Global Sustainability
Samenvatting
This book focuses on holistic approaches to sustainability in all sectors of environment, energy, building, and infrastructure to achieve the best-balanced global environmental, energy, building, infrastructure, transportation, and water technologies (EBITWs). It presents a series of solutions based on innovative research and applications for building a sustainable Earth for future generations. Simply, the goal of this book is to define the context of instigation to think through the scientific theories and practical technical applications of sustainability for building a better planet. Naturally this book explains a series of mechanisms to develop a sustainable world by implementing mainly practicing the following areas of Sustainable Energy, Sustainable Housing and Building Technology, Sustainable Water, Infrastructure, and Transportation Technology, Sustainable Environment which are, very much interconnected to secure a global environmental equilibrium.
Specificaties
Inhoudsopgave
<p>2. Sustainable Energy </p>
<p>2. Harvesting global renewable energy </p>
<p>3. Deconstruction of photonic structure to produce clean energy </p>
<p>4. Modeling of ultimate energy to mitigate everything </p>
<p>3. Sustainable Housing and Building Technology</p>
<p>5. Remodeling of photon structure to design high-performance solar cell </p>
<p>6. Splitting Photon into Pair Photons to Design a High-Performance Printable Solar Panel </p>
<p>7. Thermal control of solar energy by advanced housing design to cool and heat the premises naturally </p>
<p>8. Photon application in the design of sustainable building technology to console global energy perplexity </p>
<p>9. Modelling of time and space for designing sustainable houses and buildings </p>
<p>4. Sustainable Water, Infrastructure, and Transportation Technology</p>
<p>10. Sustainable water technology: Diversion of the transpiration mechanism to meet global water supply naturally </p>
<p>11. Sustainable sanitation technology: Transformation of sanitation waste into useful elements </p>
<p>12. Sustainable infrastructure: Invisible Roads and Transportation Engineering </p>
<p>13. Sustainable transportation technology: Application of hybrid wind and solar energy in the transportation section </p>
<p>14. Theory of mind machine </p>
<p>5. Sustainable Environment, Time and Space</p>
<p>15. Application of photophysical reaction technology to eliminate pathogens naturally from Earth </p>
<p>16. Theory of sustainable design of time and space </p>
<p>6. Conclusion </p>
<p>17. Modeling of global climate control</p>