01208nam--2200385---450-9900004982902033160-387-97620-50049829USA010049829(ALEPH)000049829USA01004982920010611d1995----km-y0itay0103----baengUS||||||||001yy<<A>> history of inverse probabilityfrom Thomas Bayes to Karl PearsonAndrew I. DaleNew YorkSpringer1995XX, 495 p.24 cmStudies in the history of mathematics and physical sciences162001Studies in the history of mathematics and physical sciences16Bayes, regola diTeoria delle decisioniProbabilitàStoria519.542DALE,Andrew I.59582ITsalbcISBD990000498290203316519.542 DAL10821 ING519.542BKTECPATTY9020010611USA01094220020403USA011658PATRY9020040406USA011635History of inverse probability79012UNISA03371nam 22004573 450 991068827760332120230620084601.0(CKB)5580000000514589(MiAaPQ)EBC30390345(Au-PeEL)EBL30390345(NjHacI)995580000000514589(EXLCZ)99558000000051458920230620d2022 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAlternative Energies and Efficiency Evaluation1st ed.London :IntechOpen,2022.©2022.1 online resource (328 pages)1-83969-829-2 1. Waveform Design for Energy Efficient OFDM Transmission -- 2. Hydrogen as a Clean Energy Source -- 3. Quantitative of Mass Transfer in Liquid-Liquid Operations of Oil-Alcohol-Glycerin Systems -- 4. Exploitation of Excess Low-Temperature Heat Sources from Cogeneration Gas Engines -- 5. Perspective Chapter: Device, Electronic, Technology for a M.E.M.S. Which Allow the Extraction of Vacuum Energy Conform to Emmy Noether Theorem -- 6. Performance Evaluation of Desalination Technologies at Common Energy Platform -- 7. Contributing by Monitoring Energy Efficiency to the Development of Optimization Measures to Improve Energy Performance in an Industrial Platform -- 8. Energy Efficiency, Emissions and Adoption of Biomass Cookstoves -- 9. Energy Efficiency: The Overlooked Energy Resource -- 10. The Use of Computational Fluid Dynamics in the Analysis of Gas-Liquid-Liquid Reactors -- 11. Industrial Design Energy Efficiency and GHG Emission Reduction via Steam and Power Systems Optimization -- 12. Improve Energy Efficiency in Surface Mines Using Artificial Intelligence -- 13. Energy, Economic and Environmental (3E) Assessments on Hybrid Renewable Energy Technology Applied in Poultry Farming -- 14. The Impact of Energy Efficiency Programmes in Ghana -- 15. Optimized Energy Efficiency in a Telecommunication Company: Machine Learning Approach.Global energy demand is expected to grow 47% by 2050, with oil remaining the number one source of energy. Renewables make up 27% of the global energy mix, as predicted by the International Energy Agency (IEA). To achieve IEA's 2050 Net Zero targets, the electricity sector needs to reduce global emissions by nearly three-quarters. Even though renewables installations are expanding quickly, there is not enough to satisfy a strong rebound in global electricity demand. This will result in a sharp rise in the use of fossil fuel electricity generation that risks pushing carbon dioxide emissions. This book presents a comprehensive overview of energy efficiency, alternative energy resources, and process optimization for future sustainability.Renewable energy sourcesRenewable energy sources.333.794Shahzad Muhammad Wakil1366318Sultan Muhammad1277673Dala Laurent1366319Xu Ben Bin1366320Jiang Yinzhu1366321MiAaPQMiAaPQMiAaPQBOOK9910688277603321Alternative Energies and Efficiency Evaluation3388871UNINA