LEADER 01044nam a2200217 i 4500 001 991003053209707536 008 071120s1992 it a 000 0 ita d 035 $ab13622432-39ule_inst 040 $aDi.S.Te.B.A.$beng 100 1 $aAnastasia, Mario$066587 245 10$aQuesiti di chimica :$bper la preparazione guidata all'esame di ammissione ai corsi universitari: odontoiatria e protesi dentaria, medicina e chirurgia, biotecnologie, scienze ambientali, veterinaria, ingegneria /$cMario Anastasia, Pietro Allevi 260 3 $aMilano :$bPolo editoriale chimico,$c1992 300 $a218 p. :$bill. ;$c24 cm 650 4$aChemistry$xQuestions 700 1 $aAllevi, Pietro$eauthor$4http://id.loc.gov/vocabulary/relators/aut$066588 907 $a.b13622432$b21-07-11$c20-11-07 912 $a991003053209707536 945 $aLE003 540 ANA01.01 (1992)$g1$i2003000087529$lle003$o-$pE0.00$q-$rl$s- $t0$u0$v0$w0$x0$y.i1461280x$z20-11-07 996 $aQuesiti di chimica$9377668 997 $aUNISALENTO 998 $ale003$b20-11-07$cm$da $e-$fita$git $h0$i0 LEADER 05670nam 2200757 450 001 9910830648703321 005 20230725041552.0 010 $a3-527-64371-0 010 $a1-283-37047-6 010 $a9786613370471 010 $a3-527-63279-4 035 $a(CKB)2480000000008469 035 $a(EBL)700926 035 $a(OCoLC)797918235 035 $a(SSID)ssj0000506251 035 $a(PQKBManifestationID)12250133 035 $a(PQKBTitleCode)TC0000506251 035 $a(PQKBWorkID)10516265 035 $a(PQKB)10349017 035 $a(MiAaPQ)EBC700926 035 $a(EXLCZ)992480000000008469 100 $a20160816h20112011 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aBiogas from waste and renewable resources $ean introduction /$fDieter Deublein and Angelika Steinhauser 205 $a2nd ed. 210 1$aWeinheim, [Germany] :$cWiley-VCH Verlag GmbH & Co. KGaA,$d2011. 210 4$d©2011 215 $a1 online resource (580 p.) 300 $aDescription based upon print version of record. 311 $a3-527-63280-8 311 $a3-527-32798-3 320 $aIncludes bibliographical references and index. 327 $aBiogas from Waste and Renewable Resources; Contents; Preface; Preface to the Second Edition; Symbols and Abbreviations; Acknowledgments; Part One: Potential and History; General Thoughts about Energy Supply; 1: Energy Supply-Today and in the Future; 1.1 Primary Energy Sources; 1.2 Secondary Energy Sources; 1.3 End-Point Energy Sources; 1.4 Effective Energy; 2: Energy Supply in the Future-Scenarios; 3: Potential for Transforming Biomass into End-Point Energy Sources; 3.1 Amount of Available Area; 3.2 Theoretical Potential; 3.2.1 C3 Plants (Energy Plants); 3.2.2 C4 Plants and CAM Plants 327 $a3.2.3 Micro-algae3.3 Technical Potential; 3.4 Economic Potential; 3.5 Realizable Potential; 4: History and Status to Date in Europe; 4.1 First Attempts at Using Biogas; 4.2 Second Attempts at Using Biogas; 4.3 Third Attempts at Applying Biogas; 4.4 Status to Date and Perspective in Europe; 5: History and Status to Date Worldwide; 5.1 History and Status to Date in China; 5.1.1 Period from 1970 to 1983; 5.1.2 Period from 1984 to 1991; 5.1.3 Period from 1992 to 1998; 5.1.3.1 "A Pit with Three Rebuildings"; 5.1.3.2 "Four in One"; 5.1.3.3 "Pig-Biogas-Fruits"; 5.1.4 Period from 1999 Onwards 327 $a5.2 History and Status to Date in India5.3 Status to Date in America; 5.4 Status to Date in the CIS States; 6: General Aspects of the Recovery of Biomass in the Future; Part Two: Substrates and Biogas; Introduction; 7: Substrate; 7.1 Agricultural Products; 7.1.1 Liquid Manure and Co-substrates; 7.1.2 Maize as the Only Main Crop; 7.1.3 Bioenergy of Forage Beets; 7.1.4 Grass; 7.1.5 Sorghum; 7.1.6 Crop Rotations; 7.1.6.1 Forage Rye + Maize; 7.1.6.2 Winter Barley + Maize; 7.1.6.3 Hybrid Rye + Sorghum; 7.1.6.4 Rye + Annual Ryegrass + Maize; 7.1.6.5 Perennial Ryegrass + Sorghum 327 $a7.2 Biowaste from Collections of Residual Waste and Domestic Waste Like Commercial Waste7.3 Landfill for Residual Waste; 7.4 Sewage Sludge and Co-substrate; 7.5 Industrial Waste Water; 7.6 Waste Grease or Fat; 7.7 Cultivation of Algae; 7.8 Plankton; 7.9 Sediments in the Sea; 7.10 Wood, Straw; 8: Biogas; 8.1 Biogas Compared with Other Methane-Containing Gases; 8.2 Detailed Overview of Biogas Components; 8.2.1 Methane and Carbon Dioxide; 8.2.2 Nitrogen and Oxygen; 8.2.3 Carbon Monoxide; 8.2.4 Ammonia; 8.2.5 Hydrogen Sulfide; 8.2.6 Water Vapor; 8.2.7 Chlorine, Fluorine, Mercaptans 327 $a8.2.8 BTX, PAHs, etc.8.2.9 Siloxanes; Part Three: Formation of Biogas; 9: Biochemistry; 10: Bioreactions; 10.1 Hydrolysis; 10.2 Acidogenic Phase; 10.3 Acetogenic Phase; 10.4 Methanogenic Phase; 11: Process Parameters; 11.1 Parameter: Hydrogen Partial Pressure; 11.2 Parameter: Concentration of the Microorganisms (Ensilage, Recirculation of Biomass); 11.3 Parameter: Type of Substrate; 11.4 Parameter: Specific Surface Area of Material; 11.5 Parameter: Disintegration; 11.6 Parameter: Cultivation, Mixing, and Volume Load; 11.7 Parameter: Light; 11.8 Parameter: Temperature; 11.9 Parameter: pH 327 $a11.10 Parameter: Redox Potential 330 $aThe leading book on the market just got better: With its unique approach covering all aspects of setting up and running a biogas plant, this new edition has been expanded to include recent advances in biomass processing.The author is a key player in the field, who has designed numerous small- and industrial-scale biogas plants, and who is also a long-time lecturer on biogas production, thus combining didactical skill with real-life expertise. As such, he covers both the biological and technical aspects of biogas generation. The full range of biogas substrates and processing modes is explai 606 $aBiogas 606 $aBiogas industry 606 $aRefuse as fuel 606 $aWaste products as fuel 606 $aBiomass energy 606 $aRenewable energy sources 615 0$aBiogas. 615 0$aBiogas industry. 615 0$aRefuse as fuel. 615 0$aWaste products as fuel. 615 0$aBiomass energy. 615 0$aRenewable energy sources. 676 $a665.776 700 $aDeublein$b Dieter$0513082 702 $aSteinhauser$b Angelika 712 02$aWiley Online Library (Servicio en línea) 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910830648703321 996 $aBiogas from waste and renewable resources$94071525 997 $aUNINA