03453oam 2200469 450 991080831910332120190911112728.09789814425827981-4425-81-8(OCoLC)855023010(MiFhGG)GVRL8REJ(EXLCZ)99267000000040410220130502h20132013 uy 0engurun|---uuuuatxtrdacontentcrdmediacrrdacarrier100 years of subatomic physics /Ernest M. Henley, Stephen D. Ellis, University of Washington, USANew Jersey :World Scientific,[2013]�20131 online resource (viii, 550 pages) illustrations (some color)Gale eBooksDescription based upon print version of record.1-299-77145-9 981-4425-79-6 Includes bibliographical references.Part: Nuclear physics -- 1. Particle Physics, From Rutherford to the LHC S. Level 2. The Early Years and Beyond E. M. Henley and A. Garcia -- 3. 100 Years of Nuclear Mass Measurements and Models G. T. Garvey -- 4. Symmetries and Dynamical Symmetries in Nuclei I. Talmi -- 5. Nuclear Fission R. Vogt and J. Randrup -- 6. Parity- and Time-Reversal Tests in Nuclear Physics D. Hertzog and M. J. Ramsey-Musolf -- 7. High Energy Nuclear Physics: From Bear Mountain to the LHC L. McLerran -- 8. Chiral Symmetry in Subatomic Physics U.-G. Meibner -- 9. Exotic Nuclei Far From the Stability Line K. Hagino, I. Tanihata and H. Sagawa Part: 2. Particle physics -- 10. A Short History of Colliders L. Evans -- 11. 4 Detectors C. Tully -- 12. Large Underground Detectors for Proton Decay and Neutrino Physics K. Scholberg -- 13. Jets and QCD S. D. Ellis and D. E. Soper -- 14. Diffractive Phenomena in High Energy Processes L. Frankfurt and M. Strikman 15. Weak Interactions: From Current–Current to Standard Model and Beyond R. N. Mohapatra -- 16. Neutrino Physics L. Wolfenstein -- 17. Introduction to Renormalization in Field Theory L.-F. Li --18. Lattice Gauge Theory and the Origin of Mass A. S. Kronfeld -- 19. String Theory and M-Theory J. H. Schwarz.By year 1911 radioactivity had been discovered for over a decade, but its origin remained a mystery. Rutherford's discovery of the nucleus and the subsequent discovery of the neutron by Chadwick started the field of subatomic physics — a quest for understanding the fundamental constituents of matter.This book reviews the important achievements in subatomic physics in the past century. The chapters are divided into two parts: nuclear physics and particle physics. Written by renowned authors who have made major developments in the field, this book provides the academics and researchers an essential overview of the present state of knowledge in nuclear and particle physics.Particles (Nuclear physics)HistoryParticles (Nuclear physics)History.539.72Henley Ernest M.46930Henley Ernest M.Ellis Stephen D.1943-MiFhGGMiFhGGhttps://search-ebscohost-com.ezproxy.uwc.ac.za/login.aspx?direct=true&db=nlebk&AN=622023&site=ehost-live&scope=siteBOOK9910808319103321100 years of subatomic physics3966879UNINA04172nam 22007093 450 991026375280332120240109084504.01-5231-2327-310.2166/9781780409429(CKB)4100000002678551(OAPEN)645213(oapen)https://directory.doabooks.org/handle/20.500.12854/27171(MiAaPQ)EBC6978123(Au-PeEL)EBL6978123(ScCtBLL)199fdf11-7a83-433f-8836-59b22fc6e9b3(Perlego)2344180(OCoLC)1030818971(oapen)doab27171(EXLCZ)99410000000267855120240109d2018 uy 0enguuuuu---auuuutxtrdacontentcrdamediacrrdacarrierTrace Element Supplementation As a Management Tool for Anaerobic Digester Operation Benefits and Risks1st ed.IWA Publishing2018London :IWA Publishing,2018.©2018.1 online resource1-78040-949-4 1-78040-942-7 Cover -- Introduction -- How to (choose to read) -- Do I need to add trace elements to my digester? -- What are the benefits of adding trace elements to a digester? -- Which trace elements do I need to add to my digester? -- Strategy for trace elements supplementation -- Risks linked with TE supplementation -- COST action ES 1302 -- References -- Credits." This guide is intended for use by industry stakeholders, decision-makers and digester operators in navigating the topic of trace element (TE) supplementation as a management tool for anaerobic digester operation. The subject is the application of TE, and supplementation regimes in anaerobic waste-conversion biotechnologies, such as biogas digesters. TE is a term used to include a wide range of micronutrients essential for the microbial community underpinning AD. TE mostly includes elements from the metal groups (e.g. cobalt, nickel, zinc and tungsten) but also other elemental groups, such as metalloids (e.g. selenium). TE are dosed to anaerobic digesters to boost biological activity and to increase biogas production rates. Little is understood about the concentrations and dosing strategies best suited to sustained supplementation and stable performance in anaerobic biotechnologies. A range of companies offer proprietary blends of trace elements for supplementation of anaerobic digesters. Very little joined-up information is available on the concentrations of individual TE best suited to improved digester performance. Moreover, typically no attention whatsoever is paid to the bioavailability of TE dosed to digesters i.e. despite high concentrations, TE may not be available for uptake by the microorganisms underpinning the digestion process. Based on extensive engagement with a range of stakeholders throughout the course of the recent EU COST Action on ‘The ecological roles of trace metals in anaerobic biotechnologies’, and particularly on feedback from industrial partners, it is clear that such a guide is needed by industry stakeholders, decision-makers and operators of anaerobic digesters."Trace element supplementation as a management tool for anaerobic digester operationWater supply & treatmentbicsscanaerobic digesterwastewatertrace elementswaterBioavailabilityBiogasCobaltCopperIronMicroorganismMineral (nutrient)NickelZincWater supply & treatment628.354Roussel Jimmy952372Fermoso Fernando G1460699Collins Gavin1460700MiAaPQMiAaPQMiAaPQBOOK9910263752803321Trace Element Supplementation As a Management Tool for Anaerobic Digester Operation3660670UNINA