Managed Pressure Drilling (MPD) is a drilling tool that is increasingly being recognised by operators and regulators as it is able to enhance safety, efficiency and lower cost. MPD aims to resolve chronic drilling problems that contribute to non-productive time. These problems include:
Well Stability
Stuck Pipe
Lost Circulation
Well Control Incidents
When MPD is executed correctly, it is as safe as, or safer than, current conventional drilling techniques. The objective of this 5-day course is to help you understand and apply the fundamentals of MPD, starting from candidate assessment and selection through to implementation. The aim is to provide you with the knowledge required to identify prospective MPD candidate wells in their operations through a rigorous candidate screening process, evaluate the appropriate approach to most economically and safely drill the well and, if the approach selected is MPD, to ensure that the appropriate equipment, procedures, assessment and mitigation of risks are applied.
Course Structure
The course, which follows the structure of the Gulf Publishing Company’s textbook “Managed Pressure Drilling”, supplemented with latest technology developments and case studies, will, amongst others, cover the following important topics:
The basic principles of MPD – how it works
How MPD addresses NPT problems
Overview of MPD methods
Selection of the appropriate MPD method
MPD well design, including mud system and mud weight selection
MPD Equipment and equipment selection
MPD control systems
Application of screening criteria for MPD and candidate selection
Risk analysis
Project economics
What will you learn?
During the course, current MPD methods are described, highlighting advantages and disadvantages of each. By the end of the course, you will be able to determine which MPD method is most suitable for a particular application or well section.
In summary, you will be in a position to do the following after the course:
Screen their own candidate wells using criteria for MPD candidate selection
Apply specific design principles for selected MPD wells/methods
Determine operating parameters for safe MPD operations
Prepare a MPD based drilling program
Evaluate project risks
Evaluate project economics.
We will use case studies and worked exercises to reinforce learning.
Managed Pressure Drilling (MPD) is a drilling tool that is increasingly being recognised by operators and regulators as it is able to enhance safety, efficiency and lower cost. MPD aims to resolve chronic drilling problems that contribute to non-productive time. These problems include:
Well Stability
Stuck Pipe
Lost Circulation
Well Control Incidents
When MPD is executed correctly, it is as safe as, or safer than, current conventional drilling techniques. The objective of this 5-day course is to help you understand and apply the fundamentals of MPD, starting from candidate assessment and selection through to implementation. The aim is to provide you with the knowledge required to identify prospective MPD candidate wells in their operations through a rigorous candidate screening process, evaluate the appropriate approach to most economically and safely drill the well and, if the approach selected is MPD, to ensure that the appropriate equipment, procedures, assessment and mitigation of risks are applied.
Course Structure
The course, which follows the structure of the Gulf Publishing Company’s textbook “Managed Pressure Drilling”, supplemented with latest technology developments and case studies, will, amongst others, cover the following important topics:
The basic principles of MPD – how it works
How MPD addresses NPT problems
Overview of MPD methods
Selection of the appropriate MPD method
MPD well design, including mud system and mud weight selection
MPD Equipment and equipment selection
MPD control systems
Application of screening criteria for MPD and candidate selection
Risk analysis
Project economics
What will you learn?
During the course, current MPD methods are described, highlighting advantages and disadvantages of each. By the end of the course, you will be able to determine which MPD method is most suitable for a particular application or well section.
In summary, you will be in a position to do the following after the course:
Screen their own candidate wells using criteria for MPD candidate selection
Apply specific design principles for selected MPD wells/methods
Determine operating parameters for safe MPD operations
Prepare a MPD based drilling program
Evaluate project risks
Evaluate project economics.
We will use case studies and worked exercises to reinforce learning.
Preguntas sobre el soldeo oxigas con acetileno, diferencias entre los equipos de alta y baja presión así como las uniones más usuales y condiciones de seguridad.
Durante el período citado se sucedieron tres presidencias radicales a cargo de Hipólito Yrigoyen (1916-1922),
Marcelo T. de Alvear (1922-1928) y la segunda presidencia de Yrigoyen, a partir de 1928 la cual fue
interrumpida por el golpe de estado de 1930. Entre 1916 y 1922, el primer gobierno radical enfrentó el
desafío que significaba gobernar respetando las reglas del juego democrático e impulsando, al mismo
tiempo, las medidas que aseguraran la concreción de los intereses de los diferentes grupos sociales que
habían apoyado al radicalismo.
La Unidad Eudista de Espiritualidad se complace en poner a su disposición el siguiente Triduo Eudista, que tiene como propósito ofrecer tres breves meditaciones sobre Jesucristo Sumo y Eterno Sacerdote, el Sagrado Corazón de Jesús y el Inmaculado Corazón de María. En cada día encuentran una oración inicial, una meditación y una oración final.
Documento sobre las diferentes fuentes que han servido para transmitir la cultura griega, y que supone la primera parte del tema 4 de "Descubriendo nuestras raíces clásicas", optativa de bachillerato en la Comunitat Valenciana.
Presentación de la conferencia sobre la basílica de San Pedro en el Vaticano realizada en el Ateneo Cultural y Mercantil de Onda el jueves 2 de mayo de 2024.
Ponencia en I SEMINARIO SOBRE LA APLICABILIDAD DE LA INTELIGENCIA ARTIFICIAL EN LA EDUCACIÓN SUPERIOR UNIVERSITARIA. 3 de junio de 2024. Facultad de Estudios Sociales y Trabajo, Universidad de Málaga.
IMÁGENES SUBLIMINALES EN LAS PUBLICACIONES DE LOS TESTIGOS DE JEHOVÁClaude LaCombe
Recuerdo perfectamente la primera vez que oí hablar de las imágenes subliminales de los Testigos de Jehová. Fue en los primeros años del foro de religión “Yahoo respuestas” (que, por cierto, desapareció definitivamente el 30 de junio de 2021). El tema del debate era el “arte religioso”. Todos compartíamos nuestros puntos de vista sobre cuadros como “La Mona Lisa” o el arte apocalíptico de los adventistas, cuando repentinamente uno de los participantes dijo que en las publicaciones de los Testigos de Jehová se ocultaban imágenes subliminales demoniacas.
Lo que pasó después se halla plasmado en la presente obra.
IMÁGENES SUBLIMINALES EN LAS PUBLICACIONES DE LOS TESTIGOS DE JEHOVÁ
Ejecicios de cepillo - limadora horizontal
1. PRACTICA CALIFICADA Nro 2
MECÁNICA DE BANCO
APELLIDOS Y NOMBRES: Alcántara Meléndez Juan Diego
PROFESOR: Lic. Campos Robles Jesus
CICLO: I
Prob.1
Se trata de dar un cepillado de desbaste a una placa y queremos
averiguar el tiempo principal.
Datos:
longitud de la placa = 300 mm, anchura 110 mm, l
a
= 10 mm, l
u
= 10 mm,
V
A
= 20 m/min, V
R
= 25 m/min, avance = 2 mm/doble carrera, recorrido
lateral anterior y ulterior = 5 mm cada uno.
2. PRACTICA CALIFICADA Nro 2
MECÁNICA DE BANCO
Prob.2
En el cepillado de desbaste a una placa metálica de 120 mm de ancho,
con un recorrido lateral anterior y ulterior de 5 mm, se empleó 10
minutos en su maquinado total. Para lo cual se empleó una velocidad
de corte de 15 m/min y una velocidad de retroceso de 30 m/min con un
avance de 0.2 mm por cada doble carrera. La longitud de recorrido
anterior de la herramienta es de 10 mm y la longitud de recorrido ulterior
de la herramienta de corte 5 mm. Calcular la longitud de la placa en mm.