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The Hopper Dredge by United States. Army. Corps of Engineers Pdf
Hopper dredges are designed to vacuum material from the sea floor through drag arms that load the material into the hold of the vessel. The cargo of mud, or sand, can then be transported to either an ocean disposal site, where the material is dropped to the bottom through openings in the bottom of the hull, or at an upland site such as a beach, or reclamation, where the material is pumped ashore by the ship. This method is most suited when excavating loose material from open areas for delivery to a distant disposal location. These vessels are generally certified to sail in coastal or ocean waters and are suited for working in rougher sea conditions beyond those suitable for other dredging plants.
Author : G. L. M. van der Schrieck Publisher : Unknown Page : 49 pages File Size : 51,6 Mb Release : 2020-11-18 Category : Electronic ISBN : 9798567100097
Chapter 6: Settling Sand in a Hopper Dredge by G. L. M. van der Schrieck Pdf
This book is derived from chapter 6 from my main book `Dredging Technology Book 1`. In order to keep track of things the section and formula numbers are kept the same with the prefix 6. The Trailing Suction Hopper Dredger (TSHD) is the mayor workhorse of the modern Dredging Industry. During the last decades the load capacity of a single dredger has been increased to over 30-40 thousand cubic meters. This increase of scale kept the price per cubic meter low and thus enabled large scale projects such as: Chek Lap Kok Hong Kong Airfield , Dutch Beach Replenishment Program and the Maasvlakte 2 Rotterdam Harbour Extension. The sand production of a TSHD not only depends on the load capacity of the ship but also on the suction capacity of the pumps and dragheads. This is especially the case if there is a short transport distance making the suction time the mayor part of the whole cycle. However, there is one more important production factor: the settling velocity of the sand in the Hopper. To give you an idea of the problem: When the average grainsize of the sand is as low as 100 microns or less most of the sand will not even settle in the hopper but will flow direct overboard as soon as the overflow level has been reached. In this case one better stop the suction process when the overflow level has been reached and start sailing.The first part of is book explains how to optimize the cycle production of the TSHD. The use of a variable overflow height is described. Also the difference in optimizing between a cycle with a dump of the load and a cycle using the self emptying pumpsystem is explained. The second part deals with explaining and define the relevant parameters like : Restload, Loading rate, Degree of loading , Overflow loss, Hopper load parameter, Grain fall velocity , Hindred settling, Constant tonnage or volume system, Hopper design. From these the Hindred settling caused by the near bed sand concentration is one of the most important phenomena to reckon with. As shown above it is of great importance to know in advance what the max settling rate and overflow loss will be during the loading phase of a cycle. Therefore the last part of this book describes the development over the last decades of the "insight" in this settling process. It is amazing to see what completely different sedimentation models have been suggested over the years ! Lucky for us the large scale tests in the PhD promotion research carried out by prof. ir. C. van Rhee gave a very clear and well proven description of what really happens in the hopper. Moreover , his computational model resulted in an easy to handle correlation formula for the estimation of the overflow loss.
Hopper Dredging of Waterways by Eleanor G. Chance Pdf
The Corps is responsible for dredging sediment from waterways to maintain shipping routes important for commerce. One dredge type, a hopper dredge, performs much of the dredging in ports and harbours, and the Corps uses its own fleet of hopper dredges and contracts. In 2003, GAO examined the Corps' hopper dredging program and made recommendations to improve its management. GAO was asked to review changes to the program. This book examines actions the Corps has taken to address GAO's 2003 recommendations for improving the information needed to manage its hopper dredging program and develop cost estimates for industry contracts; effects since 2003, if any, of the statutory restrictions placed on the use of the Corps' hopper dredges; and key challenges, if any, the Corps faces in managing its hopper dredge fleet.
Dredging by Denis Yell,J Riddell,Institute of Civil Engineers Pdf
This guide highlights the particular problems of excavating from underwater sites, and describes the methods and equipment developed to overcome them. All the stages of dredging are considered, from project design specification and site investigation, to supervision of the actual dredging works.
Effectiveness of a Sea Turtle-deflecting Hopper Dredge Draghead in Port Canaveral Entrance Channel, Florida by David Arthur Nelson,Deborah J. Shafer Pdf
Author : Richard Nicholas Bray,A. D. Bates,J. M. Land Publisher : Unknown Page : 434 pages File Size : 40,8 Mb Release : 2005 Category : Dredging ISBN : OCLC:299782666
Hydraulic Fill Manual by Jan van 't Hoff,Art Nooy van der Kolff Pdf
Without proper hydraulic fill and suitable specialised equipment, many major infrastructure projects such as ports, airports, roads, industrial or housing projects could not be realised. Yet comprehensive information about hydraulic fill is difficult to find. This thoroughly researched book, written by noted experts, takes the reader step-by-step through the complex development of a hydraulic fill project. Up-to-date and in-depth, this manual will enable the client and his consultant to understand and properly plan a reclamation project. It provides adequate guidelines for design and quality control and allows the contractor to work within known and generally accepted guidelines and reasonable specifications. The ultimate goal is to create better-designed, more adequately specified and less costly hydraulic fill projects. The Hydraulic Fill Manual covers a range of topics such as: • The development cycle of a hydraulic fill project • How technical data are acquired and applied • The construction methods applicable to a wide variety of equipment and soil conditions, the capabilities of dredging equipment and the techniques of soil improvement • How to assess the potentials of a borrow pit • Essential environment assessment issues • The design of the hydraulic fill mass, including the boundary conditions for the design, effects of the design on its surroundings, the strength and stiffness of the fill mass, density, sensitivity to liquefaction, design considerations for special fill material such as silts, clays and carbonate sands, problematic subsoils and natural hazards • Quality control and monitoring of the fill mass and its behaviour after construction. This manual is of particular interest to clients, consultants, planning and consenting authorities, environmental advisors, contractors and civil, geotechnical, hydraulic and coastal engineers involved in dredging and land reclamation projects.
Stability Analysis and Nonlinear Observer Design using Takagi-Sugeno Fuzzy Models by Zsófia Lendek,T. M. Guerra,Robert Babuška,Bart De Schutter Pdf
Many problems in decision making, monitoring, fault detection, and control require the knowledge of state variables and time-varying parameters that are not directly measured by sensors. In such situations, observers, or estimators, can be employed that use the measured input and output signals along with a dynamic model of the system in order to estimate the unknown states or parameters. An essential requirement in designing an observer is to guarantee the convergence of the estimates to the true values or at least to a small neighborhood around the true values. However, for nonlinear, large-scale, or time-varying systems, the design and tuning of an observer is generally complicated and involves large computational costs. This book provides a range of methods and tools to design observers for nonlinear systems represented by a special type of a dynamic nonlinear model -- the Takagi--Sugeno (TS) fuzzy model. The TS model is a convex combination of affine linear models, which facilitates its stability analysis and observer design by using effective algorithms based on Lyapunov functions and linear matrix inequalities. Takagi--Sugeno models are known to be universal approximators and, in addition, a broad class of nonlinear systems can be exactly represented as a TS system. Three particular structures of large-scale TS models are considered: cascaded systems, distributed systems, and systems affected by unknown disturbances. The reader will find in-depth theoretic analysis accompanied by illustrative examples and simulations of real-world systems. Stability analysis of TS fuzzy systems is addressed in detail. The intended audience are graduate students and researchers both from academia and industry. For newcomers to the field, the book provides a concise introduction dynamic TS fuzzy models along with two methods to construct TS models for a given nonlinear system
