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Biochar as Soil Amendment: Impact on Soil Properties and Sustainable Resource Management

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ISBN: 9783039282746 9783039282753 Year: Pages: 252 DOI: 10.3390/books978-3-03928-275-3 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Agriculture (General)
Added to DOAB on : 2020-04-07 23:07:09
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The role of biochar in improving soil fertility is increasingly being recognized and is leading to recommendations of biochar amendment of degraded soils. In addition, biochars offer a sustainable tool for managing organic wastes and to produce added-value products. The benefits of biochar use in agriculture and forestry can span enhanced plant productivity, an increase in soil C stocks, and a reduction of nutrient losses from soil and non-CO2 greenhouse gas emissions. Nevertheless, biochar composition and properties and, therefore, its performance as a soil amendment are highly dependent on the feedstock and pyrolysis conditions. In addition, due to its characteristics, such as high porosity, water retention, and adsorption capacity, there are other applications for biochar that still need to be properly tested. Thus, the 16 original articles contained in this book, which were selected and evaluated for this Special Issue, provide a comprehensive overview of the biological, chemicophysical, biochemical, and environmental aspects of the application of biochar as soil amendment. Specifically, they address the applicability of biochar for nursery growth, its effects on the productivity of various food crops under contrasting conditions, biochar capacity for pesticide retention, assessment of greenhouse gas emissions, and soil carbon dynamics. I would like to thank the contributors, reviewers, and the support of the Agronomy editorial staff, whose professionalism and dedication have made this issue possible.

Advances in Food and Non-Food Biomass Production, Processing and Use in Sub-Saharan Africa: Towards a Basis for a Regional Bioeconomy

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ISBN: 9783039286683 / 9783039286690 Year: Pages: 446 DOI: 10.3390/books978-3-03928-669-0 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Agriculture (General)
Added to DOAB on : 2020-06-09 16:38:57
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The bioeconomy concept aims to add sustainability to the production, transformation, and trade of biological goods. Though implemented around the world, the development of national bioeconomies is uneven, especially in the global South, where major challenges exist in Sub-Saharan Africa. In this context, the international BiomassWeb project aimed to underpin the bioeconomy concept by applying the value web approach, which seeks to uncover complex interlinked value webs instead of linear value chains. The project also aimed to develop intervention options to strengthen and optimize the synergies and trade-offs among different value chains. The Special Issue “Advances in Food and Non-Food Biomass Production, Processing and Use in Sub-Saharan Africa: Toward a Basis for a Regional Bioeconomy"" compiles 23 articles produced in this framework. The articles are grouped in four sections: the value web approach; the production side; processing, transformation and trade; and global views.

Keywords

contract farming --- contract design --- cassava --- bioeconomy --- Ghana --- adoption --- land-use --- deforestation --- food security --- renewable energy --- collaboration --- leadership --- push–pull technology --- sustainability --- transdisciplinary research --- Ethiopia --- demand-driven research --- Biomass --- innovation --- Ghana --- husk --- pulp --- parchment --- mucilage --- methane --- renewable energy --- bioeconomy --- green economy --- sustainable development --- bioproductivity --- high-tech bioeconomy --- knowledge-based bioeconomy --- primary sector --- typology --- cluster analysis --- food and non-food benefit --- homegarden --- multipurpose tree on farmland --- multistorey coffee system --- multi-functionality --- traditional agroforestry --- Yayu Biosphere Reserve --- yellow cassava --- sustainability --- cassava variants --- cassava processing --- carotenoids retention --- amylose --- bioeconomy --- governance --- development policy --- innovation --- technology --- bio-based --- mixed methods --- richness --- edible --- food bearing --- neighborhoods --- maize --- Policy Analysis Matrix --- comparative advantage --- probit --- Ghana --- cassava farmers --- value addition --- productivity differentials --- impact --- endogenous switching regression --- plantain residues --- fiber --- value web --- bioeconomy --- Ghana --- biochar --- crop residue --- corncob --- germination --- phytotoxicity --- self-purging pyrolysis --- soil amendment --- biomass --- value web --- bioeconomy --- bamboo --- Ethiopia --- sustainability --- intensification options --- maize --- groundnut --- crop residue --- crop model --- cassava processors --- smallholders --- solid waste --- pollution --- value-added --- willingness to pay --- biomass utilization --- intensity --- cassava smallholders --- Nigeria --- availability --- access --- Ghana --- Nigeria --- Ethiopia --- value chain --- CGE --- fertilizer-yield-response --- productivity --- welfare --- Ethiopia --- family farming --- farmland --- food security --- rural development --- biomass scenarios --- global biomass --- bioenergy --- sustainability --- food security --- basic needs --- intragenerational justice --- equity --- fairness --- development --- Biomass-based value web --- biological goods --- bio-based economy --- food and non-food --- circular economy

Biomass Processing for Biofuels, Bioenergy and Chemicals

Authors: --- ---
ISBN: 9783039289097 / 9783039289103 Year: Pages: 428 DOI: 10.3390/books978-3-03928-910-3 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2020-06-09 16:38:57
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Biomass can be used to produce renewable electricity, thermal energy, transportation fuels (biofuels), and high-value functional chemicals. As an energy source, biomass can be used either directly via combustion to produce heat or indirectly after it is converted to one of many forms of bioenergy and biofuel via thermochemical or biochemical pathways. The conversion of biomass can be achieved using various advanced methods, which are broadly classified into thermochemical conversion, biochemical conversion, electrochemical conversion, and so on. Advanced development technologies and processes are able to convert biomass into alternative energy sources in solid (e.g., charcoal, biochar, and RDF), liquid (biodiesel, algae biofuel, bioethanol, and pyrolysis and liquefaction bio-oils), and gaseous (e.g., biogas, syngas, and biohydrogen) forms. Because of the merits of biomass energy for environmental sustainability, biofuel and bioenergy technologies play a crucial role in renewable energy development and the replacement of chemicals by highly functional biomass. This book provides a comprehensive overview and in-depth technical research addressing recent progress in biomass conversion processes. It also covers studies on advanced techniques and methods for bioenergy and biofuel production.

Keywords

lignocellulose --- pretreatment --- hardwood --- extrusion --- enzymatic digestibility --- bioethanol --- renewable energy --- biofuel --- environment --- technology development --- co-combustion --- sewage sludge --- thermogravimetric analysis --- Fourier transform infrared spectroscopy --- synergistic effect --- single-pellet combustion --- biodiesel --- fatty acid methyl ester --- free fatty acids --- oxidation stability --- antioxidant --- hydrogen --- coffee mucilage --- organic wastes --- dark fermentation --- anaerobic digestion --- biodiesel --- bio-jet fuel --- triacylglycerides --- Fatty Acid Methyl Ester --- lipids --- hydrodeoxygenation --- drop-in fuel --- rubber seed oil --- biodiesel production --- nanomagnetic catalyst --- subcritical methanol --- FAME yield --- Box-Behnken design --- GCI --- biodiesel --- diesel --- combustion --- emission --- renewable energy --- microwave --- free fatty acid --- crude oil --- renewable energy --- biomass --- waste --- black soldier fly larvae (BSFL) --- instar --- lipid --- fatty acid methyl ester (FAME) --- fermentation --- Rancimat method --- butylated hydroxyanisole --- tert-butylhydroquinone --- fatty acid methyl esters --- viscosity --- response surface --- anaerobic treatment --- biogas --- kinetic study --- potato peels --- cow manure --- thermophilic --- mesophilic --- palm oil mill effluent --- acclimatization --- direct carbon fuel cell --- biochar --- pyrolysis --- power density --- pre-treatment --- post-treatment --- combustion characteristics --- injection strategies --- compression ratio --- intake temperature --- torrefaction --- vacuum --- biomass pretreatment --- bioenergy --- energy yield --- biochar --- rice straw --- rice husk --- power generation --- gasification --- alternative fuel --- Rhus typhina biodiesel --- non-edible oil --- base-catalyzed transesterification --- Physico-chemical properties --- concentration polarization --- draw solution --- feed solution --- forward osmosis --- pressure-retarded osmosis --- operating conditions --- membrane fouling --- osmotic membrane --- bioenergy --- biofuel --- nanotechnology --- nano-catalysts --- nano-additives --- crude glycerol --- glycerol carbonate --- dimethyl carbonate --- microwave irradiation --- reaction kinetics

Environment-Friendly Construction Materials

Authors: --- --- ---
ISBN: 9783039210121 9783039210138 Year: Pages: 280 DOI: 10.3390/books978-3-03921-013-8 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2019-06-26 08:44:06
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Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.

Keywords

Ca-alginate microcapsules --- microfluidic --- self-healing --- bitumen --- mineral-asphalt mixtures --- aggregate from sanitary ceramic wastes --- environmentally friendly construction materials --- diatomite --- styrene–butadiene–styrene (SBS) modified bitumen --- diatomite-modified asphalt mixture --- road engineering --- fatigue life --- three-point bending fatigue test --- asphalt mixture --- plateau value of permanent deformation ratio --- damage evolution --- fatigue equation --- ultraviolet radiation --- bitumen --- aging depth --- transmittance --- permeation --- expanded graphite --- polyethylene glycol --- phase change materials --- titanate coupling agent --- molecular bridge --- building envelopes --- thermal property --- building energy conservation --- reclaimed asphalt pavement --- recycling --- epoxidized soybean oil --- rejuvenator --- diffusing --- asphalt pavement --- fatigue property --- pavement failure --- long-term field service --- asphalt mixture --- microwave heating --- induction heating --- effective heating depth --- induced healing --- initial self-healing temperature --- asphalt mastic --- flow behavior index --- steel slag --- limestone --- aggregate morphology --- aggregate image measurement system --- micro-surfacing --- skid-resistance --- surface texture --- asphalt --- water solute exposure --- aqueous solute compositions --- chemical evolutions --- rheological properties --- polyacrylic acid --- fluidity --- rheology --- adsorption --- combination --- cement emulsified asphalt mixture --- fatigue performance --- thickness combinations --- X-ray computed tomography --- artificial neural network --- crumb rubber --- high-strength concrete --- damping --- dynamic moduli --- railway application --- recycled material --- recycling --- sanitary ceramics --- concrete --- recycling aggregate --- asphalt mixture --- basalt fiber --- response surface methodology --- design optimization --- fluorescence spectrum --- bitumen --- ageing --- parametrization --- “blue-shift” --- asphalt --- asphalt mortar --- healing agents --- crack healing --- healing model --- ultra-thin wearing course --- self-healing --- induction heating --- steel fiber --- steel slag --- rankinite --- carbonation --- waste concrete --- CO2 --- aged bitumen --- rejuvenator --- solubilizer --- colloidal structure --- micro-morphology --- granite aggregate --- desulphurization gypsum residues --- rubber modified asphalt --- asphalt mixture --- pavement performance --- limestone aggregates --- emulsified asphalt --- demulsification speed --- surface energy --- specific surface area --- artificially aged asphalt mixture --- rejuvenator --- durability --- dynamic characteristics --- overlay tester --- energy-based approach --- dissipated strain energy --- plateau value of dissipated strain energy ratio --- fatigue life --- three-point bending fatigue test --- amorphous silica --- crystallization sensitivity --- water-leaching pretreatment --- rice husk ash --- cement --- crumb rubber --- anti-rutting agent --- flexibility --- field evaluation --- asphalt mixes --- aggregate characteristics --- simplex lattice design --- viscoelastic properties --- asphalt combustion --- flame retardant --- aluminum hydroxide --- layered double hydroxide --- asphalt mixture --- viscoelastic properties --- creep --- relaxation --- aggregates --- morphology --- crumb rubber powder --- SBS/CRP-modified bitumen --- aging processes --- temperature sensitivity characteristics --- diatomite --- basalt fiber --- asphalt mixture --- low-temperature --- damage constitutive model --- graphene --- nitrogen and phosphorus removal --- MDA --- SOD --- sequencing batch Chlorella reactor --- SEM --- thermal–mechanical properties --- bio-oil --- regeneration --- aged asphalt --- molecular dynamic simulation --- viscoelasticity --- nanomaterial --- hydrophobic nanosilica --- hydrophilic nanosilica --- laboratory evaluation --- diatomite --- basalt fiber --- compound modify --- asphalt mixture --- asphalt mixture --- basalt fiber --- freeze-thaw cycle --- damage characteristics --- high-modulus asphalt mixture (HMAM) --- dynamic tests --- viscoelasticity --- dynamic responses --- resistance to deformations --- tensile strains --- tensile stresses --- sensitivity analysis --- hot mix asphalt containing recycled concrete aggregate --- contact angle --- adhesion energy --- water stability --- fatigue performance --- self-compacting concrete (SCC) --- rheology --- workability --- pozzolanic reaction --- microstructure --- Ultra-High Performance Concrete (UHPC) --- long-term drying shrinkage --- hydration characteristic --- porous pumice --- optimization --- engineered cementitious composites (ECC) --- polyvinyl alcohol --- fiber modification --- mechanical behavior --- self-healing --- asphalt --- rejuvenation --- calcium alginate capsules --- asphalt-aggregate adhesion --- plant ash lixivium --- stripping test --- contact angle --- interfacial transition zone --- SBS-modified bitumen --- rejuvenating systems --- physical properties --- viscous-elastic temperature --- rutting factor --- vibration noise consumption --- cold recycled asphalt mixture --- reclaimed asphalt pavement --- mastic --- rheological properties --- emulsified asphalt --- cement --- construction materials --- fatigue life --- ageing resistance --- modified asphalt materials --- rejuvenator --- self-healing asphalt --- recycling --- cold recycled asphalt mixture --- ultra-high performance concrete

Environment-Friendly Construction Materials

Authors: --- --- ---
ISBN: 9783039210145 9783039210152 Year: Pages: 256 DOI: 10.3390/books978-3-03921-015-2 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2019-06-26 08:44:06
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Abstract

Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.

Keywords

Ca-alginate microcapsules --- microfluidic --- self-healing --- bitumen --- mineral-asphalt mixtures --- aggregate from sanitary ceramic wastes --- environmentally friendly construction materials --- diatomite --- styrene–butadiene–styrene (SBS) modified bitumen --- diatomite-modified asphalt mixture --- road engineering --- fatigue life --- three-point bending fatigue test --- asphalt mixture --- plateau value of permanent deformation ratio --- damage evolution --- fatigue equation --- ultraviolet radiation --- bitumen --- aging depth --- transmittance --- permeation --- expanded graphite --- polyethylene glycol --- phase change materials --- titanate coupling agent --- molecular bridge --- building envelopes --- thermal property --- building energy conservation --- reclaimed asphalt pavement --- recycling --- epoxidized soybean oil --- rejuvenator --- diffusing --- asphalt pavement --- fatigue property --- pavement failure --- long-term field service --- asphalt mixture --- microwave heating --- induction heating --- effective heating depth --- induced healing --- initial self-healing temperature --- asphalt mastic --- flow behavior index --- steel slag --- limestone --- aggregate morphology --- aggregate image measurement system --- micro-surfacing --- skid-resistance --- surface texture --- asphalt --- water solute exposure --- aqueous solute compositions --- chemical evolutions --- rheological properties --- polyacrylic acid --- fluidity --- rheology --- adsorption --- combination --- cement emulsified asphalt mixture --- fatigue performance --- thickness combinations --- X-ray computed tomography --- artificial neural network --- crumb rubber --- high-strength concrete --- damping --- dynamic moduli --- railway application --- recycled material --- recycling --- sanitary ceramics --- concrete --- recycling aggregate --- asphalt mixture --- basalt fiber --- response surface methodology --- design optimization --- fluorescence spectrum --- bitumen --- ageing --- parametrization --- “blue-shift” --- asphalt --- asphalt mortar --- healing agents --- crack healing --- healing model --- ultra-thin wearing course --- self-healing --- induction heating --- steel fiber --- steel slag --- rankinite --- carbonation --- waste concrete --- CO2 --- aged bitumen --- rejuvenator --- solubilizer --- colloidal structure --- micro-morphology --- granite aggregate --- desulphurization gypsum residues --- rubber modified asphalt --- asphalt mixture --- pavement performance --- limestone aggregates --- emulsified asphalt --- demulsification speed --- surface energy --- specific surface area --- artificially aged asphalt mixture --- rejuvenator --- durability --- dynamic characteristics --- overlay tester --- energy-based approach --- dissipated strain energy --- plateau value of dissipated strain energy ratio --- fatigue life --- three-point bending fatigue test --- amorphous silica --- crystallization sensitivity --- water-leaching pretreatment --- rice husk ash --- cement --- crumb rubber --- anti-rutting agent --- flexibility --- field evaluation --- asphalt mixes --- aggregate characteristics --- simplex lattice design --- viscoelastic properties --- asphalt combustion --- flame retardant --- aluminum hydroxide --- layered double hydroxide --- asphalt mixture --- viscoelastic properties --- creep --- relaxation --- aggregates --- morphology --- crumb rubber powder --- SBS/CRP-modified bitumen --- aging processes --- temperature sensitivity characteristics --- diatomite --- basalt fiber --- asphalt mixture --- low-temperature --- damage constitutive model --- graphene --- nitrogen and phosphorus removal --- MDA --- SOD --- sequencing batch Chlorella reactor --- SEM --- thermal–mechanical properties --- bio-oil --- regeneration --- aged asphalt --- molecular dynamic simulation --- viscoelasticity --- nanomaterial --- hydrophobic nanosilica --- hydrophilic nanosilica --- laboratory evaluation --- diatomite --- basalt fiber --- compound modify --- asphalt mixture --- asphalt mixture --- basalt fiber --- freeze-thaw cycle --- damage characteristics --- high-modulus asphalt mixture (HMAM) --- dynamic tests --- viscoelasticity --- dynamic responses --- resistance to deformations --- tensile strains --- tensile stresses --- sensitivity analysis --- hot mix asphalt containing recycled concrete aggregate --- contact angle --- adhesion energy --- water stability --- fatigue performance --- self-compacting concrete (SCC) --- rheology --- workability --- pozzolanic reaction --- microstructure --- Ultra-High Performance Concrete (UHPC) --- long-term drying shrinkage --- hydration characteristic --- porous pumice --- optimization --- engineered cementitious composites (ECC) --- polyvinyl alcohol --- fiber modification --- mechanical behavior --- self-healing --- asphalt --- rejuvenation --- calcium alginate capsules --- asphalt-aggregate adhesion --- plant ash lixivium --- stripping test --- contact angle --- interfacial transition zone --- SBS-modified bitumen --- rejuvenating systems --- physical properties --- viscous-elastic temperature --- rutting factor --- vibration noise consumption --- cold recycled asphalt mixture --- reclaimed asphalt pavement --- mastic --- rheological properties --- emulsified asphalt --- cement --- construction materials --- fatigue life --- ageing resistance --- modified asphalt materials --- rejuvenator --- self-healing asphalt --- recycling --- cold recycled asphalt mixture --- ultra-high performance concrete

Environment-Friendly Construction Materials

Authors: --- --- ---
ISBN: 9783039210169 9783039210176 Year: Pages: 270 DOI: 10.3390/books978-3-03921-017-6 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering
Added to DOAB on : 2019-06-26 08:44:06
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Abstract

Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.

Keywords

Ca-alginate microcapsules --- microfluidic --- self-healing --- bitumen --- mineral-asphalt mixtures --- aggregate from sanitary ceramic wastes --- environmentally friendly construction materials --- diatomite --- styrene–butadiene–styrene (SBS) modified bitumen --- diatomite-modified asphalt mixture --- road engineering --- fatigue life --- three-point bending fatigue test --- asphalt mixture --- plateau value of permanent deformation ratio --- damage evolution --- fatigue equation --- ultraviolet radiation --- bitumen --- aging depth --- transmittance --- permeation --- expanded graphite --- polyethylene glycol --- phase change materials --- titanate coupling agent --- molecular bridge --- building envelopes --- thermal property --- building energy conservation --- reclaimed asphalt pavement --- recycling --- epoxidized soybean oil --- rejuvenator --- diffusing --- asphalt pavement --- fatigue property --- pavement failure --- long-term field service --- asphalt mixture --- microwave heating --- induction heating --- effective heating depth --- induced healing --- initial self-healing temperature --- asphalt mastic --- flow behavior index --- steel slag --- limestone --- aggregate morphology --- aggregate image measurement system --- micro-surfacing --- skid-resistance --- surface texture --- asphalt --- water solute exposure --- aqueous solute compositions --- chemical evolutions --- rheological properties --- polyacrylic acid --- fluidity --- rheology --- adsorption --- combination --- cement emulsified asphalt mixture --- fatigue performance --- thickness combinations --- X-ray computed tomography --- artificial neural network --- crumb rubber --- high-strength concrete --- damping --- dynamic moduli --- railway application --- recycled material --- recycling --- sanitary ceramics --- concrete --- recycling aggregate --- asphalt mixture --- basalt fiber --- response surface methodology --- design optimization --- fluorescence spectrum --- bitumen --- ageing --- parametrization --- “blue-shift” --- asphalt --- asphalt mortar --- healing agents --- crack healing --- healing model --- ultra-thin wearing course --- self-healing --- induction heating --- steel fiber --- steel slag --- rankinite --- carbonation --- waste concrete --- CO2 --- aged bitumen --- rejuvenator --- solubilizer --- colloidal structure --- micro-morphology --- granite aggregate --- desulphurization gypsum residues --- rubber modified asphalt --- asphalt mixture --- pavement performance --- limestone aggregates --- emulsified asphalt --- demulsification speed --- surface energy --- specific surface area --- artificially aged asphalt mixture --- rejuvenator --- durability --- dynamic characteristics --- overlay tester --- energy-based approach --- dissipated strain energy --- plateau value of dissipated strain energy ratio --- fatigue life --- three-point bending fatigue test --- amorphous silica --- crystallization sensitivity --- water-leaching pretreatment --- rice husk ash --- cement --- crumb rubber --- anti-rutting agent --- flexibility --- field evaluation --- asphalt mixes --- aggregate characteristics --- simplex lattice design --- viscoelastic properties --- asphalt combustion --- flame retardant --- aluminum hydroxide --- layered double hydroxide --- asphalt mixture --- viscoelastic properties --- creep --- relaxation --- aggregates --- morphology --- crumb rubber powder --- SBS/CRP-modified bitumen --- aging processes --- temperature sensitivity characteristics --- diatomite --- basalt fiber --- asphalt mixture --- low-temperature --- damage constitutive model --- graphene --- nitrogen and phosphorus removal --- MDA --- SOD --- sequencing batch Chlorella reactor --- SEM --- thermal–mechanical properties --- bio-oil --- regeneration --- aged asphalt --- molecular dynamic simulation --- viscoelasticity --- nanomaterial --- hydrophobic nanosilica --- hydrophilic nanosilica --- laboratory evaluation --- diatomite --- basalt fiber --- compound modify --- asphalt mixture --- asphalt mixture --- basalt fiber --- freeze-thaw cycle --- damage characteristics --- high-modulus asphalt mixture (HMAM) --- dynamic tests --- viscoelasticity --- dynamic responses --- resistance to deformations --- tensile strains --- tensile stresses --- sensitivity analysis --- hot mix asphalt containing recycled concrete aggregate --- contact angle --- adhesion energy --- water stability --- fatigue performance --- self-compacting concrete (SCC) --- rheology --- workability --- pozzolanic reaction --- microstructure --- Ultra-High Performance Concrete (UHPC) --- long-term drying shrinkage --- hydration characteristic --- porous pumice --- optimization --- engineered cementitious composites (ECC) --- polyvinyl alcohol --- fiber modification --- mechanical behavior --- self-healing --- asphalt --- rejuvenation --- calcium alginate capsules --- asphalt-aggregate adhesion --- plant ash lixivium --- stripping test --- contact angle --- interfacial transition zone --- SBS-modified bitumen --- rejuvenating systems --- physical properties --- viscous-elastic temperature --- rutting factor --- vibration noise consumption --- cold recycled asphalt mixture --- reclaimed asphalt pavement --- mastic --- rheological properties --- emulsified asphalt --- cement --- construction materials --- fatigue life --- ageing resistance --- modified asphalt materials --- rejuvenator --- self-healing asphalt --- recycling --- cold recycled asphalt mixture --- ultra-high performance concrete

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