Pervious Concrete Pavements
portes grátis
Pervious Concrete Pavements
Design, Performance, and Applications
El-Hassan, Hilal; Hamouda, Mohamed
Elsevier - Health Sciences Division
01/2025
450
Mole
9780443217043
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
1. Introduction
Part 1: MATERIALS USED IN PERVIOUS CONCRETE
2. Recycled aggregates from construction and demolition waste in pervious concrete
3. Geopolymers and alkali-activated materials in pervious concrete
4. Glass powder waste in pervious concrete
5. Municipal solid waste incineration fly ash in pervious concrete
6. Biochar waste biomass in pervious concrete
7. Incineration bottom ash in pervious concrete
Part 2: HYDROLOGIC DESIGN AND WATER QUALITY
8. A framework for effective hydrologic investigation of pervious concrete pavements
9. On the optimal geographical allocation of pervious concrete pavements
10. Contaminant reduction in stormwater infiltrated through pervious concrete pavements
11. Contaminant leaching from pervious concrete pavements: considerations and impact on the environment
12. Impact of climatic factors and groundwater level on the hydrologic performance of pervious concrete pavements
13. Permeability measurement and prediction of pervious concrete pavements
14. Modeling the hydrological implications of pervious concrete pavements
Part 3: OTHER ASPECTS OF PERVIOUS CONCRETE PAVEMENTS
15. Predicting the performance of pervious concrete pavements using artificial intelligence
16. Lifecycle assessment of pervious concrete pavements
17. Field performance evaluation of pervious concrete pavements
18. Clogging reduction and maintenance of pervious concrete pavements
Part 1: MATERIALS USED IN PERVIOUS CONCRETE
2. Recycled aggregates from construction and demolition waste in pervious concrete
3. Geopolymers and alkali-activated materials in pervious concrete
4. Glass powder waste in pervious concrete
5. Municipal solid waste incineration fly ash in pervious concrete
6. Biochar waste biomass in pervious concrete
7. Incineration bottom ash in pervious concrete
Part 2: HYDROLOGIC DESIGN AND WATER QUALITY
8. A framework for effective hydrologic investigation of pervious concrete pavements
9. On the optimal geographical allocation of pervious concrete pavements
10. Contaminant reduction in stormwater infiltrated through pervious concrete pavements
11. Contaminant leaching from pervious concrete pavements: considerations and impact on the environment
12. Impact of climatic factors and groundwater level on the hydrologic performance of pervious concrete pavements
13. Permeability measurement and prediction of pervious concrete pavements
14. Modeling the hydrological implications of pervious concrete pavements
Part 3: OTHER ASPECTS OF PERVIOUS CONCRETE PAVEMENTS
15. Predicting the performance of pervious concrete pavements using artificial intelligence
16. Lifecycle assessment of pervious concrete pavements
17. Field performance evaluation of pervious concrete pavements
18. Clogging reduction and maintenance of pervious concrete pavements
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Activators; Allocation; Aluminosilicate precursors; Artificial intelligence; Biochar; Biomass waste; Chemical bonding; Civil engineering; Climate change; Clogging; Composite materials; Contaminant filtration; Contaminant leaching; Contaminant transport; Decision-making; Degradation; Durability; Engineering; Environmental impact; Environmental impact assessment; Environmental monitoring; Experimental; Field evaluation; Filtration; Fly ash in concrete; Full Scale; Geopolymer; Glass waste; Groundwater; Heavy metals; Hydraulic; Hydraulic properties; Hydraulic service life; Hydrological investigation framework; Hydrological modeling; Hydrology; Incinerated bottom ash; Laboratory and field testing; Life cycle assessment; Lifecycle assessment; Machine learning; Maintenance; Materials science engineering; Mechanical properties; Mechanical strength; Municipal solid waste; Natural resource management; Nonlinear flow; Pavement; Performance; Performance evaluation; Permeability; Permeability recovery; Pervious concrete; Pervious concrete pavement; Pervious concrete pavements; Pervious pavement; Porosity; Porous; Prediction; Properties; Remote sensing; Stormwater; Stormwater management; Structural; Surface adsorption; Sustainability; Sustainability engineering; Sustainable development; Sustainable urban drainage; Sustainable urban drainage systems; Urban heat island mitigation; Urban hydrology; Waste; Waste management; Water quality; Water quality improvement
1. Introduction
Part 1: MATERIALS USED IN PERVIOUS CONCRETE
2. Recycled aggregates from construction and demolition waste in pervious concrete
3. Geopolymers and alkali-activated materials in pervious concrete
4. Glass powder waste in pervious concrete
5. Municipal solid waste incineration fly ash in pervious concrete
6. Biochar waste biomass in pervious concrete
7. Incineration bottom ash in pervious concrete
Part 2: HYDROLOGIC DESIGN AND WATER QUALITY
8. A framework for effective hydrologic investigation of pervious concrete pavements
9. On the optimal geographical allocation of pervious concrete pavements
10. Contaminant reduction in stormwater infiltrated through pervious concrete pavements
11. Contaminant leaching from pervious concrete pavements: considerations and impact on the environment
12. Impact of climatic factors and groundwater level on the hydrologic performance of pervious concrete pavements
13. Permeability measurement and prediction of pervious concrete pavements
14. Modeling the hydrological implications of pervious concrete pavements
Part 3: OTHER ASPECTS OF PERVIOUS CONCRETE PAVEMENTS
15. Predicting the performance of pervious concrete pavements using artificial intelligence
16. Lifecycle assessment of pervious concrete pavements
17. Field performance evaluation of pervious concrete pavements
18. Clogging reduction and maintenance of pervious concrete pavements
Part 1: MATERIALS USED IN PERVIOUS CONCRETE
2. Recycled aggregates from construction and demolition waste in pervious concrete
3. Geopolymers and alkali-activated materials in pervious concrete
4. Glass powder waste in pervious concrete
5. Municipal solid waste incineration fly ash in pervious concrete
6. Biochar waste biomass in pervious concrete
7. Incineration bottom ash in pervious concrete
Part 2: HYDROLOGIC DESIGN AND WATER QUALITY
8. A framework for effective hydrologic investigation of pervious concrete pavements
9. On the optimal geographical allocation of pervious concrete pavements
10. Contaminant reduction in stormwater infiltrated through pervious concrete pavements
11. Contaminant leaching from pervious concrete pavements: considerations and impact on the environment
12. Impact of climatic factors and groundwater level on the hydrologic performance of pervious concrete pavements
13. Permeability measurement and prediction of pervious concrete pavements
14. Modeling the hydrological implications of pervious concrete pavements
Part 3: OTHER ASPECTS OF PERVIOUS CONCRETE PAVEMENTS
15. Predicting the performance of pervious concrete pavements using artificial intelligence
16. Lifecycle assessment of pervious concrete pavements
17. Field performance evaluation of pervious concrete pavements
18. Clogging reduction and maintenance of pervious concrete pavements
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Activators; Allocation; Aluminosilicate precursors; Artificial intelligence; Biochar; Biomass waste; Chemical bonding; Civil engineering; Climate change; Clogging; Composite materials; Contaminant filtration; Contaminant leaching; Contaminant transport; Decision-making; Degradation; Durability; Engineering; Environmental impact; Environmental impact assessment; Environmental monitoring; Experimental; Field evaluation; Filtration; Fly ash in concrete; Full Scale; Geopolymer; Glass waste; Groundwater; Heavy metals; Hydraulic; Hydraulic properties; Hydraulic service life; Hydrological investigation framework; Hydrological modeling; Hydrology; Incinerated bottom ash; Laboratory and field testing; Life cycle assessment; Lifecycle assessment; Machine learning; Maintenance; Materials science engineering; Mechanical properties; Mechanical strength; Municipal solid waste; Natural resource management; Nonlinear flow; Pavement; Performance; Performance evaluation; Permeability; Permeability recovery; Pervious concrete; Pervious concrete pavement; Pervious concrete pavements; Pervious pavement; Porosity; Porous; Prediction; Properties; Remote sensing; Stormwater; Stormwater management; Structural; Surface adsorption; Sustainability; Sustainability engineering; Sustainable development; Sustainable urban drainage; Sustainable urban drainage systems; Urban heat island mitigation; Urban hydrology; Waste; Waste management; Water quality; Water quality improvement
