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Hydraulic Level Five (n.): A whitewater rapid classification indicating large waves, continuous rapids, large rocks and hazards, potential large drops, where precise maneuvering is required. Often characterized by "must make" moves, i.e. failure to execute a specific maneuver at a specific point may result in serious injury or death. Kaye is an extreme sports addict with a kind heart and an axe to grind with her childhood sweetheart and ex-husband, renowned writer Samuel Caulfield Cabral. While Samuel enjoys a celebrity life in New York, Kaye remains in their hometown of Lyons, Colorado, running her PR agency and chatting daily with Samuel's family, the beloved Cabrals-first-generation Mexican-Americans who have embraced Kaye as their own. But when Samuel returns home for his sister's wedding with a new love interest, stunning editor Caroline Ortega, the gloves are stripped off. Kaye is determined to unearth the reasons behind the death of their marriage and why two people who lived to love each other were driven apart, all leading to startling revelations about Samuel, about life, and about herself. She soon realizes that maneuvering the tumultuous waters of her relationship with Samuel will prove as dangerous as any outdoor adventure she might attempt...at least where her heart is concerned
A fluid power professional should possess exceptional knowledge about the maintenance, troubleshooting, and safety aspects of hydraulic systems for his/her continuing professional development and career advancement. A faculty or a student in an engineering institution must acquire the knowledge of the maintenance, troubleshooting, and safety aspects of hydraulic systems to upgrade his/her knowledge. As the knowledge and skill of the reader improve, professional life is undoubtedly going to be more outstanding and comfortable.The book explains all aspects of maintenance, troubleshooting, and safety features of hydraulic systems, systematically to make this book more useful on the shop floor. The language of the book is simple, the topics are logically arranged, and information is most up-to-date.The book has been written by a professional trainer who has vast experience in the fluid power area and trained thousands of professionals and students, over 25 years. If you are looking for a more in-depth knowledge into fluid power, then this book is a valuable resource that will assist you in your quest for professional development.
Written by renowned experts in the field, this book assesses the status of groundwater models and defines models and modeling needs in the 21st century. It reviews the state of the art in model development and application in regional groundwater management, unsaturated flow/multiphase flow and transport, island modeling, biological and virus transport, and fracture flow. Both deterministic and stochastic aspects of unsaturated flow and transport are covered. The book also introduces a unique assessment of models as analysis and management tools for groundwater resources. Topics covered include model vs. data uncertainty, accuracy of the dispersion/convection equation, protocols for model testing and validation, post-audit studies, and applying models to karst aquifers.
In a context of increasing needs for food production and limited availability of freshwater for irrigation, understanding the process of root water uptake (RWU) at the plant scale has become a key issue. The complexity of root system hydraulics as well as the difficulty to measure RWU has made of modelling a valuable tool to investigate this process. However major limitations exist regarding (i) the cost of characterising root segments hydraulic properties, and (ii) the computing time of RWU from that scale. This study demonstrates that simple laws, governing RWU at the plant scale, emerge from water flow equations at the root segment scale. In conditions of uniform soil water potential (SWP), RWU is shown to be distributed proportionally to standard fractions (SUF) along the root system. Under spatially heterogeneous SWP, a compensatory RWU term proportional to a root system conductance parameter (Kcomp) is added, which increases water uptake at locations where SWP is higher. Eventually, another root system conductance parameter (Krs) defines leaf water potential from both plant transpiration rate and sensed SWP, which, itself, is the SUF-weighted-mean SWP. The emergent hydraulic parameters (SUF, Kcomp, and Krs) have a physical meaning and may be estimated or measured directly at the plant scale. They are also shown to be intimately related to the water flow available to plant leaves for transpiration, and may be useful complementary indices to characterise crop strategies against water stress. In addition, the identified emergent properties allow an extreme reduction of RWU computing time, and may even be used accurately in one-dimensional spatial discretisation for densely seeded crops such as wheat.
An unsurpassed treatise on the state-of-the-science in the research and design of spillways and energy dissipators, Hydraulics of Spillways and Energy Dissipators compiles a vast amount of information and advancements from recent conferences and congresses devoted to the subject. It highlights developments in theory and practice and emphasizing top