Sonuncu slaydlardakı lüğətdən istifadə edin.
Use the last few glossary slides.
https://www.facebook.com/engineerschange/?hc_ref=ARQ0fjUiCI6TkJB8PgfMQPsp-o3JrDz5mcmXhZgQFXk_Z9GuBQZqIoTSOYomWAnV3Ec&fref=nf
Qazma qurğuları, qazma sistemləriç quyuya nəzarət, qazma avadanlığı
Rigs, drilling systems, well control, drilling equipment
This document discusses well control systems used in drilling operations. It describes:
1) The key components of a well control system, including sensors to detect fluid flows, a blowout preventer (BOP) to shut off the well, and pressure control equipment like chokes.
2) Causes of "kicks" where formation fluids enter the borehole unexpectedly, and "blowouts" where kicks are not controlled and fluids reach the surface.
3) The different types of equipment in a BOP stack, including annular, blind, pipe, and shear rams, used to seal the annulus in various situations.
Drilling rig operations a to z rotary drilling rig componentsamrhaggag
This document provides an overview of the key components that make up a rotary drilling rig. It describes 9 main components: 1) the derrick or mast and substructure, 2) power and prime movers, 3) hoisting components, 4) rotating components, 5) circulating components, 6) well control components, 7) tubular and tubular handling equipment, 8) bits, and 9) fishing tools. For each component, it lists and describes the main equipment involved, such as the derrick, drawworks, kelly, rotary table, and others that work together to drill oil and gas wells.
This document provides an overview of rotary drilling rig systems and components. It defines what a drilling rig is and lists various acronyms used in drilling operations. It describes the major systems on a drilling rig including the hoisting system, rotary system, circulating system, power system, blowout prevention system, and monitoring systems. It also summarizes key components that make up each system such as the drawworks, drill pipe, kelly, blowout preventers, mud pumps, shale shakers, and monitoring equipment. Miscellaneous rig equipment is outlined including the rig floor, pipe handling tools, mud tanks, and rig layout. Online courses for drilling rig training are mentioned at the end.
This document discusses the key systems of a rotary drilling rig, including the power system. It explains that the power system provides power to all other rig systems, including hoisting, circulation, and rotary systems. Diesel engines are typically used to power the drawworks and rotary table. The document discusses power requirements, classifications of power systems, power supply components, and calculations for determining output power and efficiency.
Özüllər və qazma qurğuları, sistemləri, qazma baltaları və daha bir çox avadanlıq və proses barədə məlumat. Ən sonda istifadə olunan terminlərin ingiliscə tərcüməsi verilmişdir.
Although there are many types and brand name of liner hanger system, basic of the equipment and operations are same. After get trained from different service provider and conducting many kind of liner hanger operation I was assigned to teach fundamental of liner system to the related engineers within the company.
Linked presentation is from the training session and shares the fundamental knowledge of liner hanger system for interested people.
Sonuncu slaydlardakı lüğətdən istifadə edin.
Use the last few glossary slides.
https://www.facebook.com/engineerschange/?hc_ref=ARQ0fjUiCI6TkJB8PgfMQPsp-o3JrDz5mcmXhZgQFXk_Z9GuBQZqIoTSOYomWAnV3Ec&fref=nf
Qazma qurğuları, qazma sistemləriç quyuya nəzarət, qazma avadanlığı
Rigs, drilling systems, well control, drilling equipment
This document discusses well control systems used in drilling operations. It describes:
1) The key components of a well control system, including sensors to detect fluid flows, a blowout preventer (BOP) to shut off the well, and pressure control equipment like chokes.
2) Causes of "kicks" where formation fluids enter the borehole unexpectedly, and "blowouts" where kicks are not controlled and fluids reach the surface.
3) The different types of equipment in a BOP stack, including annular, blind, pipe, and shear rams, used to seal the annulus in various situations.
Drilling rig operations a to z rotary drilling rig componentsamrhaggag
This document provides an overview of the key components that make up a rotary drilling rig. It describes 9 main components: 1) the derrick or mast and substructure, 2) power and prime movers, 3) hoisting components, 4) rotating components, 5) circulating components, 6) well control components, 7) tubular and tubular handling equipment, 8) bits, and 9) fishing tools. For each component, it lists and describes the main equipment involved, such as the derrick, drawworks, kelly, rotary table, and others that work together to drill oil and gas wells.
This document provides an overview of rotary drilling rig systems and components. It defines what a drilling rig is and lists various acronyms used in drilling operations. It describes the major systems on a drilling rig including the hoisting system, rotary system, circulating system, power system, blowout prevention system, and monitoring systems. It also summarizes key components that make up each system such as the drawworks, drill pipe, kelly, blowout preventers, mud pumps, shale shakers, and monitoring equipment. Miscellaneous rig equipment is outlined including the rig floor, pipe handling tools, mud tanks, and rig layout. Online courses for drilling rig training are mentioned at the end.
This document discusses the key systems of a rotary drilling rig, including the power system. It explains that the power system provides power to all other rig systems, including hoisting, circulation, and rotary systems. Diesel engines are typically used to power the drawworks and rotary table. The document discusses power requirements, classifications of power systems, power supply components, and calculations for determining output power and efficiency.
Özüllər və qazma qurğuları, sistemləri, qazma baltaları və daha bir çox avadanlıq və proses barədə məlumat. Ən sonda istifadə olunan terminlərin ingiliscə tərcüməsi verilmişdir.
Although there are many types and brand name of liner hanger system, basic of the equipment and operations are same. After get trained from different service provider and conducting many kind of liner hanger operation I was assigned to teach fundamental of liner system to the related engineers within the company.
Linked presentation is from the training session and shares the fundamental knowledge of liner hanger system for interested people.
1. sequance of well drilling and completion part 1Elsayed Amer
The document outlines the steps for well drilling and site preparation. It describes leveling the site, digging a cellar and mud pits, hammering a conductor pipe, drilling a rathole, and transporting equipment to the site. Subsequent steps include rig setup, inspection and preparation of drill pipes and drill string, mixing and pumping spud mud, drilling initial sections, cleaning the hole, running and cementing surface casing.
Well completion equipment 2. landing nipplesElsayed Amer
A landing nipple is a short length of pipe with a cut profile on the inside used to allow a lock mandrel to locate and lock into for various purposes like plugging the tubing. There are selective and no-go types, with no-go containing a restriction preventing passage. Landing nipples are used for removing surface equipment, pressure testing, setting packers, installing downhole tools, and landing pressure recorders. They consist of a lock mandrel, equalizing sub, and flow control device. Major manufacturers include Baker, CAMCO, Halliburton, and Weatherford.
Rotary drilling rigs use a hoisting system to lower and raise the drill string. To estimate rotary torque before drilling, an empirical relation uses factors like drill string weight, depth, and weight on bit. Deeper holes require higher torque factors. The circulating system controls subsurface pressures, removes cuttings from the hole, transmits power to the bit, and provides formation information using drilling mud. Mud pumps are typically duplex or triplex positive displacement pumps, and their volumetric output can be calculated based on specifications like stroke length, liner diameter, rod diameter, and efficiency.
The document discusses various types of well completions, including:
1. Open hole, slotted liner, gravel pack, cemented and perforated liner, and horizontal well completions for vertical or deviated wells.
2. Natural flow and artificial lift completions, as well as single and multiple zone completions.
3. Specific completion methods are described for horizontal wells including open hole, slotted liner, gravel pack, external casing packer, and cemented and perforated liner completions.
4. Artificial lift completions including rod pumps, hydraulic pumps, gas lift, and electrical submersible pumps are also summarized.
This document summarizes a course on drilling engineering. It discusses hydraulic principles like hydrostatic pressure calculations. It also covers drillstring design, including calculating the length of drill collars and the neutral point. Additional sections describe designing the drillstring to withstand tensile force, torque, burst pressure, and collapse pressure. Specific topics covered include minimum yield strength, tapered drill pipe sections, calculating torque capacity, and safety factors for uncertainties.
Təqdimatda animasiya olduğu üçün təqdimatı yükləyib baxın.
Təqdimat qazma qurğularının növləri, komponentləri,qazma məhlulunun sirkulyasiyası və təmizlənməsi prosesi və avadanlıqları və s. barədə qısa məlumat verir.
This document provides information about the Drilling Engineering course for Fall 2012 taught by Tan Nguyen. It includes details about the class such as time, location and materials. It also outlines the grading breakdown and lists the main topics that will be covered in the course such as rotary drilling, drilling fluids, bits, and well control. Additionally, it describes the main components of a drilling rig including the power system, hoisting system, and circulating system.
This document provides an overview of key systems used in drilling engineering, including:
1. The hoisting system, specifically the block and tackle system used to lift drill pipe and casing. It discusses mechanical advantage, efficiency, and calculations for hook power, tension in lines, and hoisting speed.
2. The drilling fluid circulation system, including mud pumps, flow lines, and the process of drilling fluid circulating down the drill string and back up to remove cuttings.
3. Components of the drilling fluid system like tanks, pumps, solids removal equipment, and surface piping. Positive displacement pumps are highlighted as the pumps most commonly used.
The document discusses various components used in surface wellhead systems, including casing heads, casing spools, tubing heads, tubing hangers, valves, and trees. It describes the purpose and features of different types of casing hangers, casing spools, tubing heads, tubing head adapters, valves, and trees. The document is a presentation about surface wellhead components provided by Amr Haggag.
Use the last few glossary slides.
Sonuncu slaydlardakı lüğətdən istifadə edin.
https://www.facebook.com/engineerschange/?hc_ref=ARQ0fjUiCI6TkJB8PgfMQPsp-o3JrDz5mcmXhZgQFXk_Z9GuBQZqIoTSOYomWAnV3Ec&fref=nf
Rigs, drilling systems, well control, drilling equipment
Qazma qurğuları, qazma sistemləriç quyuya nəzarət, qazma avadanlığı
This document discusses well intervention techniques using coiled tubing. It describes coiled tubing as continuously-milled tubular product that is straightened before insertion into the wellbore. The main types of well intervention discussed are pumping, slickline, snubbing, workover, and coiled tubing. It provides details on the components and functions of a coiled tubing unit, including the reel, injector head, control cabin, power pack, blowout preventer, stripper, and bottom hole assembly.
The document discusses mudline suspension systems used for offshore drilling. It describes how the system allows the weight of the well to be transferred to the seabed and provides a disconnect capability. Key components include butt-weld subs, shoulder hangers, split-ring hangers, mudline hangers, and temporary abandonment caps. The system also allows the well to be temporarily abandoned when drilling is finished and reconnected later for completion.
Wireline and slickline are types of cables used downhole in oil and gas wells. Wireline tools have insulated electrical conductors to transmit power and signals, while slickline is a single steel strand. A wireline tool string includes surface units like power packs and wellhead equipment to lower the string, and subsurface units like jars, crossover subs, and gauges that perform downhole functions.
This document from the Occupational Safety & Health Administration provides definitions and illustrations of various components used in drilling rigs. It defines 61 different parts of drilling rigs in sections, including major components like the derrick, drawworks, blowout preventers, mud pumps, drill pipe, and other equipment used to drill oil and gas wells safely and effectively.
This document provides an overview of rig operations and equipment used in drilling wells. It describes the personnel involved in drilling, including the tool pusher, driller, derrick worker, and floor workers. It then explains the major surface and subsurface equipment used, including the hoisting system, drawworks, block and tackle, drilling line, mud circulation system, rotary system, and mud pumps. Finally, it discusses different types of rigs and factors considered when selecting a rig, such as water depth, load capacity, and stability.
This document discusses drilling engineering fundamentals related to hoisting systems, drilling fluid circulation systems, and positive displacement mud pumps. It covers the components of hoisting systems including blocks and tackles, drawworks power, and hook load calculations. It also explains the components and functions of drilling fluid circulation including mud tanks, mud pumps, solids removal equipment, and the drilling fluid flow path from the rig to the wellbore and back. Specifically, it compares duplex and triplex positive displacement mud pumps, describing their configurations, flow rate parameters, and advantages.
This document discusses electrical submersible pump analysis and design. It focuses on three key areas: well inflow performance behavior, fluid pressure-volume-temperature and phase behavior, and pump equipment performance specifications. It emphasizes the importance of modeling the well, fluids, pump, and motor as an interconnected system and analyzing each pump stage individually. Periodic monitoring using specialized software is also recommended to identify changes that could impact pump life.
1. sequance of well drilling and completion part 1Elsayed Amer
The document outlines the steps for well drilling and site preparation. It describes leveling the site, digging a cellar and mud pits, hammering a conductor pipe, drilling a rathole, and transporting equipment to the site. Subsequent steps include rig setup, inspection and preparation of drill pipes and drill string, mixing and pumping spud mud, drilling initial sections, cleaning the hole, running and cementing surface casing.
Well completion equipment 2. landing nipplesElsayed Amer
A landing nipple is a short length of pipe with a cut profile on the inside used to allow a lock mandrel to locate and lock into for various purposes like plugging the tubing. There are selective and no-go types, with no-go containing a restriction preventing passage. Landing nipples are used for removing surface equipment, pressure testing, setting packers, installing downhole tools, and landing pressure recorders. They consist of a lock mandrel, equalizing sub, and flow control device. Major manufacturers include Baker, CAMCO, Halliburton, and Weatherford.
Rotary drilling rigs use a hoisting system to lower and raise the drill string. To estimate rotary torque before drilling, an empirical relation uses factors like drill string weight, depth, and weight on bit. Deeper holes require higher torque factors. The circulating system controls subsurface pressures, removes cuttings from the hole, transmits power to the bit, and provides formation information using drilling mud. Mud pumps are typically duplex or triplex positive displacement pumps, and their volumetric output can be calculated based on specifications like stroke length, liner diameter, rod diameter, and efficiency.
The document discusses various types of well completions, including:
1. Open hole, slotted liner, gravel pack, cemented and perforated liner, and horizontal well completions for vertical or deviated wells.
2. Natural flow and artificial lift completions, as well as single and multiple zone completions.
3. Specific completion methods are described for horizontal wells including open hole, slotted liner, gravel pack, external casing packer, and cemented and perforated liner completions.
4. Artificial lift completions including rod pumps, hydraulic pumps, gas lift, and electrical submersible pumps are also summarized.
This document summarizes a course on drilling engineering. It discusses hydraulic principles like hydrostatic pressure calculations. It also covers drillstring design, including calculating the length of drill collars and the neutral point. Additional sections describe designing the drillstring to withstand tensile force, torque, burst pressure, and collapse pressure. Specific topics covered include minimum yield strength, tapered drill pipe sections, calculating torque capacity, and safety factors for uncertainties.
Təqdimatda animasiya olduğu üçün təqdimatı yükləyib baxın.
Təqdimat qazma qurğularının növləri, komponentləri,qazma məhlulunun sirkulyasiyası və təmizlənməsi prosesi və avadanlıqları və s. barədə qısa məlumat verir.
This document provides information about the Drilling Engineering course for Fall 2012 taught by Tan Nguyen. It includes details about the class such as time, location and materials. It also outlines the grading breakdown and lists the main topics that will be covered in the course such as rotary drilling, drilling fluids, bits, and well control. Additionally, it describes the main components of a drilling rig including the power system, hoisting system, and circulating system.
This document provides an overview of key systems used in drilling engineering, including:
1. The hoisting system, specifically the block and tackle system used to lift drill pipe and casing. It discusses mechanical advantage, efficiency, and calculations for hook power, tension in lines, and hoisting speed.
2. The drilling fluid circulation system, including mud pumps, flow lines, and the process of drilling fluid circulating down the drill string and back up to remove cuttings.
3. Components of the drilling fluid system like tanks, pumps, solids removal equipment, and surface piping. Positive displacement pumps are highlighted as the pumps most commonly used.
The document discusses various components used in surface wellhead systems, including casing heads, casing spools, tubing heads, tubing hangers, valves, and trees. It describes the purpose and features of different types of casing hangers, casing spools, tubing heads, tubing head adapters, valves, and trees. The document is a presentation about surface wellhead components provided by Amr Haggag.
Use the last few glossary slides.
Sonuncu slaydlardakı lüğətdən istifadə edin.
https://www.facebook.com/engineerschange/?hc_ref=ARQ0fjUiCI6TkJB8PgfMQPsp-o3JrDz5mcmXhZgQFXk_Z9GuBQZqIoTSOYomWAnV3Ec&fref=nf
Rigs, drilling systems, well control, drilling equipment
Qazma qurğuları, qazma sistemləriç quyuya nəzarət, qazma avadanlığı
This document discusses well intervention techniques using coiled tubing. It describes coiled tubing as continuously-milled tubular product that is straightened before insertion into the wellbore. The main types of well intervention discussed are pumping, slickline, snubbing, workover, and coiled tubing. It provides details on the components and functions of a coiled tubing unit, including the reel, injector head, control cabin, power pack, blowout preventer, stripper, and bottom hole assembly.
The document discusses mudline suspension systems used for offshore drilling. It describes how the system allows the weight of the well to be transferred to the seabed and provides a disconnect capability. Key components include butt-weld subs, shoulder hangers, split-ring hangers, mudline hangers, and temporary abandonment caps. The system also allows the well to be temporarily abandoned when drilling is finished and reconnected later for completion.
Wireline and slickline are types of cables used downhole in oil and gas wells. Wireline tools have insulated electrical conductors to transmit power and signals, while slickline is a single steel strand. A wireline tool string includes surface units like power packs and wellhead equipment to lower the string, and subsurface units like jars, crossover subs, and gauges that perform downhole functions.
This document from the Occupational Safety & Health Administration provides definitions and illustrations of various components used in drilling rigs. It defines 61 different parts of drilling rigs in sections, including major components like the derrick, drawworks, blowout preventers, mud pumps, drill pipe, and other equipment used to drill oil and gas wells safely and effectively.
This document provides an overview of rig operations and equipment used in drilling wells. It describes the personnel involved in drilling, including the tool pusher, driller, derrick worker, and floor workers. It then explains the major surface and subsurface equipment used, including the hoisting system, drawworks, block and tackle, drilling line, mud circulation system, rotary system, and mud pumps. Finally, it discusses different types of rigs and factors considered when selecting a rig, such as water depth, load capacity, and stability.
This document discusses drilling engineering fundamentals related to hoisting systems, drilling fluid circulation systems, and positive displacement mud pumps. It covers the components of hoisting systems including blocks and tackles, drawworks power, and hook load calculations. It also explains the components and functions of drilling fluid circulation including mud tanks, mud pumps, solids removal equipment, and the drilling fluid flow path from the rig to the wellbore and back. Specifically, it compares duplex and triplex positive displacement mud pumps, describing their configurations, flow rate parameters, and advantages.
This document discusses electrical submersible pump analysis and design. It focuses on three key areas: well inflow performance behavior, fluid pressure-volume-temperature and phase behavior, and pump equipment performance specifications. It emphasizes the importance of modeling the well, fluids, pump, and motor as an interconnected system and analyzing each pump stage individually. Periodic monitoring using specialized software is also recommended to identify changes that could impact pump life.
Maşın,qurğu və avadanlıqların layihələndirilməsi ( Mancanaq dəzgahı - Pumpjack )
1. Fakültə: İTİF
Kafedra: İSM
Fənn: Maşın,qurğu və avadanlıqların layihələndirilməsi
Müəllim: dos.Z.Eyvazova
Tələbə: Qaraşov Cahangir
Mövzu: Mancanaq dəzgahının layihələndirilməsi
Azərbaycan Dövlət Neft və Sənaye
Universiteti
Təqdimat
2. Neft-qazın hasil edilməsi üçün avadanlıq
Mayenin yer səthinə qaldırılma üsulları, yəni
quyuların istismar üsulları, şərti olaraq iki
qrupa bölünür – fontan və mexanikləşdirilmiş.
Quyu yalnız neft layının malik olduğu lay
enerjisi ilə işləyirsə - bu üsul fontan istismarı
adlanır, və hadisənin özü fontan vurma
adlanır.
Quyuların mexanikləşdirilmiş istismarında
mayenin yer səthinə qaldırılması müxtəlif
mexaniki vasitələrin köməyi ilə həyata keçirilir.
Mexanikləşdirilmiş üsullarla quyuların
istismarına qazlift və nasos üsulları aiddir.
Qazlift üsulunda laya qaz kompressorların
köməyi ilə vurulur, nasos üsulunda mayenin
yer səthinə qaldırılması quyu ştanqlı və ya
ştanqsız nasosların köməyi ilə həyata keçirilir.
4. Mancanaq dəzgahının layihələndirilməsinin
aşağıdakı ardıcıllıqla aparılır:
layihələndirmədən əvvəl tədqiqatlar;
texniki tapşırıq;
texniki təklif;
eskiz layihəsi;
texniki layihə;
işçi layihə;
hazırlama;
sazlama, sınaq və istifadəyə buraxılması.
MANCANAQ DƏZGAHININ
LAYİHƏLƏNDİRİLMƏSİNİN ARDICILLIĞI
5. Mancanaqlı fərdi intiqallar-
Mancanaq dəzgahı
Neft mədən təcrübəsində mancanaqlı fərdi
intiqallar mancanaq dəzgahı adlanırlar.
Mancanaq dəzgahı nasosun intiqalıdır.
Fərdi intiqalların əsas parametrləri
aşağıdakılardır:
I. Asqı nöqtəsində təsir edən statik və
dinamik qüvvələrin cəmindən ibarət olan
maksimal buraxılabilən yük - Pmax
II. Ştanqların asqı nöqtəsinin gediş yolunun
maksimal uzunluğu – Smax
III. Ştanqların asqı nöqtəsinin vahid zamanda
gedişlərinin maksimal sayı – nmax
6. Mancanaq dəzgahların növləri və konstruktiv
sxemləri
İkiçiyinli(a) və birçiyinli (b) mancanaq dəzgahlarının sxemi
a) b)
7. Çarxqolunun fırlanma mərkəzinin yerləşdirilməsi
sxemləri
Çevirici mexanizmi çarxqolu-mancanaqlı dördbəndli
mexanizm olan mancanaq dəzgahlarında çarxqolu
mərkəzinin B1B2 düz xəttinə görə yerləşdirilməsi
ümumi halda üç vəziyyətdə ola bilər:
Çarxqolu fırlanma mərkəzinin B1B2 xətti üstündə
olan OABCD çevirici mexanizmi aksial mexanizmi
adlanır.
Çarxqolunun fırlanma mərkəzi B1B2 xəttindən irəlidə
olanda OABCD müsbət dezaksial bucaqlı (+) çevi-
rici mexanizmi alınır.
Çarxqolunun fırlanma mərkəzi B1B2 xəttindən arxada
olanda OABCD mənfi dezaksial bucaqlı (-)
çevirici mexanizmi alınır.