Welcome to Loot.co.za!
Sign in / Register |Wishlists & Gift Vouchers |Help | Advanced search
|
Your cart is empty |
|||
Showing 1 - 10 of 10 matches in All Departments
With production from unconventional rigs continuing to escalate and refineries grappling with the challenges of shale and heavier oil feedstocks, petroleum engineers and refinery managers must ensure that equipment used with today's crude oil is protected from fouling deposits Crude Oil Fouling addresses this overarching challenge for the petroleum community with clear explanations on what causes fouling, current models and new approaches to evaluate and study the formation of deposits, and how today's models could be applied from lab experiment to onsite field usability for not just the refinery, but for the rig, platform, or pipeline. Crude Oil Fouling is a must-have reference for every petroleum engineer's library that gives the basic framework needed to analyze, model, and integrate the best fouling strategies and operations for crude oil systems.
Over the last two decades the development, evaluation and use of
MFM systems has been a major focus for the Oil & Gas industry
worldwide. Since the early 1990's, when the first commercial meters
started to appear, there have been around 2,000 field applications
of MFM for field allocation, production optimisation and well
testing. So far, many alternative metering systems have been
developed, but none of them can be referred to as generally
applicable or universally accurate. Both established and novel
technologies suitable to measure the flow rates of gas, oil and
water in a three-phase flow are reviewed and assessed within this
book. Those technologies already implemented in the various
commercial meters are evaluated in terms of operational and
economical advantages or shortcomings from an operator point of
view. The lessons learned about the practical reliability, accuracy
and use of the available technology is discussed. The book suggests
where the research to develop the next generation of MFM devices
will be focused in order to meet the as yet unsolved problems.
This publication is intended primarily as a resource for a graduate course in thermal radiation heat transfer in engineering. The book would also be very useful for researchers and designers of heat transfer equipment. The text takes an holistic view, treating radiation as a volumetric phenomenon, and then treating surface radiation as a special case. A CD containing a popular engineering software package is included for the solving of radiation problems, and the smoothed-band model is introduced for handling gaseous exchange.
Optimization of the use of energy is of fundamental importance, particularly in view of the increasing tensions the world now faces between energy supply and demand. Chemical processes in general, and distillation processes in particular, account for a significant fraction of the world's energy usage. For example, distillation processes account for around 3% of the energy utilization in the US. There is thus a significant incentive to design systems so that energy utilization is minimized. Much progress has been made by the application of simple methods such as pinch technology (see for instance B. Linnhoff and R. Smith, Heat Exchanger Design Handbook, Begell House), but the problems encountered in complex distillation systems are such that a much higher level approach is needed. Authors Michael Georgiadis and Efstratios Pistikopoulos are from the Centre for Process Systems Engineering (CPSE) at Imperial College. CPSE is an international leader in the areas of process simulation, optimization and control. The application of techniques of the type described in this volume will make an important contribution to making the best use of mankind's increasingly scarce energy resources.
The thermal design of air-cooled heat exchangers is a fascinating activity - sometimes even more so than that of shell-and-tube heat exchangers - for the simple reason that there are more variables: even the coolant (air) flow rate is a variable. This book will inspire the reader to consider the thermal design of air-cooled heat exchangers as a joyous activity rather than a mundane chore.
An enormous amount of heretofore unavailable data has been collected and presented in this volume. The data covers thermal, caloric and transport properties for aqueous systems: light and heavy water, their mixtures, hydrocarbons, alcohols, aqueous salts, aqueous hydrocarbons and aqueous alcohol solutions - all at high and critical parameters. Experimental data, instrumentation, data analysis and methods of measurement are given and analysed. This book is designed for specialists in molecular physics, chemical technology and chemical and power engineering, as well as researchers, lecturers, postgraduates and students in technical colleges and universities.
This is the first book in the new Thermal and Fluid Physics and Engineering series, edited by Professor G. F. Hewitt. This volume, edited by Professor G. P. Celata, explores microchannels. Microchannels have a range of applications, particularly in the context of cooling of electronic equipment. The book fills a void in the existing literature and covers a large body of new knowledge in the thermal-fluid dynamics theory and applications in micro-geometries. The volume also presents a critical assessment of the state-of-the-art in the field. Intended for both academic and industrial audiences.
This book examines the chemistry and mode of action of herbicides, insecticides, fungicides and plant growth regulators. It follows crop protection strategies from early discoveries to the present day, emphasising the biochemical targets of the compounds discussed. Chemistry and Mode of Action of Crop Protection Agents provides an in-depth, yet easy to read and understand, review of the major classes of pesticides, explaining also the basis of their activity and selectivity. Throughout, there are many references to allow the reader to pursue areas of special interest, and each chapter contains questions to ensure that the text has been understood. This is the first book on the mode of action of pesticides to have been published in over ten years, and as such will have a very wide audience. It is aimed primarily at graduate level but will also be relevant to the needs of some sixth form and undergraduate courses, as well as to industrialists and advisors in the field of crop protection.
Author of several well-received Process Engineering Guides in Heat Transfer, Peter Hills brings more than 25 years of experience in a variety of thermal applications. The book provides a practical insight into the design, operations, specification, and purchasing of heat transfer equipment. The engineer is led through logical understanding of all processes involved and taught to distinguish the practical applications from the computer codes. Covers a wide and detailed variety of process and power equipment.
Practical Thermal Design of Shell-and-Tube Heat Exchangers is a practical book containing 35 detailed case studies that serve to illustrate concepts, relate different topics and introduce applications. Thermal designers of shell-and-tube heat exchangers (STHE) will find the book indispensable for understanding the mechanics of thermal-hydraulics in STHEs and thereby for utilizing commercially available software packages to produce optimum designs. The book explains the interplay of parameters. By understanding the behaviour of STHEs, process engineers will find this book essential for better harnessing and specifying STHEs. The book will be vital for operating plant engineers. Students and teachers of undergraduate and graduate courses in unfired vessel heat transfer will find this book essential for an understanding of practical design of industrial STHEs. The book has been written in pragmatic and easy to understand language.
|
You may like...
|