Listing 1 - 10 of 15 | << page >> |
Sort by
|
Choose an application
Choose an application
Choose an application
This book is divided into four parts. The first part, Preliminaries, begins by introducing the basic theme of the book. It provides an overview of the current status of water resources utilization, the likely scenario of future demands, and advantages and disadvantages of systems techniques. An understanding of how the hydrological data are measured and processed is important before undertaking any analysis. The discussion is extended to emerging techniques, such as Remote Sensing, GIS, Artificial Neural Networks, and Expert Systems.
Water resources development --- System analysis. --- Planning.
Choose an application
Choose an application
Water supply. Water treatment. Water pollution --- Water resources development --- Water use --- Water-supply
Choose an application
Indus River Basin: Water Security and Sustainability provides a comprehensive treatment of water-related issues within the Indus River basin. Each chapter is written by an expert in the field, hence this book serves as a single, holistic source covering the whole region, not just a single country. Many of the challenges faced by this region are trans-boundary issues, especially within the context of climate change and water scarcity. Topics covered include extreme engineering and water resource management (one of the largest irrigation systems in dry to semi-desert conditions), social sciences (population dynamics linked to water resources) and political sciences. As such, this book is relevant and important to all researchers interested in these issues.
Water resources development. --- Indus River Watershed --- Asia --- Indus --- Industal --- International status.
Choose an application
The development of environmentally sound groundwater resources has recently become a high priority throughout the world. Many countries are currently developing comprehensive regulations for the management of groundwater resources. Within this framework an assessment of renewable groundwater resources is one of the most important factors.This book is based on the author's many years of experience in the assessment of surface and subsurface water resources, field experiments and computer oriented work, in both developed and developing countries. An environmental approach is followed.
Groundwater --- Hydrogeology --- Mathematical models. --- Reservoir sedimentation --- groundwater --- Water resources --- evaluation. --- evaluation --- Hydrology --- Groundwater table
Choose an application
The International Conference on Water, Energy, and Environment for Sustainability (IC-WEES) 2022 is a flagship conference of National University of Sciences and Technology (NUST), Pakistan. With the growing global concerns about environmental degradation, depletion of freshwater resources, and climate change-induced disasters, this year the IC-WEES is focused on climate change, water, environment, and disaster risk reduction (DRR) and their interrelationship with each other. Given the continuous evolution of contemporary scientific research work, it is progressively encouraging that there must be strong collaboration between experts, researchers, and research sharing platforms. Believing in this, the IC-WEES 2022 aims to bring expert individuals and diverse research groups to exchange and share R&D updates and discuss sustainable solutions to challenges in climate change, DRR, environment and water resources management, and respective nexuses between these fields. The conference proceedings consists of multi-disciplinary topics on the themes. As with every passing day, the climate change impacts are becoming visible, there is a dire need to understand the complex inter-relationships of climate changes, environment, water, and energy nexuses in order to lead to more sustainable solutions for our future generations. Our region is presently suffering from unprecedented heat waves, and prospective readers will be quite curious to know about the latest researches being carried out in this region with regard to environment, climate change, and water in order to reduce the disaster risks the continent is likely to face in near future. .
Geophysics --- Hydrosphere --- Meteorology. Climatology --- Geology. Earth sciences --- General ecology and biosociology --- Water supply. Water treatment. Water pollution --- Environmental protection. Environmental technology --- hydrologie --- environment --- water --- klimatologie --- milieutechnologie --- natuurrampen --- Sustainability. --- Water resources development. --- Water resources development
Choose an application
This volume presents a review of global progress made towards achieving Sustainable Development Goal 6 (SDG 6): Clean Water and Sanitation, part of the United Nations 2030 Agenda for Sustainable Development. It builds on the latest data and statistics provided by the UN and other international organizations through chapters written by a wide variety of authors, including representatives of government ministries and departments, members of international organizations specializing in this area, academics and senior professionals. The book details how SDG 6 is being approached in a number of geographic regions, with each chapter describing developments in a particular region or country. Supporting case studies presented in the book illustrate progress, achievements and challenges that remain in the effort to reach SDG 6 by 2030. The book is intended for academics/researchers, scientists, policymakers, practitioners, and all stakeholders working at the global, regional, national and local levels who support or are engaged with the implementation of SDG 6.
Sociology of health --- Hydrosphere --- Human medicine --- Water supply. Water treatment. Water pollution --- Environmental protection. Environmental technology --- hydrologie --- geneeskunde --- gezondheidszorg --- water --- bindingen (chemie) --- Water resources development. --- Water resources development --- Environmental aspects.
Choose an application
This book focuses on water disputes in New Zealand: a country where such conflicts are assumed to be non-existing. Rarely are water disputes examined in areas where water resources abound, and where the political framework that governs their access and use is strong. Environmental security literature has devoted a significant amount of attention to the nexus between resource abundance and conflict. Important research has assessed this relationship by focusing on non-renewable resource wealth as a causal determinant of conflict, but little is known about the conditions that influence the emergence and intensification of conflict in water abundant environments. By most accounts, New Zealand is one of the most water-rich countries in the world. Even though violent conflict over water does not normally materialize in New Zealand, conflicts and incompatible claims motivated by water bottling, the growth of some types of agriculture, tourism, and water treatment strategies, continue to surface. Little, however, is known about how and why these conflicts emerge and intensify in a country such as New Zealand. To address this lacuna, this project asks the following research question: How and why does the commercialization of freshwater influence the emergence and intensification of hydropolitical conflict in New Zealand? This study presents two central arguments. First, that the introduction of a commercial enterprise motivates the emergence of hydropolitical conflict intentionality if the enterprise is incompatible with the interests of local communities. And second, hydropolitical conflict risk intensifies in accordance with the level of trust that communities pose upon the approval and appeals process that supports a commercial operation. To test these arguments, this study examines the effects of water bottling and water chlorination on the towns of Ashburton (Canterbury) and Glenorchy (Otago), by employing a tripartite analysis comprised, first, of a conflict intentionality and engagement assessment, second, of a comparative case study analysis, and third, of a conflict intentionality classification. The data suggests that hydropolitical conflict risk is low when communities trust the approval and appeals process behind any given commercial operation. Water-based conflict risk however is likely to escalate when local communities lose trust in the above processes and the institutions that administer them.
Environmental law --- Polemology --- Hydrosphere --- Water supply. Water treatment. Water pollution --- Environmental protection. Environmental technology --- hydrologie --- water --- milieubeleid --- vrede --- milieurecht --- Water resources development. --- Water rights.
Listing 1 - 10 of 15 | << page >> |
Sort by
|