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Bio-based materials and biotechnologies for eco-efficient construction PDF

416 Pages·2020·26.046 MB·English
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Bio-Based Materials and Biotechnologies for Eco-Efficient Construction Woodhead Publishing Series in Civil and Structural Engineering Bio-Based Materials and Biotechnologies for Eco-Efficient Construction Edited by Fernando Pacheco-Torgal Volodymyr Ivanov Daniel C.W. Tsang WoodheadPublishingisanimprintofElsevier TheOfficers’MessBusinessCentre,RoystonRoad,Duxford,CB224QH,UnitedKingdom 50HampshireStreet,5thFloor,Cambridge,MA02139,UnitedStates TheBoulevard,LangfordLane,Kidlington,OX51GB,UnitedKingdom Copyright©2020ElsevierLtd.Allrightsreserved. Nopartofthispublicationmaybereproducedortransmittedinanyformorbyanymeans,electronicor mechanical,includingphotocopying,recording,oranyinformationstorageandretrievalsystem,without permissioninwritingfromthepublisher.Detailsonhowtoseekpermission,furtherinformationaboutthe Publisher’spermissionspoliciesandourarrangementswithorganizationssuchastheCopyrightClearance CenterandtheCopyrightLicensingAgency,canbefoundatourwebsite:www.elsevier.com/permissions. ThisbookandtheindividualcontributionscontainedinitareprotectedundercopyrightbythePublisher (otherthanasmaybenotedherein). Notices Knowledgeandbestpracticeinthisfieldareconstantlychanging.Asnewresearchandexperiencebroaden ourunderstanding,changesinresearchmethods,professionalpractices,ormedicaltreatmentmaybecome necessary. Practitionersandresearchersmustalwaysrelyontheirownexperienceandknowledgeinevaluatingand usinganyinformation,methods,compounds,orexperimentsdescribedherein.Inusingsuchinformation ormethodstheyshouldbemindfuloftheirownsafetyandthesafetyofothers,includingpartiesforwhom theyhaveaprofessionalresponsibility. Tothefullestextentofthelaw,neitherthePublishernortheauthors,contributors,oreditors,assumeany liabilityforanyinjuryand/ordamagetopersonsorpropertyasamatterofproductsliability,negligenceor otherwise,orfromanyuseoroperationofanymethods,products,instructions,orideascontainedinthe materialherein. BritishLibraryCataloguing-in-PublicationData AcataloguerecordforthisbookisavailablefromtheBritishLibrary LibraryofCongressCataloging-in-PublicationData AcatalogrecordforthisbookisavailablefromtheLibraryofCongress ISBN:978-0-12-819481-2(print) ISBN:978-0-12-822381-9(online) ForinformationonallWoodheadPublishingpublications visitourwebsiteathttps://www.elsevier.com/books-and-journals Publisher:MatthewDeans AcquisitionsEditor:GwenJones EditorialProjectManager:CharlotteRowley ProductionProjectManager:JoyChristelNeumarin HonestThangiah CoverDesigner:VictoriaPearson TypesetbyMPSLimited,Chennai,India Contents Listofcontributors xi 1 Introductiontobiobasedmaterialsandbiotechnologiesforeco-efficient construction 1 F.Pacheco-Torgal 1.1 Sustainabilitychallenges,resourceefficiency,andthebioeconomy 1 1.2 Biobasedmaterialsandbiotechnologiesforeco-efficientconstruction 3 1.3 Outlineofthebook 9 References 11 Furtherreading 15 Part I Bio-Based Materials and Biotechnologies for Infrastructure Applications 17 2 Biobasedpolymersformitigatingearly-andlate-agecrackingin concrete 19 AnastasiaN.AdayandWilV.SrubarIII 2.1 Introduction 19 2.2 Superabsorbentpolymers:applicationsandmaterials 21 2.3 Effectofsuperabsorbentpolymersonfresh-andhardened-state propertiesofconcrete 23 2.4 Naturalpolymersforhybridandbiobasedsuperabsorbentpolymers 29 2.5 Currenttrendsandopportunities 32 2.6 Conclusion 35 References 36 3 Influenceoftwocommercialsuperplasticizersandabiopolymer ontheperformanceofwaste-basedalkali-activatedmortars 43 Z.Abdollahnejad,M.KheradmandandF.Pacheco-Torgal 3.1 Introduction 43 3.2 Experimental 44 3.3 Resultsanddiscussion 49 3.4 Conclusion 64 Acknowledgment 64 References 64 vi Contents 4 Fire-retardantbioproductsforgreenbuildings 67 NadirYildirim,FatmaSaimeErdonmez,ErtanOzen,ErkanAvci,Mehmet Yeniocak,Mehmet Acar,BerkDalkilicandMehmetEminErgun 4.1 Introductiontogreenbuildings 67 4.2 Bioinsulationproductsforgreenbuildings 70 4.3 Bio-basedfireretardants 73 4.4 Futuretrends 75 4.5 Conclusionandsuggestions 76 References 76 Furtherreading 79 5 Propertiesofasphaltbinderandmixturecontainingbioasphalt derivedfromcastor 81 MenglanZeng,HaozhiPan,WeiTian,JunfengLiandJieZhou 5.1 Introduction 81 5.2 Conventionalpropertiesofasphaltbindermodifiedwithcastor bioasphalt 83 5.3 Performancepropertiesofasphaltbindermodifiedwithcastor bioasphalt 86 5.4 Servicepropertiesofasphaltmixturewithcastorbioasphalt-modified asphaltbinder 91 5.5 Performancepropertiesofasphaltbinderrejuvenatedwithcastor bioasphalt 94 5.6 Summary 99 References 100 Part 2 Bio-Based Materials and Biotechnologies For Building Energy Efficiency 103 6 Performanceofbio-basedinsulationmaterialsinanoldbuilding envelopesystem 105 SophieClaude,StephaneGinestet,MarionBonhommeand GillesEscadeillas 6.1 Introduction 105 6.2 Materialsandmethodsforcharacterizationinthelaboratory 106 6.3 Insituinstrumentation 110 6.4 Wallthermalbehavioranalysis 115 6.5 Indoorthermalcomfortalteration 121 6.6 Conclusion 126 Funding 126 References 127 Contents vii 7 Tiliasp.’spruningresidueswoodpanelsforthermalinsulation 129 DavidGrohmann,FrancescoProsperiandMariaElenaMenconi Highlights 129 7.1 Introduction 129 7.2 Compositematerials—woodfibersandbinders 132 7.3 Casestudy 133 7.4 Conclusionandfuturedevelopments 142 References 143 Furtherreading 148 8 Buildinginsulationmaterialsbasedonagriculturalwastes 149 FlorindoGaspar,AliaksandrBakatovich,NadezhdaDavydenkoand ArpanJoshi 8.1 Introduction 149 8.2 Agriculturalwastes 150 8.3 Manufacturingprocesses 155 8.4 Properties 157 8.5 Conclusion 165 Acknowledgment 166 References 166 9 Propertiesofclayplasterswitholivefibers 171 StefaniaLiuzzi,ChiaraRubinoandFrancescoMartellotta 9.1 Introduction 171 9.2 Clayandolivefibers:therawmaterials 172 9.3 Experimentalstudy 175 9.4 Casestudy:anumericalsimulation 180 9.5 Conclusion 183 References 184 10 ThermalinsulationbiomaterialbasedonHydrangeamacrophylla 187 JuanPabloCa´rdenas-R 10.1 Introduction 187 10.2 MorphologyandcharacterizationofHydrangeamacrophylla bioaggregate 189 10.3 ApplicationsofMacrophyllabiopolymerforbuildingmaterials 193 10.4 Conclusion 198 10.5 Futuretrends 199 10.6 Sourcesoffurtherinformationandadvice 200 References 200 11 Bio-basedphase-changematerials 203 R.Naresh,R.ParameshwaranandV.VinayakaRam 11.1 Introduction 203 11.2 Overviewoflatentthermalenergystorageinbuildings 204 viii Contents 11.3 Bio-basedphase-changematerialsforthermalenergystorage 206 11.4 Microencapsulatedbio-basedphase-changematerials 232 11.5 Meritsandchallenges 236 11.6 Futurescopeandtrends 236 References 236 12 Buildingintegratedphotobioreactor 243 E.S.UmduandYasarUniv 12.1 Introduction 243 12.2 Microalgaecultivationandharvesting 244 12.3 Typesofbioreactors 248 12.4 Synergiesandbuildingintegration 250 12.5 Challengesandlimitations 255 12.6 Sourcesoffurtherinformationandadvice 256 References 257 Part 3 Bio-based materials and biotechnologies for other applications 259 13 Biotechnologyforsoildecontamination:opportunity,challenges,and prospectsforpesticidebiodegradation 261 YuqingSun,ManishKumar,LeiWang,JuhiGuptaandDanielC.W.Tsang 13.1 Introduction 261 13.2 Microorganismsinvolvedinremovalanddegradationofpesticides 262 13.3 Chemistryofpesticides,biologicalmechanism,andresponsible enzymes 266 13.4 Strategiesforenhancingtheremovalanddegradationofsoil contaminants 266 13.5 Biodegradationtechnologiesanditsrealfieldapplication 270 13.6 Advancedtoolsandtechnologicapproachinthefieldof bioremediation 272 13.7 Microbial-remediation:opportunityandchallenges 275 13.8 Conclusionsandprospects 275 References 276 14 Sustainablecarbohydrate-derivedbuildingmaterials 285 XinniXiong,LeiWang,IrisK.M.YuandDanielC.W.Tsang 14.1 Introduction 285 14.2 Typesofcarbohydrate-derivedbuildingmaterials 286 14.3 Productionofcarbohydrate-derivedmaterials 290 14.4 Emergingapplicationsofcarbohydrate-derivedbuildingmaterials 292 14.5 Advantagesandlimitationsofcarbohydrate-derivedbuilding materials 298 14.6 Futureoutlook 299 References 301 Contents ix 15 Botanicalbiofiltrationforreducingindoorairpollution 305 RobertFleck,ThomasJ.Pettit,AshleyN.J.Douglas,PeterJ.Irgaand FraserR.Torpy 15.1 Introduction/history 305 15.2 Indoorairquality 305 15.3 Existingsolutionstoindoorairqualityproblems 309 15.4 Biologicalsolutionstoindoorairqualityproblems 310 15.5 Conclusion 319 References 319 16 Cellulose(cid:1)TiO compositesfortheremovalofwaterpollutants 329 2 HeshamHamad,EstherBailo´n-Garcı´a,SergioMorales-Torres, Agustı´nF.Pe´rez-Cadenas,FranciscoCarrasco-Marı´nand FranciscoJ.Maldonado-Ho´dar 16.1 Introduction 329 16.2 Photocatalystsfrombiomass:TiO /cellulosehybridcomposites 333 2 16.3 PhotocatalyticperformanceofTiO compositesbasedoncellulose 342 2 16.4 Conclusionandfutureperspectives 347 Acknowledgments 348 References 348 17 Environmentalsafetyofbiotechnologicalmaterialsandprocesses 359 VolodymyrIvanovandViktorStabnikov 17.1 Introduction 359 17.2 Environmentalhazardsofmicrobialbiomaterialsandbioprocesses 359 17.3 Biosafetyofconstructionbiomaterialsandbioprocesses 361 17.4 Environment-friendlyandbiosafebiocements 364 Acknowledgments 369 References 369 Furtherreading 375 18 Biotechnologicalimmobilizationofchemical,biological,and radioactivepollutantsonlandandinfrastructuredemolitionwaste afterindustrialaccident,militaryaction,orterroristattack 377 ViktorStabnikov,VolodymyrIvanovandAshokVaseashta 18.1 Introduction 377 18.2 StagesandtypesofbiotechnologicaldecontaminationofCBRN pollutedlandandinfrastructure 378 18.3 Immobilizationofthepollutantsusingmicrobiallyinduced calciumcarbonateprecipitation 379 18.4 Environment-friendlybiotechnologiesforimmobilizationof CBRNagents 384 18.5 Evaluationofbiotechnologicaldecontaminationcost 387 Acknowledgments 387 References 388 Furtherreading 393 Index 395 List of contributors Z. Abdollahnejad C-TAC Research Centre, University of Minho, Guimara˜es, Portugal Mehmet Acar Department of Woodworking Industrial Engineering, Mugla Sıtkı Koc¸manUniversity,Mentes¸e,Turkey Anastasia N. Aday Materials Science and Engineering Program, University of ColoradoBoulder,Boulder,CO,UnitedStates Erkan Avci Department of Woodworking Industrial Engineering, Mugla Sıtkı Koc¸manUniversity,Mentes¸e,Turkey Esther Bailo´n-Garc´ıa Carbon Materials Research Group, Department of Inorganic Chemistry,FacultyofSciences,UniversityofGranada,Granada,Spain AliaksandrBakatovich PolotskStateUniversity,Novopolotsk,Belarus Marion Bonhomme LMDC, University de Toulouse, INSA, UPS, Toulouse, France Juan Pablo Ca´rdenas-R Department of Civil Engineering, Faculty of Engineering andSciences,UniversityofLaFrontera,Temuco,Chile Francisco Carrasco-Mar´ın Carbon Materials Research Group, Department of InorganicChemistry,FacultyofSciences,UniversityofGranada,Granada,Spain SophieClaude LMDC,UniversitydeToulouse,INSA,UPS,Toulouse,France Berk Dalkilic Department of Woodworking Industrial Engineering, Mugla Sıtkı Koc¸manUniversity,Mentes¸e,Turkey NadezhdaDavydenko PolotskStateUniversity,Novopolotsk,Belarus Ashley N.J. Douglas Plants and Environmental Quality Research Group, Faculty of Science, Faculty of Engineering and Information Technology, University of TechnologySydney,Ultimo,NSW,Australia

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