybrid fission/fusion reactors that burn the waste products of the fission reactors Nuclear fusion Hydrogen from water using sunlight aided by a catalyst Enhanced power grids may need to be built to distribute energy from some of these proposed solutions. Conservation must also play a part, possibly including:

More efficient power grids Hybrid or electric vehicles Better mass transportation for people Hydrogen-powered fuel-cell vehicles Efficient lighting More/better rail systems in place of trucks and highways Better building design Better intelligence in energy consumption Regardless of which solutions ultimately emerge, it is certain that all of the topics discussed in this book will play important roles. For example, see the Practical Application concerning energy-storage systems for electric vehicles starting on page 100.
Tomorrow's Engineers

Finding and developing practical ways to provide the energy needed for modern technical societies on a sustainable basis without disrupting the environment is the most important problem confronting the coming generation of engineers and scientists. Among the proposed energy sources, two of which (solar and wind) are used by the dandelion to grow and disperse its seeds are:

Wind energy Earth-based solar thermal concentrators and photovoltaic solar cells Hydroelectric energy Biomass energy Geothermal energy Gulf stream, wave, and tidal energy Clean coal, in which the C02 is captured and stored ot recycled in a biomass energy plant Systems of nuclear fission reactors combined with hybrid fission/fusion reactors that burn the waste products of the fission reactors Nuclear fusion Hydrogen from water using sunlight aided by a catalyst Enhanced power grids may need to be built to distribute energy from some of these proposed solutions. Conservation must also play a part, possibly including:

More efficient power grids Hybrid or electric vehicles Better mass transportation for people Hydrogen-powered fuel-cell vehicles Efficient lighting More/better rail systems in place of trucks and highways Better building design Better intelligence in energy consumption Regardless of which solutions ultimately emerge, it is certain that all of the topics discussed in this book will play important roles. For example, see the Practical Application concerning energy-storage systems for electric vehicles starting on page 100.
Upplaga: 5e upplagan
Utgiven: 2010
ISBN: 9780132130066
Förlag: Prentice Hall
Format: Bok
Språk: Engelska
Sidor: 893 st
Tomorrow's Engineers

Finding and developing practical ways to provide the energy needed for modern technical societies on a sustainable basis without disrupting the environment is the most important problem confronting the coming generation of engineers and scientists. Among the proposed energy sources, two of which (solar and wind) are used by the dandelion to grow and disperse its seeds are:

Wind energy Earth-based solar thermal concentrators and photovoltaic solar cells Hydroelectric energy Biomass energy Geothermal energy Gulf stream, wave, and tidal energy Clean coal, in which the C02 is captured and stored ot recycled in a biomass energy plant Systems of nuclear fission reactors combined with hybrid fission/fusion reactors that burn the waste products of the fission reactors Nuclear fusion Hydrogen from water using sunlight aided by a catalyst Enhanced power grids may need to be built to distribute energy from some of these proposed solutions. Conservation must also play a part, possibly including:

More efficient power grids Hybrid or electric vehicles Better mass transportation for people Hydrogen-powered fuel-cell vehicles Efficient lighting More/better rail systems in place of trucks and highways Better building design Better intelligence in energy consumption Regardless of which solutions ultimately emerge, it is certain that all of the topics discussed in this book will play important roles. For example, see the Practical Application concerning energy-storage systems for electric vehicles starting on page 100.
Tomorrow's Engineers

Finding and developing practical ways to provide the energy needed for modern technical societies on a sustainable basis without disrupting the environment is the most important problem confronting the coming generation of engineers and scientists. Among the proposed energy sources, two of which (solar and wind) are used by the dandelion to grow and disperse its seeds are:

Wind energy Earth-based solar thermal concentrators and photovoltaic solar cells Hydroelectric energy Biomass energy Geothermal energy Gulf stream, wave, and tidal energy Clean coal, in which the C02 is captured and stored ot recycled in a biomass energy plant Systems of nuclear fission reactors combined with hybrid fission/fusion reactors that burn the waste products of the fission reactors Nuclear fusion Hydrogen from water using sunlight aided by a catalyst Enhanced power grids may need to be built to distribute energy from some of these proposed solutions. Conservation must also play a part, possibly including:

More efficient power grids Hybrid or electric vehicles Better mass transportation for people Hydrogen-powered fuel-cell vehicles Efficient lighting More/better rail systems in place of trucks and highways Better building design Better intelligence in energy consumption Regardless of which solutions ultimately emerge, it is certain that all of the topics discussed in this book will play important roles. For example, see the Practical Application concerning energy-storage systems for electric vehicles starting on page 100.
Begagnad bok (0 st)

Om Electrical Engineering: Principles and Applications (2010)

I januari 2010 släpptes boken Electrical Engineering: Principles and Applications skriven av Allan R. Hambley. Det är den 5e upplagan av kursboken. Den är skriven på engelska och består av 893 sidor djupgående information om övrigt. Förlaget bakom boken är Prentice Hall som har sitt säte i Upper saddle river.

Köp boken Electrical Engineering: Principles and Applications direkt från en annan student på Studentapan och spara pengar.

KurslitteraturÖvrigtÖvrigtElectrical Engineering: Principles and Applications
Bokens omdömen
Ingen har recenserat den här boken ännu.

Sälj vidare boken när du är klar

När du är klar med boken säljer du enkelt vidare och tjänar pengar på nolltid med Studentapan. Vi tar hand om allt det krångliga så att du får mer tid över till annat. På det sättet kan du tjäna tillbaka det mesta av kostnaden för boken.
Värdera & sälj böcker

Klimatsmart kurslitteratur

Bli en miljöhjälte under din studietid och ge dina gamla kursböcker ett nytt liv. Genom att återanvända dina kursböcker minskar du utsläppen av koldioxid (CO2) med hela 59%. För en psykologstudent skulle det innebära minskade CO2-utsläpp med cirka 240 kg under studietiden. En stor vinst för din plånbok och miljön. Det kallar vi klimatsmart kurslitteratur.

Liknande kurslitteratur

Begagnad bok (0 st)