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Wax Deposition: Experimental Characterizations, Theoretical
Modeling, and Field Practices covers the entire spectrum of
knowledge on wax deposition. The book delivers a detailed
description of the thermodynamic and transport theories for wax
deposition modeling as well as a comprehensive review of laboratory
testing for the establishment of appropriate field control
strategies. Offering valuable insight from academic research and
the flow assurance industry, this balanced text: Discusses the
background of wax deposition, including the cause of the
phenomenon, the magnitude of the problem, and its impact on
petroleum production Introduces laboratory techniques and
theoretical models to measure and predict key parameters of wax
precipitation, such as the wax appearance temperature and the wax
precipitation curve Explains how to conduct and interpret
laboratory experiments to benchmark different wax deposition
models, to better understand wax deposition behaviors, and to
predict wax deposit growth for the field Presents various models
for wax deposition, analyzing the advantages and disadvantages of
each and evaluating the differences between the assumptions used
Provides numerous examples of how field management strategies for
wax deposition can be established based on laboratory testing and
modeling work Wax Deposition: Experimental Characterizations,
Theoretical Modeling, and Field aids flow assurance engineers in
identifying the severity and controlling the problem of wax
deposition. The book also shows students and researchers how
fundamental principles of thermodynamics, heat, and mass transfer
can be applied to solve a problem common to the petroleum industry.
Wax Deposition: Experimental Characterizations, Theoretical
Modeling, and Field Practices covers the entire spectrum of
knowledge on wax deposition. The book delivers a detailed
description of the thermodynamic and transport theories for wax
deposition modeling as well as a comprehensive review of laboratory
testing for the establishment of appropriate field control
strategies. Offering valuable insight from academic research and
the flow assurance industry, this balanced text: Discusses the
background of wax deposition, including the cause of the
phenomenon, the magnitude of the problem, and its impact on
petroleum production Introduces laboratory techniques and
theoretical models to measure and predict key parameters of wax
precipitation, such as the wax appearance temperature and the wax
precipitation curve Explains how to conduct and interpret
laboratory experiments to benchmark different wax deposition
models, to better understand wax deposition behaviors, and to
predict wax deposit growth for the field Presents various models
for wax deposition, analyzing the advantages and disadvantages of
each and evaluating the differences between the assumptions used
Provides numerous examples of how field management strategies for
wax deposition can be established based on laboratory testing and
modeling work Wax Deposition: Experimental Characterizations,
Theoretical Modeling, and Field aids flow assurance engineers in
identifying the severity and controlling the problem of wax
deposition. The book also shows students and researchers how
fundamental principles of thermodynamics, heat, and mass transfer
can be applied to solve a problem common to the petroleum industry.
Pollution Control and Resource Recovery: Industrial Construction
and Demolition Wastes provides engineers with the techniques and
technologies to cope with the common pollutants that are persistent
in C&D waste. Dedicated to pollution control and resource reuse
of C&D wastes, this book fully describes sampling methods and
equipment, pre-treatment and analysis, and the generation and
pollution characteristics of hazardous C&D wastes. Migration
potential and patterns of pollutants during random stacking,
landfilling, and pollution controlling approaches are also
included. Other topics included in this reference include source
identification, classified separation and enrichment, site
monitoring and evaluation, heavy metal stabilization and
solidification, organic matter degradation, dust controlling, clean
and high value utilization of recycled aggregate, and reuse and
risk assessment.
The papers in this volume cover many important topics of current
interest in partial differential equations and several complex
variables. An international group of well-known mathematicians has
contributed original research articles on diverse topics such as
the geometry of complex manifolds, the mean curvature equation,
formal solutions of singular partial differential equations, and
complex vector fields. The material in this volume is useful for
graduate students and researchers interested in partial
differential equations and several complex variables.
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