Catálogo de publicaciones - libros
From Disaster Response to Risk Management: Australia's National Drought Policy
Linda Courtenay Botterill ; Donald A. Wilhite (eds.)
Resumen/Descripción – provisto por la editorial
No disponible.
Palabras clave – provistas por la editorial
Environmental Management; Climate Change Management and Policy; Environmental Economics; Climate Change; Waste Water Technology / Water Pollution Control / Water Management / Aquatic Pollution; Human Geography
Disponibilidad
Institución detectada | Año de publicación | Navegá | Descargá | Solicitá |
---|---|---|---|---|
No detectada | 2005 | SpringerLink |
Información
Tipo de recurso:
libros
ISBN impreso
978-1-4020-3123-6
ISBN electrónico
978-1-4020-3124-3
Editor responsable
Springer Nature
País de edición
Reino Unido
Fecha de publicación
2005
Información sobre derechos de publicación
© Springer 2005
Cobertura temática
Tabla de contenidos
Introduction
Linda Courtenay Botterill; Donald A Wilhite
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 1-4
Living in the Australian Environment
Mark Stafford Smith
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 5-13
Climate and Drought in the Subtropics: The Australian Example
Janette A Lindesay
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 15-36
Indigenous Water Philosophy in an Uncertain Land
Deborah Bird Rose
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 37-50
Late Twentieth Century Approaches to Living with Uncertainty: The National Drought Policy
Linda Courtenay Botterill
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 51-64
Managing Risk?: Social Policy Responses in Time of Drought
Daniela Stehlik
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 65-83
Drought, News Media and Policy Debate
Ian Ward
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 85-97
At the Intersection of Science and Politics: Defining Exceptional Drought
David H. White; Linda Courtenay Botterill; Bruce O’Meagher
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 99-111
Drought Risk as a Negotiated Construct
Peter Hayman; Peter Cox
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 113-126
Prospects for Insuring Against Drought in Australia
Greg Hertzler
This work provides a proof-of-principle demonstration that Ti(III)-catalyzed electrochemical techniques could potentially be used for reduction of ClO in small waste streams, such as the regeneration of selective anion-exchange resins that are loaded with ClO. The technique may not be directly applied for the treatment of large volumes of ClO-contaminated water at relatively low concentrations because of its slow reaction kinetics and the use of chemical reagents. Further studies are needed to optimize the reaction conditions in order to achieve a complete reduction of ClO and the regeneration of spent resin beds. Alternative complexing and reducing agents may be used to enhance the reaction completeness of sorbed ClO in the resin and to overcome potential clogging of micropores within the resin beads resulting from the precipitation of TiO.
Pp. 127-138