Hydrological Dimensioning and Operation of Reservoirs
Hydrological Dimensioning and Operation of Reservoirs

Author: I.V. Nagy

Publisher: Springer Science & Business Media

Published: 2013-03-09

Total Pages: 341

ISBN-13: 9401598940

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Storage reservoirs represent one of the most effective tools for eliminating, or at least for minimizing, discrepancies in the time and space variations of water resources distribution and requirements. In fact, the different - often contradictory - and increasing demands on water resources utilization and control usually can be fulfilled only by building multi-purpose reservoir systems. In this way, the available water resources can be exploited and/or managed in a more rational way. Typically, the construction of a dam across a river valley causes water to accumulate in a reservoir behind the dam; the volume of water accumulated in the reservoir will depend, in part, on the dimensions of the dam. The size of the dam will normally affect the capital expenditure in a very significant way. Indeed the construction of large water resource control systems - such as dams - generally involves rather huge manpower and material outlays. Consequently, the elaboration of effectual methods of approach that can be used in establishing the optimal reservoir parameters is of great practical significance. For instance, in the design and operation oflarge multi-reservoir systems, simple simulation and/or optimization models that can identify potentially cost effective and efficient system design are highly desirable. But it should be recognized that the problem of finding optimal capacities for multi-reservoir systems often becomes computationally complex because of the large number of feasible configurations that usually need to be analyzed.

Developing and Managing a Comprehensive Reservoir Analysis Model
Developing and Managing a Comprehensive Reservoir Analysis Model

Author: Richard J. Hayes

Publisher:

Published: 1988

Total Pages: 22

ISBN-13:

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The Corps' Hydrologic Engineering Center (HEC) has developed a generalized simulation model capable of analyzing complex river-reservoir systems. The development of the model, 'HEC-5, Simulation of Flood Control and Conservation Systems' (Eichert, 1974, 1975) has been paced by the changing mission of the Corps as well as the evolution of computer systems. HEC-5 development and management, including code development, testing, documentation, training and field application experience, is discussed. (fr).

Dynamic Programming Based Operation of Reservoirs
Dynamic Programming Based Operation of Reservoirs

Author: K. D. W. Nandalal

Publisher: Cambridge University Press

Published: 2007-05-10

Total Pages: 125

ISBN-13: 1139464957

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Dynamic programming is a method of solving multi-stage problems in which decisions at one stage become the conditions governing the succeeding stages. It can be applied to the management of water reservoirs, allowing them to be operated more efficiently. This is one of the few books dedicated solely to dynamic programming techniques used in reservoir management. It presents the applicability of these techniques and their limits on the operational analysis of reservoir systems. The dynamic programming models presented in this book have been applied to reservoir systems all over the world, helping the reader to appreciate the applicability and limits of these models. The book also includes a model for the operation of a reservoir during an emergency situation. This volume will be a valuable reference to researchers in hydrology, water resources and engineering, as well as professionals in reservoir management.

Dynamic Programming Based Operation of Reservoirs
Dynamic Programming Based Operation of Reservoirs

Author: K. D. W. Nandalal

Publisher: Cambridge University Press

Published: 2013-03-21

Total Pages: 0

ISBN-13: 9781107414242

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Dynamic programming is a method of solving multi-stage problems in which decisions at one stage become the conditions governing the succeeding stages. It can be applied to the management of water reservoirs, allowing them to be operated more efficiently. This is one of the few books dedicated solely to dynamic programming techniques used in reservoir management. It presents the applicability of these techniques and their limits on the operational analysis of reservoir systems. The dynamic programming models presented in this book have been applied to reservoir systems all over the world, helping the reader to appreciate the applicability and limits of these models. The book also includes a model for the operation of a reservoir during an emergency situation. This volume will be a valuable reference to researchers in hydrology, water resources and engineering, as well as professionals in reservoir management.

Pursuing Sustainability
Pursuing Sustainability

Author: Chialin Chen

Publisher: Springer Nature

Published: 2021-03-03

Total Pages: 408

ISBN-13: 3030580237

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This handbook includes three parts, corresponding to the following three domains of OR/MS research related to sustainability: (i) Systems Design, Innovation, and Technology, (ii) Manufacturing, Logistics, and Transportation, and (iii) Sustainable Natural Resource Management. The first part of the handbook (Chapters 2-6) will focus on the creation and development of sustainable products, services, value chains, and organizations from a systems perspective. Key areas to be covered include Green Design & Innovation, Technology and Engineering Management, Sustainable Value Chain Systems, Sustainability Standards and Performance Evaluation, and Circular Economy and New Research Directions in Sustainability. The second part of the handbook (Chapters 7-11) will concentrate on the major operational and logistic issues faced by today’s industries in pursuing sustainability. Key areas to be covered include Remanufacturing, Reverse Logistics, Closed-Loop Supply Chains, Sustainable Transportation, and New Research Directions in Green Supply Chain Management. The third part of the proposed handbook (Chapters 12-16) will center on major sustainability issues in managing engineering infrastructure and natural resources. Key areas to be covered include Renewable Energy, Sustainable Water Resource, Biofuel Infrastructure, Natural Gas, and New Research Direction in Sustainable Resource Management. The handbook aims to bridge the three main OR/MS research domains in sustainability: “Systems Design, Innovation, and Technology,” “Manufacturing, Logistics, and Transportation,” and “Sustainable Natural Resource Management.” Traditionally, these domains are treated separately in the OR/MS literature. By combining the three domains, the handbook will provide a more holistic treatment of MS/OR methodologies to address critical sustainability issues faced by today’s society. Unlike most existing handbooks which only focus on current OR/MS research in sustainability within a domain, this handbook will include a concluding chapter in each of the three parts to discuss and identify potential future research directions in each of the three main domains.

Design of Flood Storage Reservoirs
Design of Flood Storage Reservoirs

Author: Michael John Hall

Publisher:

Published: 1993

Total Pages: 216

ISBN-13:

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A practical book which gives guidance on the planning, design, construction and maintenance of storage reservoirs for flood control in partly urbanized catchment areas. It explains the hydrological procedures for flood estimating and flood routeing.

Considering Hydrological Change in Reservoir Planning and Management
Considering Hydrological Change in Reservoir Planning and Management

Author: A. H. Schumann

Publisher:

Published: 2013

Total Pages: 0

ISBN-13: 9781907161407

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"This book provides an excellent overview of contemporary problems in reservoir management, from planning aspects of large multi-objective reservoirs and regarding small farm dams in Africa, to governmental matters, to sedimentation issues, to climate change impacts. Given the stochastic nature of hydrological conditions, the limited information available to characterize it and the multi-faceted targets of reservoir management, reservoir planning and operation are ambitious challenges for hydrologists and water managers. Reservoir management considers supply and demand. Demand includes the objectives of water management, but also the expectations of society, which develop with time; ecological targets for reservoir operation are now more important, social aspects and requirements are relevant and there are new constraints and objectives for operation of even older dams. The supply side has become more uncertain with increasing awareness of climate change causing growing concern about its impacts on the performance and reliability of existing and planned water management systems."--Provided by publisher.