Explain How to Establish and Maintain a Safe and...

Explain how to establish and maintain a safe and supportive learning environment 7.3.1. Explain how to establish ground rules with learner’s to promote respect for each other. 9.3.2. Explain how to promote appropriate behaviour and respect for others. 7.3.2. When considering teaching in Further education, I assumed that managing behaviour and having to establish ‘ground rules’ had been left at the school gates, amidst an onslaught of eggs, signed uniforms and flour. Of course, having had a little experience, I now feel that students in F.E are the most diverse group to teach anywhere in education and with that, equally diverse in terms of behaviour and motivation. In order to establish and instigate ground rules in the first†¦show more content†¦A supportive learning environment should be purposeful and task orientated, where the tutor emphasises the need to progress steadily. This can be done by starting lessons promptly, creating a smooth flow to the lesson, involving pupils and monitoring their progression and organisation. A positive effort should be made to ensure pupils have or build on self-respect and esteem by setting realistic opportunities for success and helpful support and encouragement whenever difficulties arise. A sense of order within the class can be managed by presenting lessons effectively and establishing positive relationships with pupils- based on mutual respect and rapport. I will, as a tutor, have to develop skills in managing behaviour and use a variety of tactics in order to develop an understanding of students individually and as a group. Hopefully, I will be able to combine that with the correct approach to planning, my approach, the resources to use in order to deal with barriers learners may have adopted towards learning and to maintain a good level of motivation. I believe in creating a relaxed, warm and supportive atmosphere in a group, as in my experience I have found that it creates a positive environment and suits my style when interacting with and enabling others. (Kyriacou, C.1998:65) writes- with regard to this particular style- ‘This better enables pupils to develop curiosity and interest in the learning activities’ However, this mayShow MoreRelatedResponsibilities And Responsibilities Of A Lifelong Learning2594 Words   |  11 PagesRole and responsibilities in lifelong learning Lifelong learning is on-going process. The role and responsibilities in lifelong learning sector is - we should always follow the relevant code of practice, key aspect of legislation regulatory requirements. We should provide the resources and equipment those requirements of teaching professions. 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Coiled Tubing Free Essays

E N H A N C I N G PRODUCTIVITY Coiled Tubing Solutions Solve Downhole Problems With Reliable, Cost-Effective Technology Baker Oil Tools Coiled Tubing Handbook The global oil and gas industry is using coiled tubing for an ever-increasing array of well intervention projects. Coiled tubing offers a number of operational and economic advantages, including: live well intervention, elimination of well kill and potentially damaging heavy-weight kill ? uids, reduced operational footprint, horizontal intervention, and the ability to intervene without a rig. These advantages have led to the development of truly ? -for-purpose coiled tubing systems from the industry’s largest provider of coiled tubing well intervention solutions – Baker Oil Tools. We will write a custom essay sample on Coiled Tubing or any similar topic only for you Order Now Baker Oil Tools offers its clients an unparalleled selection of coiled-tubing-conveyed intervention products, services and solutions with which to approach individual well requirements. This handbook was developed to help our clients determine which systems and services will best meet the needs of a particular application. For that reason, we have designed the handbook to highlight system capabilities within eight distinct intervention areas where coiled tubing can offer a highly effective and cost-ef? ient alternative. These eight categories are: Well Cleaning, Fishing and Milling, Zone Isolation, Stimulation and Fracturing, Sand Control Completions, Flow Management, Plug and Abandonment, and Sidetracking and Re-entry. Coiled Tubing Well Coiled Tubing Sections Well Cleaning Sandtrap System . . . . Debris Catching . . . . Underreaming . . . . . Impact Drilling . . . . . Mechanical Scale Removal . High-Pressure Jet Washing . Vortech Pulsating Jetting Tool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 . 3 . 4 . 5 . 6 . 7 . 9 . 10 Well Cleaning Fishing and Milling Fishing and Milling Recovering Tools with Downhole Vibration Technology . . . . . Recovering Tools with Hydraulically Activated Fishing Tools . . . Recovering Coiled Tubing . . . . . . . . . . . . . . Removing and Recovering Obstructions . . . . . . . . . . Cutting Pipe . . . . . . . . . . . . . . . . . . Milling . . . . . . . . . . . . . . . . . . . . METAL MUNCHER ® Milling Assembly with Magnetic Chip Catcher OPTICUTâ„ ¢ Mills . . . . . . . . . . . . . . . . . Vortech Pulsating Bit Sub . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 11 12 14 16 17 18 20 21 22 Zone Isolation Zone Isolation Through Tubing . . Retrievable Bridge Plug Retrievable Packer . Straddle Systems . . Monobore . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 23 24 25 26 27 Stimulation and Fracturing Stimulation and Fracturing 29 Through Tubing ISAP . . . . . . . . . . . . . . . . . . 29 QUIK Drillâ„ ¢ Composite Products . . . . . . . . . . . . . . 31 Retrievable Bridge Plug . . . . . . . . . . . . . . . . . . 34 Sand Control Completions Vent Screen System . . . . Squeeze-Pack System . . . Wash-Down System . . . . Circulating Gravel Pack System Sand Control Screens . . . . FRAQ PAQ Fluid Systems . . SM 35 Sand Control Completions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 37 38 39 40 43 . . . . . . . . . . . . Flow Management Increasing Gas Velocity While Reducing Water Production Velocity and Straddle Systems . . . . . . . . CTâ„ ¢ Tension Packer . . . . . . . . . . . . In? atable Straddle System . . . . . . . . . . Scale Inhibition . . . . . . . . . . . . . Production/Injection Logging . . . . . . . . . Selective-Zone Completion . . . . . . . . . . Shifting Sliding Sleeves . . . . . . . . . . . Nipple-Less Completion Technology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45 46 47 49 50 50 51 52 53 54 Flow Management Plug and Abandonment Plug and Abandonment 57 In? atable Permanent Bridge Plug . . . . . . . . . . . . . . 58 Permanent Cement Retainer . . . . . . . . . . . . . . . . 59 Monobore . . . . . . . . . . . . . . . . . . . . . . 60 Sidetracking and Re-entry Slimhole Casing Exit Technology . . . Restricted-Bore Whipstock System . . Slimhole Milling Assemblies . . . . Open-Hole Completions . . . . . . Open-Hole Liner Systems . . . . . Coiled Tubing Drilling . . . . . . Drill Bits – Hughes Christensen Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Sidetracking and Re-entry 62 63 64 65 65 68 74 1 2 Well Cleaning A clean wellbore is not only a prerequisite for trouble-free well testing and completion, it also helps ensure optimum production for the life of the well. Baker Oil Tools’ coiled-tubing-conveyed well cleaning solutions have long and highly successful track records. Well Cleaning Sandtrap System The Sandtrap System is a highly ef? cient method of cleaning out large volumes of sand or proppant from a wellbore where suf? cient annular velocity cannot be obtained to circulate the sand out conventionally using coiled tubing. The system incorporates jet pump technology and is powered by water or nitrogen. No foam is required. The Sandtrap System is extremely cost effective compared to alternatives where foam and chemicals are used. It is also extremely ef? cient and requires minimal time. The sand is removed as the tool is lowered, creating the space to continue the process. Production can be resumed immediately after cleanout. Clean wellbore ? uid enters throat and mixes with power ? uid The system comes in 5-3/4 in. and 3 in. OD sizes. Each application is ? ow modeled on an individual well basis. Key features and advantages †¢ Suitable for all sand / proppant types †¢ No foam system required for effective wellbore cleanout †¢ Water, nitrogen or mixture can be used as power ? uid †¢ Fast, ef? cient operation Return to wellbore via exit ports Case History North Sea Objective: A high volume of sand accumulated in a well causing decline in production. Bottomhole pressure in the well would not hold a ? uid column. The sand needed to be cleaned out of the well, with minimum shut-in time requested. CT Solution: A 5-3/4 in. OD Sandtrap System with extensions was chosen since a minimal amount of ? id would be introduced into the well and sand could be captured without circulating all the way up to surface, which would require a foam system. Result: The full 100% tool capacity was ? lled with sand during the ? rst two runs. During the third run only 73% of the capacity was ? lled, indicating that the sand in the well nearly emptied. This was con? rmed with the fourt h run only recovering 0. 5 gallon of sand. A total of 265 gallons of sand was recovered during the operation. Sand ? ltered out Passes through gravel screen Check valve traps sand inside tool Wellbore ? uid drawn into tool Jet Pump Sand Cleanout System 3 Debris Catching In wellbore cleanout situations where suf? cient annular velocity cannot be obtained to carry debris out of the wellbore, foam systems or nitri? ed ? uids can be used. A time- and cost-saving alternative is a debris catching system, which is used to remove various types of high-density debris and formation particles too heavy to be circulated to surface. Baker Oil Tools Solutions Baker’s Rotary Venturi Cleanout System consists of a Venturi Jet Junk Basket (VJJB) and Navi-Drill ® Workover Motor. Typically a VJJB is run alone but can be run with a motor to break up compacted debris that is too heavy to circulate to surface. The jet basket uses the venturi principle to create a pressure drop inside the tool. Extension barrels can be inserted in the tool to increase its solids carrying capacity. Key features and advantages †¢ Fully closed ? nger or ? utter catchers †¢ Can be run with any type of dressed shoe †¢ Adjustable reservoir through extensions †¢ Adjustable nozzles to accommodate various ? ow rates Motorhead Assembly Navi-Drill Workover Motor Venturi Jet Junk Basket A Venturi Jet Junk Basket (VJJB) with a dressed shoe can be run in conjunction with a Navi-Drill ® Workover Motor to break up compacted debris that is too heavy to circulate to surface. 4 Underreaming An underreamer is designed to pass through a downhole restriction, open, clean the hole to full gauge, and close for retrieval back through the restriction. The restriction is typically in the production tubing string, in the form of nipple pro? les, mandrels, and other completion accessories. In well cleaning the most common underreaming task is removing cement left from coiled tubing squeeze cementing. Leftover cement is typically the result of large cement nodes forming at the squeezed perforations, or cement hardening before the excess can be reversed out. These cement restrictions must be removed before re perforating. An underreamer is also used to clean out scale and hard ? ll that cannot be removed from liners by jet-washing tools. A mill could be used in these conditions, but the resulting hole size would be about the same as the internal drift of the tubing, leaving a sheath on the walls of the liner. This sheath could dislodge during subsequent operations, possibly resulting in stuck tools. Perforating would not be as ef? cient because the charges would have to expend energy penetrating the sheath before reaching the liner. Well Cleaning Production Tubing Coiled Tubing Connector Lockable Swivel Baker Oil Tools Solutions Dual Back Pressure Valve The DBâ„ ¢ Underreamer has proven highly successful in removing cement, packed sand, resin-coated sand, formation and other forms of obstructions. Unlike other slimhole underreamers, the DB Underreamer is designed with a positive locking feature to ensure all cutting blades maintain a full extension upon activation and during an underreaming operation. A proprietary software program models ? ow and operational characteristics of the DB Underreamer prior to each job and during ? eld operations. The program aids in determining appropriate ori? ce size to maximize the ef? ciency of allowable hydraulic power. Key features and advantages †¢ Adjustable nozzles for all ?ow ports †¢ Pressure indication on surface when arms are fully extended †¢ Sturdy construction for downhole reliability †¢ Designed to underream cased or open hole †¢ Positive locking of arms when activated Thru-Tubing Dual Actuated Circulating Valve Non-Rotating Stabilizer Navi-Drill X-treme Workover Motor Case History North Sea Objective: Remove cement from a 7 in. 29. 00 lb/ft liner which was left partly cemented to a total depth of 13,600 ft. Due to a 3. 695 in. restriction in the completion, a conventional fullbore milling assemby could not be run. DB Underreamer CT Solution: A 3 in. OD DBâ„ ¢ Underreamer with lower bit box was used in combination with a 3. 35 in. turbo mill. This system was chosen because of the plug form of the cement. Cement Casing Result: The underreamer used in combination with the turbo mill successfully milled 1,118 ft of cement in a single run. Using water and high viscous pills, an average rate of penetration (ROP) of 74. 50 ft/hr was achieved. DBâ„ ¢ Underreamer Assembly 5 Impact Drilling Downhole conditions such as high temperatures (above 400 ° F) and hostile ? uids can signi? cantly reduce the life of a workover motor and limit milling operations. Impact drill systems are an attractive alternative because they perform reliably in adverse conditions. The most common applications of the impact drill include scale milling, hard cement milling, resin sand removal, and gravel removal. Motorhead Assembly Baker Oil Tools Solutions Baker Oil Tools’ Single-Directional Impact Drill (Si-Di) is used to drill hard packed sand and cement, remove scale and drive debris downhole. The industry-leading impact drill can function as a standard impact hammer, or by applying a modular rotational feature, as a rotating impact drill. It has been speci? ally designed for use on coiled tubing but can be used on threaded pipe in conjunction with an accelerator. Fluid, gas, or foam power the tool, which can operate in temperatures over 600 °F. Single-Directional Impact Drill Key features and advantages †¢ Does not operate until the bit meets resistance †¢ Does not store reverse torque †¢ Can operate in high temperatures (above 600  °F) †¢ Operates with most ? uid media including high volumes of nitrogen †¢ Short make-up length †¢ Can be equipped to operate in hostile conditions †¢ Low redress costs (not constructed of elastomers) HIPP-TRIPPER Accelerator Weight Bar Case History North Sea Objective: Barium sulfate scale needed to be removed from a well which had a restricted tool-string deployment height of 11 ft. This ruled out using a conventional positive displacement motor and underreamer assembly. CT Solution: A 2-5/8 in. OD Si-Di Impact Drill equipped with a Cut Button Bit was deployed with a conventional motorhead assembly. Overall assembly length was 9 ft. Result: The assembly successfully drilled out approximately 210 ft of barium sulfate scale at an average rate of 61 ft/hour. The cleanout yielded a 96% increase in oil production in the 7 in. monobore completion. Si-Di HIPP-TRIPPER Impact Drill Cut Button Bit A well cleaning bottomhole assembly incorporating a Si-Di Impact Drill in combination with a Cut Button Bit for scale removal or hard formation drilling. 6 Mechanical Scale Removal Removing scale is one of the most common through-tubing applications on coiled tubing. Although various other methods of scale removal have been attempted, mechanical methods have yielded by far the most consistent success rate. Well Cleaning Baker Oil Tools Solutions Baker Oil Tools’ METAL MUNCHER ® Turbo Scale Mill has proven to be the most effective of all options for scale removal. A typical Baker Oil Tools scale removal bottomhole assembly (BHA) consists of a Turbo Scale Mill run below the industry-leading NaviDrill ® X-treme ® Workover Motor. The cutting matrix and layout of the Turbo Scale Mill face have been optimized for this setup. The mill has a smaller contact area when milling, which reduces torque consumption. As a result, there are fewer motor stalls and rate of penetration (ROP) is increased. Stabilizer pads and brass dressed on top of the METAL MUNCHER inserts minimize the risk of damaging the tubing or casing wall. The mill is dressed such that if the initial cutting edge breaks due to vibration or hardness of the scale, a second, lower, dressed layer will take over. This design has lengthened mill life per run and reduced trips to surface during extended milling operations, while the improved ef? ciency has increased cost savings through reduction in overall intervention time. Baker’s METAL MUNCHER ® Turbo Scale Mill has proven to be the most effective of all scale removal options. Key features and advantages (Navi-Drill ® X-treme ® Workover Motor) †¢ Higher rates of penetration †¢ Extended run times †¢ Reduced milling times †¢ Minimal ? w rates required to achieve maximum horsepower †¢ Controlled rotational speed protects cutting matrix †¢ Increased reliability in high-stress applications †¢ Successful operation in downhole temperatures above 400 ° F 7 Case History North Sea Objective: The operator required ef? cient removal of scale from a 14 ,400 ft well consisting consisting of 4-1/2 in. 13. 50 lb/ft tubing and 7 in. 35. 00 lb/ft liner. Wellbore ? uids were known to be hostile with a history of causing severe damage to conventional workover motor stators. The operation was to be performed from a lower deck with restricted height available for tool-string deployment. CT Solution: A reduced length 2. 88 in. OD Navi-Drill ® X-treme ® Workover Motor was proposed in conjunction with a 3. 61 in. OD METAL MUNCHER ® Turbo Scale Mill. The reduced length assembly could be deployed within the restricted riser height. Result: The hard scale was successfully removed from the 4-1/2 in. tubing using the Turbo Scale Milling Assembly. The same motor was again deployed in conjunction with a DBâ„ ¢ Underreamer to successfully remove scale from the 7 in. liner. Job time for both trips was less than 14 hours, with no ? uid damage caused to the X-treme Motor stator. Top No-Go Tubing Nipple Coiled Tubing Connector Lockable Swivel Dual Back Pressure Valve Universal Hydraulic Disconnect Thru-Tubing Dual Actuated Circulating Valve Non-Rotating Stabilizer Navi-Drill X-treme Workover Motor Turbo Scale Mill A typical Baker scale removal bottomhole assembly (BHA) consists of a Turbo Scale Mill run below the industry-leading Navi-Drill  ® X-treme  ® Workover Motor. 8 High-Pressure Jet Washing Wellbore cleaning solutions also include a variety of high-pressure jet washing tools. These tools are used for sand, paraf? n, asphaltine or scale cleanouts. High-pressure jet washing tools are also highly effective for cleaning completion accessories such as nipples, gas lift mandrels and screens where mechanical means are limited. Well Cleaning Coiled Tubing Connector Baker Oil Tools Solutions Lateral entry and washing Dual Back Pressure Valve Baker Oil Tools offers an extensive array of tools that can be used as accessories for standard milling and ? shing assemblies. The Hydraulic Indexing Tool enables a BHA to rotate in 30 ° increments with high torque. The Hydraulic Bent Sub is designed to provide a means of hydraulically â€Å"kicking over† a tool string for entry into laterals or for ? hing applications. The High-Flow Spinning Wash Tool is used to ef? ciently wash sand and debris. Key features and advantages †¢ Kick-over force is easily controllable by hydraulic pressure differential †¢ Positive rotational control when used with indexing tool †¢ High speed rotation spinning wash tool †¢ May be run with a variety of ? uids Universal Hydraulic Disconnect Indexing Tool Hydraulic Bent Sub Spinning Wash Tool A lateral wash assembly consisting of a Hydraulic Indexing Tool, a Hydraulic Bent Sub and a High-Flow Spinning Wash Tool. 9 Vortech Pulsating Jetting Tool The Vortech Pulsating Jetting Tool effectively cleans out the wellbore or stimulates the reservoir using the ? uidic oscillating principle. A vortex is formed inside the tool, which produces oscillating pulses upon exiting. These pulses produce sonic stress waves that have a far greater effective range than a common jetting nozzle. Non-damaging cleanout of complex and delicate structures such as downhole screens, installations, gas lift mandrels, and sliding sleeves is possible because the cleaning radius is not limited by tool standoff. Key features and advantages †¢ No moving parts †¢ Pulsates any ? uid, gas, or mixture such as nitrogen, water and/or acid †¢ Produces sonic stress waves so cleaning radius is not limited by tool geometry †¢ Effectively stimulates the reservoir †¢ Available ? ush with coiled tubing OD Internal Coiled Tubing Connector Coiled Tubing Case History Texas Objective: To remove barium sulfate scale from the production tubing and perforated interval in a gas well where previous bailer attempts were unsuccessful. Production in the well had steadily declined to 140 Mcf/day and 600 psi wellhead pressure. CT Solution: A 1-1/4 in. OD Vortech Pulsating Jetting Tool on 1-1/4 in. OD coiled tubing was selected to clean out the barium sulfate scale. To ensure the ? ll would return to surface and reduce the hydrostatic pressure acting on the reservoir, a water / nitrogen mixture was used. Result: The cyclic stress waves generated by the action created by the Vortech Pulsating Jetting Tool, combined with the water medium, broke up the scale. The scale was successfully removed and production increased to 5 MMscf with a 2,600 psi wellhead pressure. Dual Back Pressure Valve Vortech Pulsating Jetting Tool Wellbore Cleanout and Reservoir Stimulation 10 Fishing and Milling Recovering Tools with Downhole Vibration Technology When ? shing on coiled tubing for devices stuck in hole, hydraulic jars are typically used as means of providing impact force to free the device. The drawback is that the pipe must be cycled over the gooseneck multiple times to ? re and reset the jar. Downhole vibration technology places impact energy right where the device is stuck and frees it quickly, even from deep or deviated wells. Coiled Tubing Connector Fishing and Milling Baker Oil Tools Solutions Dual Back Pressure Valve Universal Hydraulic Disconnect Non-Rotating Stabilizer Unlike conventional jars, Baker’s Bi-Directional Vibratory Jar (Bi-Di) delivers the energy of the impact immediately above the ? sh. The Bi-Di is used extensively in ? shing operations to deliver both upward and downward impact up to 1,000 times per minute. This high-frequency jarring action, combined with a constant overpull, is similar to the action created by a vibratory extractor, which is a highly effective method of extracting sand-compacted ? h. The Bi-Directional Vibratory Jar is especially effective for installing and removing equipment in horizontal and highly deviated wells. Because the tool resets and activates itself with the aid of pumped ? uid, cycling the coiled tubing is eliminated, which extends its life. In addition to functioning as an excellent alternative to jarring, the vibratory jar can be used to shift sliding sleeves, swage ope n collapsed tubing, break ceramic or glass disks, and retrieve wireline tools in deviated wells. Key features and advantages †¢ May be operated using gas/foam/? id including nitrogen †¢ Temperature rated up to 600 °F †¢ Compatible with highly deviated/horizontal wellbore applications †¢ Can circulate while going in the hole †¢ Eliminates cycling of pipe Bi-Di HIPP-TRIPPER Vibratory Jar Case History Gulf of Mexico Objective: A G-Stop Plug installed above a gravel pack screen needed to be removed. Numerous wireline and coiled tubing overpull and jarring methods had been unsuccessful in removing the plug. Hydraulic Releasing Spear CT Solution: Deploy a 2-1/8 in. Bi-Directional Vibratory Jar to retrieve the G-Stop. Result: G-Stop was retrieved in 18 minutes of on-bottom time. Bi-Directional Vibratory Fishing BHA 11 Recovering Tools with Hydraulically Activated Fishing Tools Most types of conventional spears and overshots can be conveyed on coiled tubing. These include standard basket and spiral-type overshots, kelo sockets, mousetrap overshots, and releasing spears. However, these types of tools cannot be released conventionally because coiled tubing cannot be rotated. If these tools are run on coiled tubing and the ? sh cannot be retrieved after latching the overshot, a hydraulic disconnect farther up the tool string must be activated. This leaves additional tools in the hole. To avoid this situation, it is advisable to run hydraulic releasing spears and overshots before running conventional types of spears and overshots when ? shing using coiled tubing. Baker Oil Tools Solutions Baker’s Hydraulic Releasing Spears and Overshots are designed speci? cally for coiled tubing ? shing operations. The overshot is used to catch either external ? shnecks or slick ODs, and the spear is used in internal ? shnecks or slick IDs. Hydraulic Releasing Spears and Overshots for ? shneck pro? les are dressed with a collet designed to ? a speci? c ? shneck type. Overshots and spears designed to catch slick ? shnecks are dressed with a grapple-type collet in the speci? c catch range size required. For ? shing in larger-diameter wellbores, Baker Oil Tools’ patented hydraulic release ? shing tools have been designed to allow engagement of a ? sh with an internal or external ? shing neck. These tools were designed speci? cal ly for coiled tubing or threaded pipe operations where no rotation is possible. Key features and advantages †¢ Designed speci? cally for coiled tubing conveyance †¢ Ability to circulate ? id out of the end of the tool provides a means of washing debris or ? ll from the ? shneck to allow proper latching †¢ Collet-style grapple does not get loaded during jarring operation; grapple section that catches the ? sh is in compression when pulling or jarring on the ? sh Indexing Tool Motorhead Assembly Hydraulic Knuckle Joint Hydraulic Release Overshot A Baker Oil Tools Hydraulic Release Overshot is combined in a bottomhole assembly with other hydraulically actuated tools to enable ? shing through tubing in a larger bore. This BHA can locate a small ? hing neck in a larger bore by activating the Indexing Tool and the Hydraulic Bent Sub to systematically search the larger bore and engage the ? sh. 12 Internal Fishing Necks Size Max 1-1/4 1-1/2 2 2-1/2 3 3-1/2 4 5 7 . 90 1. 08 1 . 40 1. 83 2. 33 2. 64 3. 14 4. 02 5. 38 A (In. ) Min . 88 1. 06 1. 38 1. 81 2. 31 2. 62 3. 12 4. 00 5. 40 Max 1. 05 1. 24 1. 58 1. 99 2. 52 2. 83 3. 33 4. 21 5. 62 B (In. ) Min 1. 03 1. 22 1. 56 1. 97 2. 50 1-1/2 2. 81 3. 31 4. 19 5. 64 2 3 2. 81 3. 38 4. 19 5. 60 2. 78 3. 35 4. 16 5. 64 1 1. 38 2 C (In. ) D (In. ) E (In. ) Max 1. 03 1. 19 1. 62 1. 94 2. 50 F (In. ) Min 1. 0 1. 16 1. 59 1. 91 2. 47 Fishing and Milling E D C C MIN .50 70? 45? 30? 30? F A B A -. 010 +. 000 B -. 032 +. 000 D MIN .03 R . 06 X 45 Internal Fishing Necks .06 R External Fishing Necks External Fishing Necks Min tubing size in which neck may be run (In. ) 1. 660 Pulling Tool A (In. ) B (In. ) C (In. ) D (In. ) Otis 1-3/16 RB 1-5/16 SM* 1-1/4 RB* 1-1/2 RB* 1-1/2 RB* 1-1/2 SB 2 RB* 2 SB 2-1/2 RB* 2-1/2 SB 3 RB* 3 SB Camco 1-1/4 JDC* 1-5/16 JDC* 1-3/8 JDC* 1-1/2 JDC* 1-1/2 JUC 2 JDC* 2 JUC 2-1/2 JDC* 2-1/2 JUC 3 JDC* 3 JUC .875 .688 2-3/4 1-5/16 1. 660 1. 000 .813 2-3/4 1-7/16 1. 900 1. 188 1. 000 -1/4 1-1/2 2- 3/8 1. 375 1. 188 2-3/8 1-15/16 2-7/8 1. 750 1. 500 2-1/4 2-3/8 3-1/2 2. 313 2. 063 2-1/4 2-7/8 * These dimensions are based on using the pulling tools (overshots) most commonly found on wireline service trucks. They are the Otis RB, RS, SB, and SS, and the Camco JDC, JUC, JDS, and JUS. The RB, RS, JUC, and JUS are all jar-up release tools, and the others are jar-down to release. The minimum recommended distance to allow an Otis SB or Camco JDC pulling tool to release. Fishing neck type size sometimes referred to by â€Å"A† dimension. The least recommended diameter immediately surrounding the ? hing neck to allow the overshot dogs room to latch and unlatch. Camco is a trademark of Schlumberger; Otis is a registered trademark of Halliburton. 13 Recovering Coiled Tubing When coiled tubing parts in tension, it â€Å"necks† down over several inches at the point where it parted. It is possible for overshots to engage the top of the parted section, but engaging parted coile d tubing can be dif? cult because of residual helix and spring in the coil itself. When coiled tubing parts are in compression, it typically buckles and bends over to form a â€Å"shepherd’s hook† shape. A compression failure normally requires dressing the coiled tubing using a washover shoe before running tools such as a Snipper or Continuous Tubing Overshots. Baker Oil Tools Solutions The Snipper Overshot is used to remove the damaged top section of parted coiled tubing remaining in the hole. A catch and cutting mechanism in the overshot washes over the top of the coiled tubing. Once the required amount of coiled tubing (typically 5 to 10 ft) is â€Å"swallowed†, overpull is applied, which forces the catch grapple to bite into the coiled tubing. This overpull may be suf? cient to free the ? h. If not, the overpull is increased to activate the lower cutting grapple, which cuts the coiled tubing. Once the snipper has been run, a round ? shneck with a non-restricted ID remains to allow passage of a chemical cutter should one be required later in the ? shing operation. The Snipper Overshot has also been used as a primary retrieval tool to recover several thousand feet of coiled tubing in a single trip. The Continuous Tubing Overshot (CTO) is used to catch coiled tubing that has parted in the hole. The CTO uses an internal grapple sized to the coiled tubing being ? shed. The grapple segments are arranged in a circumference to provide a nearly complete slip bite. They are springloaded against the coiled tubing, so long sections of tubing can be washed over without dragging the grapple teeth against the tubing and causing tooth damage. The CTO moves freely downward over the coiled tubing. The grapple segments engage with any upward movement of the tool. The CTO can be run with either threaded tubing or coiled tubing workstrings when ? shing coiled tubing. Sometimes circulating ? uids out around the coiled tubing being ? shed can help to free it. In these cases, a High Pressure Packoff (HPP) is run above the CTO. The HPP can also allow drop balls to be circulated to seat in circulation subs and hydraulic disconnect tools in the original BHA. Actuation of these tools can also help to free the stuck tubing. Key features and advantages †¢ Modular design for multiple sizes of coiled tubing †¢ Snipper retrieves coiled tubing above cut in same trip †¢ May be run on threaded or coiled tubing †¢ High Pressure Packoff allows high pressure circulation through a ? sh Cut and retrieve Coiled Tubing using a Snipper Overshot. 14 Case History Algeria Objective: Poor cement quality in a well created problems in setting a cement kickoff plug, which resulted in 2 in. coiled tubing being cemented in the well. The cemented coiled tubing had to be removed so the completion could be recovered. CT Solution: A Baker Oil Tools Snipper Overshot was deployed to cut and retrieve the coiled tubing which was cemented on the inside. Result: On the ? rst run of the Snipper Overshot, 1,115 ft of 2 in. CT was successfully recovered with no problems. The ? nal foot of recoverable CT was recovered on the second run. The remaining section of CT was below the existing completion, so the operator was able to remove the entire completion. Fishing and Milling 15 Removing and Recovering Obstructions Breaking completion obstructions such as knock-out isolation valves (KOIV) using an impact hammer and ceramic disk breaker is common practice on coiled tubing. Traditionally the debris is removed with a debris catching device on a subsequent run. However, Baker Oil Tools offers a safe, reliable, one-trip solution. Coiled Tubing Connector Baker Oil Tools Solutions Baker’s Single-Directional Impact Drill (Si-Di) is used to drill hard packed sand and cement, remove scale and drive debris downhole. The industry-leading impact drill can function as a standard impact hammer or, by applying a modular rotational feature, as a rotating impact drill. It has been speci? cally designed for use on coiled tubing but can be used on threaded pipe in conjunction with an accelerator. Fluid, gas, or foam power the tool, which can operate in temperatures over 600 °F. The Si-Di can also be run with a Venturi Jet Junk Basket to allow wellbore obstructions to be impacted and debris recovered in a single trip. Key features and advantages †¢ Does not operate until the bit meets resistance †¢ Does not store reverse torque †¢ Can operate in high temperatures (above 600 ° F) †¢ Operates with most ? uid media including high volumes of nitrogen †¢ Short make-up length †¢ Can be equipped to operate in hostile conditions †¢ Low redress costs (not constructed of elastomers) Dual Back Pressure Valve Hydraulic Jar FA Hydraulic Disconnect Case History Gulf of Mexico Objective: On an extremely challenging thru-tubing ? shing operation, where operational risk and cost had to be minimized, the following objectives were given; †¢ To break a pair of ceramic isolation ? ppers at 26,806 ft measured depth †¢ Ensure effective cleaning after breakage of the ? appers and any other debris encountered †¢ Shift a ? uid loss device at a depth of 27,090 ft MD CT Solution: The Si-Di HIPP-TRIPPER ®, Venturi Jet Junk Basket and custom bit were deployed in the same BH A to allow the ? appers to be broken, debris to be collected and the ? uid loss device to be shifted open, all in one trip. Extensive testing and prejob planning con? rmed the solution’s feasibility. Result: Results of the operations performed are summarized as follows: †¢ The ? appers were broken, debris recovered and ? id loss valve shifted. †¢ Fewer trips reduced overall risk of the operation and saved the client an estimated $400,000 †¢ The job set a record working depth for coiled tubing in the Gulf of Mexico. Obstruction Removal and Recovery System Si-Di HIPP-TRIPPER Impact Drill Venturi Jet Junk Basket Special Shoe 16 Cutting Pipe Production Tubing Coiled Tubing Connector Dual Back Pressure Valve For many years, wireline-conveyed explosive jet and chemical cutters have been the preferred choice for cutting tubulars in slimhole wellbores. Baker Oil Tools offers a safe, ef? ient alternative in applications where explosive jet or chemical cutters are unable to provide suf? cient energy to cut single or multiple strings of pipe downhole. Baker Oil Tools Solutions The DBâ„ ¢ Cutter is safer than explosive or chemical cutting methods since it does not contain or use any hazardous materials and is activated by hydraulic pressure and mechanical forces. Its superior cutting ability is proven by the fact that it has successfully cut internally plastic-coated drill pipe and production tubing containing 25% CR and has completed cuts through multiple strings of pipe with cement in between. The DB Cutter uses several unique cutting blade con? gurations that were designed speci? cally to address various metallurgical properties and dimensions. The cutting blades contain METAL MUNCHER ® cutting inserts, which were developed by Baker Oil Tools to mill and cut a variety of metals downhole at a high rate of penetration. METAL MUNCHER blades require less applied weight and less torque. They last longer; cuttings are small, uniform, and easy to circulate out. Each cutting insert is placed in a speci? c pattern to ensure that a new cutting element becomes exposed to the pipe wall when the previous insert diminishes. When cutting tubing using coiled tubing as means of deployment, it is dif? cult to keep the knives of the cutting tool in a ? xed position, because the coiled tubing is moving when the pumps are started or when the pump rate is increased. The robust, self-stabilizing DB Cutter and a Navi-Drill ® V. I. P. â„ ¢ or X-treme ® Workover Motor in combination with the Hydraulic/Mechanical Tubing Anchor constitute the preferred bottomhole assembly for this type of application. Key features and advantages †¢ Self-stabilizing Fishing and Milling Universal Hydraulic Disconnect Dual Actuated Circulating Sub Hydraulic Centralizer Navi-Drill V. I. P. Workover Motor DB Cutter †¢ Superior cutting ability from blades designed with METAL MUNCHER cutting inserts †¢ Safer than explosive or chemical cutting methods †¢ Limited maximum knife expansion prevents damage to outer casing strings Tubing Cut @ 7,290 ft Tubing Cut @ 7,661 ft Case History South America Objective: To perform a series of cuts in 4-1/2 in. 12. 75 lb/ft tubing which was stuck inside 9-5/8 in. casing due to a sand ? lled annulus. A tubing washover was not feasible due to wire and clamps being ? ed to the tubing OD. A previous chemical cutter attempt was unsuccessful. CT Solution: A 2-1/4 in. DB Cutter was deployed with a 2-1/8 in. OD Navi-Drill ® Workover Motor, Hydraulic Centralizer and standard running assembly. Result: Five cuts were made inside the tubing. Two of the cuts were completed in a single trip into the well. Although one of the ? ve cuts had penetrated 90% into the pi pe, each cut was pulled successfully and no top dressing was required prior to latching with a ? shing overshot. Tubing Cut @ 7,943 ft Tubing Cut @ 8,255 ft Tubing Cut @ 8,537 ft Casing DBâ„ ¢ Cutter System, cutting production tubing with sensor wire clamped onto the outside 17 Milling Coiled tubing is used to mill materials such as scale, metal, cement and composite and cast-iron bridge plugs, as well as many forms of loose junk. When milling metal, Baker Oil Tools’ ? shing calculations software helps calculate mill bit speeds to provide optimum milling performance. Fishing Calculations Software Baker Oil Tools Solutions Baker Oil Tools’ METAL MUNCHER ® Step Mill consists of a series of steps with a wear pad at the top of the largest OD step. Each step is dressed with tungsten carbide cutting inserts, and the length of each step is custom built to suit the dimensions of the nipple being enlarged. The step feature is designed to keep torque consumption of the workover motor low and cutting sizes to a minimum. This mill design is based in part on lathe-cutting principles and leaves a machine-like ? nish on the milled surface. The mill may be manufactured with a pilot for additional stabilization. Enlarging or removing nipple pro? les is usually performed during through-tubing operations where the ID of the nipple is less than the OD of tools required to pass through it. In many cases, the lower tailpipe nipple of the completion is removed to allow contingency ? shing tools access to the liner below. A pro? le-enlargement milling assembly includes the same BHA con? guration as a scale milling assembly, but with a different mill bit design. Step Mill Key features and advantages †¢ Low torque application †¢ Machine-like ? nish left on milled surface †¢ Will not damage outer string 18 Case History North Sea Objective: An operator in the UK sector of the North Sea required a 3. 688 in. ID nickel alloy â€Å"AR† Nipple to be milled out to 3. 75 in. ID to allow a Baker Oil Tools Coiled Tubing Straddle Assembly consisting of two 3. 70 in. OD Model KB Packers to be set below the nipple. Fishing and Milling CT Solution: Due to the extreme challenges presented by milling nickel alloy material, two special insert step mills were custom built for this application. The mills were deployed on 1-1/2 in. OD coiled tubing and powered by a 2-7/8 in. Navi-Drill ® Workover Motor. Result: The nipple was milled to 3. 875 in. ID out in two runs as planned, with actual on-bottom milling time of 5-1/2 hours for both runs. The second mill drifted the nipple twice upon completion of milling and was measured in gauge upon inspection at surface. The KB straddle assembly could then be set below the nipple depth. 19 METAL MUNCHER ® Milling Assembly with Magnetic Chip Catcher On a milling job, a Magnetic Chip Catcher can be run above the motor to help remove cuttings from the well. The tool houses magnets that attract metal chips from the wellbore ? uid. This tool is ideal for use on coiled tubing, where annular ? uid velocities are too low to carry cuttings out of the well. The catcher is usually run directly above the motor. A centralizer is incorporated in the tool to stand it off the casing so cuttings will remain on the tool and not be scraped off while pulling out of the hole. Key features and advantages †¢ Helps keep metal cuttings out of mud system †¢ Magnets are enclosed in housing for easy cutting removal †¢ Special centralizer feature to maintain standoff from casing Universal Hydraulic Disconnect Coiled Tubing Connector Dual Back Pressure Valve Case History Alaska Objective: The operator required approximately 80 ft of 2-7/8 in. 6. 40 lb/ft liner – cemented inside 4-1/2 in. 12. 0 lb/ft casing – to be milled and circulated out of the well. This would allow a whipstock to be set at a desired kickoff point and a dual exit window to be milled through 4-1/2 in. 12. 60 lb/ft and 7 in. 26. 00 lb/ft casing. CT Solution: A high-performance Navi-Drill ® X-treme ® Workover Motor was deployed on coiled tubing in combination with a custom-designed METAL MUNCHER ® Piranha M ill. Result: The required section of 2-7/8 in. liner was successfully removed in a total of 94 hours milling time. The monobore whipstock was subsequently set at the desired kickoff point and the window milled through two casing strings. Thru-Tubing Fishing Chip Catcher Dual Actuated Circulating Valve Navi-Drill X-treme Workover Motor METAL MUNCHER Junk Mill Milling Bottomhole Assembly with Chip Catcher 20 OPTICUT â„ ¢ Mills Baker Oil Tools’ OPTICUTâ„ ¢ Junk Mills are designed for milling debris where milling inserts are considered too aggressive. These mills effectively remove composite bridge plugs such as QUIK Drillâ„ ¢ plugs. While a single mill can remove an average of seven to ten composite bridge plugs before redress is required, as many as 14 plugs have been removed successfully using the same OPTICUTâ„ ¢ mill. OPTICUTâ„ ¢ dressed mills use the patented OPTICUTâ„ ¢ starshaped insert that is ideally suited to mud motors since it creates small cuttings and does not need high set-down weight to perform optimally. Baker Oil Tools offers a variety of sizes and con? gurations accommodating all common casing and tubing sizes. Key features and advantages †¢ Optimum shaped geometry assures sharp cutting edges and points are looking up no matter how the insert is positioned †¢ Sixteen cutting points and eight cutting edges OPTICUT â„ ¢ Star-Shaped Insert Fishing and Milling Sharp edges and points result in less weight requirement and increased rate of penetration (ROP) 21 Vortech Pulsating Bit Sub The Vortech Pulsating Bit Sub, when positioned between a workover motor and a mill, improves milling performance and aids in achieving higher rates of penetration. A vortex is formed inside the tool, which produces oscillating pulses. Upon exiting; these pulses produce sonic stress waves that have a far greater effective range than a common bit nozzle. Because pressure differential created across the bit sub is only 75 psi, the overall performance of the motor is not compromised. Higher penetration rates result from the higher impact pressure created from pulsing the jet stream and the reduction of the â€Å"hydraulic hold-down effect† on cuttings that is caused by straight jets. The Vortech Pulsating Bit Sub aids not only in breaking up hard, brittle material, but also in cleaning the bit and removing debris from the hole. Key features and advantages †¢ Pulsates any ? uid, gas, or mixture such as nitrogen, water, and/or acid †¢ Produces sonic stress waves so cleaning radius is not limited by tool geometry †¢ Increased penetration rate Motorhead Assembly Case History Texas Objective: Mill cement from inside a 2-7/8 in. ompletion, which was inadvertently set 2,500 ft too high. CT Solution: A Vortech Bit Sub along with a 1-11/16 in. OD workover motor and cement mill. Result: 1-11/16 in. workover motor and cement mill showed slow progress. When the Vortech Bit Sub was installed between the motor and mill, rate of penetration (ROP) increased by 40%. Navi-Drill X-treme Workover Motor Vortech Pulsating Bit Sub Turbo Scale Mill Scale Milling Assembly with Vortech Pulsating Bit Sub 22 Zone Isolation Through Tubing Zone isolation is one of the most common through-tubing well intervention operations where coiled tubing can add value. Through-tubing workover solutions can be carried out in ‘live’ well conditions, negating any requirements for costly and time-consuming well kill operations and eliminating the chances of irreparable wellbore damage that may result from using kill-weight ? uids. A through-tubing zonal isolation system can be engineered to provide a solution whether the zone in question is a lower zone, an intermediate zone or an upper zone. Baker Oil Tools Solutions Baker pioneered the development of reliable, high-expansion, Thru-Tubing In? atable Element Technology beginning in 1985. The most prevalent industry use of Thru-Tubing in? atable products and services has been in the area of zone isolation, with water shutoff ranking as the number one application. The versatility offered by a Thru-Tubing in? atable packing element allows for tools to be set in the most diverse range of wellbore environments, including cased hole, slotted pipe, perforations, open hole and screens. Our complete line of coiled tubing deployed in? atable products and services includes ? t-for-purpose, in-house-designed running and retrieving tools and our INFLATEDESIGNâ„ ¢ proprietary design software package. INFLATEDESIGN aids in the planning, engineering and implementation of our Thru-Tubing in? atable well intervention tools. The software enables structured gathering of relevant completion, reservoir, coiled tubing and post well intervention information which is used to generate an in? atable element performance envelope. This performance envelope identi? es the ability of the selected Thru-Tubing element to handle the required differential pressure conditions and enables the Baker Oil Tools operations engineer to make job set-up changes to minimize the effects of these conditions and optimize the results to the operator. Zone Isolation Section View of In? atable Element 3. 375 in. Inflatable Element Performance Envelope for 6. 094 in. ID Standard Element -6000. 00 -4000. 00 -2000. 00 Below Element Pressure (psia) 0. 00 2000. 00 4000. 00 6000. 00 8000. 00 8000. 00 6000. 00 4000. 00 Above Element Pressure (psia) COND #1 2000. 00 0. 00 COND #2 -2000. 00 -4000. 00 -6000. 00 1600 psi Initial Inflate Pressure Cond. #1 Cond. #2 INFLATEDESIGNâ„ ¢ Element Performance Envelope 23 Retrievable Bridge Plug A Thru-Tubing Retrievable Bridge Plug may be used to plug off any part of the wellbore where a more temporary or temporary-to-permanent application is required. The Retrievable Bridge Plug is conveyed to setting depth via coiled tubing and set by means of applied coiled tubing pressure. After setting, the bridge plug is disconnected from the running string via a hydraulic release running tool. A high-expansion in? atable packing element may allow for expansion capabilities of greater than 350% and may support applied differential pressures of greater than 8,500 psi. The bridge plug may be retrieved with either coiled tubing or wireline and latched, equalized and released with a single trip in the hole. Key features and advantages †¢ No well kill required †¢ In? table packing element can be run through restrictions then seals effectively in larger ID below †¢ Single trip to equalize, release and retrieve reduces intervention costs †¢ External ? shing neck pro? le eliminates internal debris problems Coiled Tubing Slip Type Coiled Tubing Connector Dual Flapper Type Back Pressure Valve Ball Operated Secondary Hydraulic Releas e Case History Indonesia Objective: An operator in Indonesia needed to isolate a lower water-producing zone in 9-5/8 in. 47. 00 lb/ft casing through a minimum tubing restriction of 3. 13 in. CT Solution: A Baker Oil Tools 3. 00 in. OD Thru-Tubing In? table Retrievable Bridge Plug was run, set and disconnected from a setting depth of 8,470 ft and a deviation of 67?. Result: After returning the well to production, the water cut was reduced from 12,000 bbls/day to 7,300 bbls/day while the production rate was increased from 1,400 bbls/day to 4,500 bbls/day. Thru-Tubing In? atable Permanent Bridge Plug. Please refer to Page 58. Thru-Tubing In? atable Permanent Cement Retainer. Please refer to Page 59. Nipple Pro? le Locator Ball Operated Circulation Valve In? ation Valve Hydraulic Disconnect Running Tool Retrievable Bridge Plug CT Isolation of Lower Zones Using a Thru-Tubing In? table Retrievable Bridge Plug 24 Retrievable Packer The Thru-Tubing In? atable Retrievable Packer is a high-ex pansion retrievable packer designed to carry out various workover operations in a through-tubing environment. Zonal isolation with a packer is typically performed on either a lower or intermediate zone. For lower zone applications, the packer is used to protect the upper zones from the cement or chemical shut-off treatment performed through the coiled tubing. The Thru-Tubing In? atable Packer is conveyed to setting depth via coiled tubing, set, treating operations conducted, equalized and retrieved in a single trip in hole. For intermediate zone isolation, the packer will more than likely be used in conjunction with a Thru-Tubing Retrievable In? atable Bridge Plug. Here the bridge plug will be set below the zone of interest and the packer positioned above the zone of interest. Now coiled tubing treatment operations can be performed selectively to the required isolation zone. Coiled Tubing Slip Type Coiled Tubing Connector Zone Isolation Fluid Loading Valve Key features and advantages †¢ Selective treatment eliminates damage to productive zones Dual Flapper Type Back Pressure Valve One-trip system reduces intervention costs †¢ Coiled tubing stays attached so recovery concerns are minimized †¢ Integral packer equalization negates potentially damaging CT forces Ball Operated Secondary Hydraulic Release Tension Operated Equalizing/ Circulating Valve Retrievable Packer Selective Zonal Treatment Using Thru-Tubing In? atable Retrievable Packer 25 Straddle Systems Baker Oil Tools has designed a n umber of Thru-Tubing In? atable Straddle Systems with different geometries to offer clients a solution to zonal isolation requirements where isolation of either an upper or intermediate zone is required. Both permanent and retrievable systems are available with design criteria that optimize the ratio of straddle ID to straddle OD in order to minimize restrictions for either production or injection through the zone of isolation. These systems can be run as a single unit if coiled tubing lubricator restrictions will allow, or more commonly, in sections. When running a modular system, the straddle system is effectively assembled downhole via multiple coiled tubing runs using a releasable and sealable snap latch mechanism to couple the straddle sections together in the wellbore. To date the longest straddle placed in a producing environment using this technology was in excess of 1,800 ft. The straddle system may also incorporate ? ow control devices such as nipples and sliding sleeves, and can be blank pipe or sand screen depending on isolation requirements. Key features and advantages †¢ Maximizing straddle OD/ID ratio minimizes pressure drop and may allow the potential of future through-straddle intervention work †¢ Straddle length is not limited by lubricator constraints †¢ Availability of exotic alloys means intervention straddle can meet completion metallurgy selection criteria Completion Case History UK Objective: A well in the UK sector of the North Sea required isolation of an upper gas producing zone in 7 in. 29. 00 lb/ft L-80 casing below a 4. 313 in. minimum restriction. The zone in question was perforated from 14,622 ft to 14,724 ft. A differential pressure capability of 6,000 psi was required. CT Solution: A 4-1/4 in. OD x 2. 25 in. ID Thru-Tubing Permanent In? atable Straddle System was run in two sections. The total straddle length was 168 ft with a 2-7/8 in. 6. 40 lb/ft straddle pipe used. Result: After straddle installation, the lower oil producing zone was perforated through the straddle and the well brought back on line with produced ? uids in excess of 20,000 bbls per day. This in? atable straddle system was maintained in a producing environment for more than seven years. In? atable Straddle Acidizing Packer (ISAPâ„ ¢). Please refer to Page 30. Snap Latch Upper Receptacle Upper Straddle Element Interval Spacing Lower Straddle Element Wireline Entry Guide Intermediate Zonal Isolation Using Thru-Tubing In? atable Straddle System 26 Monobore With coiled-tubing-conveyed systems, zone isolation in a monobore well intervention operation does not require costly kill-weight ? uids that can irreversibly damage the formation. Not using kill-weight ? uids allows the effective treatment of zones that require fracturing operations in a wide range of injection pressures. A monobore zone isolation system can be targeted to provide a solution whether the treatment of the zone is in a lower, intermediate or upper portion of the wellbore. Baker Oil Tools provides a one-trip, coiled-tubing-conveyed system for single zone isolation in monobore environments. Baker Oil Tools Solutions The Model N-1â„ ¢ Cast Iron Bridge Plug is a high-performance, drillable bridge plug suitable for almost any zone isolation operation. The plug is constructed from select materials that provide a combination of strength and drillability. The CTâ„ ¢ Hydraulic Setting Tool and Model N-1 Bridge Plug are designed to be run and hydraulically operated on coiled tubing. No rotation is required to operate the system, which makes it ideal for coiled tubing applications in highly deviated wells. When running the Model N-1, the CT Setting Tool allows the operator to spot cement on top of the bridge plug and/or circulate the hole clean prior to pulling out of the well. Key features and advantages †¢ Construction of drillable materials allow coiled tubing deployed downhole mills and motors to easily remove the bridge plug should it be necessary to do so for future operations †¢ Drill-out time is minimized †¢ Swab-resistant element design allows faster run-in speed Model WGâ„ ¢ Retrievable Bridge Plug. Please refer to Page 34. CT Setting Tool. Please refer to Page 60. The CTâ„ ¢ Service Packer is a compact, economical, retrievable packer designed for use in coiled tubing applications. The CT Packer is a multiple-set-and-release packer that operates ef? ciently with an â€Å"auto-J† mechanism actuated from the surface by axial movement of the coiled tubing, which makes the packer easy to set and release. The emergency shear release values can be adjusted for downhole conditions and pull capabilities. Key features and advantages †¢ Short and compact †¢ Uses an easy-to-operate â€Å"auto-J† mechanism for multiple set and release †¢ Adjustable emergency shear release Zone Isolation Model CTâ„ ¢ Tension Set Service Packer 27 28 Stimulation and Fracturing Conveying stimulation and fracturing systems on coiled tubing allows these operations to be carried out in a â€Å"live† well, so there is no need for a costly and time consuming well kill and no chance of irreparable wellbore damage from the use of kill-weight ? uids. Through Tubing ISAP We pioneered the development of high-expansion, Thru-Tubing In? atable Element Technology beginning in 1985. The versatility offered by a Thru-Tubing In? table Packing Element allows for service tools to be set in the most diverse range of wellbore environments, including cased hole, slotted pipe, perforations, open hole and screens. Our complete line of coiled-tubing-deployed in? atable products and services includes ? t-for-purpose, in-house designed running and retrieving tools. The product line is complemented by our proprietary INFLATEDESIGNâ„ ¢ software package which aids in both job planning a nd execution. Baker Oil Tools Solutions Baker Oil Tools’ In? table Straddle Acidizing Packer (ISAPâ„ ¢) System is a unique, through-tubing, coiledtubing-conveyed well intervention system that provides a versatile and reliable method for accurate and selective ? uid placement. The ISAP System is particularly suited to such applications as water shutoff, chemical treatments, screen washing, leak testing and injection testing. Stimulation operations predominantly by means of acid have proven to be the most requested operation for the ISAP System. The system is particularly valuable in mature ? lds where reservoirs are depleted and production of undesirable ? uids is increasing. 2. 50 in. OD In? atable Element in 7. 00 in. OD Pipe Stimulation and Fracturing The ISAP System uses resettable elements that allow for multiple settings in a single coiled tubing trip with variable element spacing to allow for true selectivity. Several unique features ensure the highest degree of reli ability. Additionally, because the ISAP System was designed for coiled tubing deployment, it requires no set-down weight to operate, making it ideal for highly deviated and horizontal wellbore applications. Key features and advantages †¢ Resettable operation allows single trip multiple zone settings †¢ No exposed control line; all plumbing is internal to the system †¢ Integral injection control valve allows for de? ation against CT overbalance †¢ No locked-in in? ation pressure maximizes element longevity and negates detrimental element temperature effects †¢ No set-down weight required †¢ De? ation of tool system to the annulus †¢ Stimulation ? uid maintained in CT between sets to eliminate loss of expensive chemicals 29 Case History South America Objective: The operator required a stimulation treatment on a perforated interval at 15,750 ft in a 7. 0 in. 32. 00lb/ft liner through a 5. 95 in. ID safety valve at 285? F. CT Solution: The ISAPâ„ ¢ tool dressed with two 4. 25 in. OD nickel alloy style elements and 16 ft spacing was deployed into the wellbore supporting a maximum CT overbalance of 3,200 psi. Two sets of the system were undertaken with a treatment recipe consisting of solvent, diesel and 7. 5% HCL. Result: After retrieval of the CT BHA and ISAP tool string, the well was brought back on line with production ? gures showing an increase of 4,200 bbls per day, to 6,000 bbls per day. Coiled Tubing Slip Type Coiled Tubing Connector Dual Flapper Type Back Pressure Valve Ball Operated Secondary Hydraulic Release ISAPâ„ ¢ Track Record †¢ Acid stimulation intervention achieved 22 sets in a single CT trip †¢ 2,000 bbls HCL pumped with a total of 12 sets in a single CT run at an inclination of 90? †¢ 1,000 bbl polymer gel water control chemical treatment †¢ Successful operation in sour gas environment at up to 24. 5% H2S and with aromatic solvents such as xylene †¢ MSAPâ„ ¢ (mechanical rather than in? atable version for monobore applications) developed and run on coiled tubing Thru-Tubing In? atable Retrievable Packer. Please refer to Page 25. Thru-Tubing Retrievable Bridge Plug. Please refer to Page 24. Injection Control Valve Nipple Pro? le Locator Spotting Valve Upper ISAP Element Treatment Control Valve Lower ISAP Element Flow Actuated Drain Valve Selective Treatment Operations Using In? atable Straddle Acidizing Packer System (ISAP â„ ¢) 30 QUIK Drillâ„ ¢ Composite Products From the heart of our Remedial Stimulation product line comes stimulation and fracturing tools including retrievable bridge plugs, cast iron bridge plugs and the highly successful line of QUIK Drillâ„ ¢ Composite Products. Easily deployed, retrieved and removed on coiled tubing, RS Products meet stimulation and fracturing needs that include low-pressure, low-temperature environments as well as high-pressure applications when needed. Baker Oil Tools Solutions Increased production, less formation damage, and less rig time are all possible with QUIK Drillâ„ ¢ Composite Products. No other company has more successful experience in designing and manufacturing downhole tools from composites. And no other company has as much experience in milling composites. Now, Baker Oil Tools has leveraged its leadership in these two areas to produce the QUIK Drill System, a revolutionary system of zone isolation tools that includes Composite Bridge Plugs and Composite Frac Plugs manufactured entirely of advanced, high-performance composite materials. QUIK Drill is the industry’s most comprehensive system of optimized composite zone isolation and milling tools – a powerful advantage over ordinary tools. The QUIK Drill System makes it possible to rapidly isolate and treat or test multiple zones, each with different bottomhole pressures, while dramatically lowering the risk of formation damage. QUIK Drill System components are available in many sizes and types. QUIK Drill Composite Bridge Plugs and Frac Plugs offer a cost-effective way to independently isolate and treat or test multiple zones of interest in a single wellbore. When treatment is complete, the QUIK Drill Plug can be quickly removed in an underbalanced environment, paying signi? cant dividends in increased production and reduced formation damage. The underbalanced removal is typically accomplished with coiled-tubing-deployed downhole motors and milling tools. Baker Oil Tools developed its QUIK Drill line of composite products for monobore, multi-zone well applications that do not require high expansion elements to provide zone isolation. QUIK Drill products save the operator time and money by enabling quick and easy installation and removal. While easily deployed on either standard electric-line- or coiled-tubing-conveyed Baker setting equipment, QUIK Drill Composite Bridge Plugs and Composite Frac Plugs can be removed in a fraction of the time required to mill traditional cast iron products, and with reduced formation damage. QUIK Drill Composite Products can be installed under pressure in multizone, commingled gas wells without expensive formation kill-weight ? uids. After remedial operations, the QUIK Drill Plugs are removed with coiled-tubing-conveyed milling equipment using low-viscosity milling ? uids that minimize formation damage and easily remove composite cuttings from the wellbore. This is especially important because of the low annular velocities characteristic of coiled tubing operations. The wellbore is left cleaner than those using cast iron plugs in similar perations. QUIK Drill Composite Products have been tested to withstand high pressures and temperatures without compromising their pressure integrity and without the need for a cement barrier on top of the plug. Field runs have demonstrated that QUIK Drill Composite Products can be milled in as little as thirty minutes, compared to two hours for milling conventional cast iron bridge plugs. Multi-zone, commingled gas wells Stimulation and Fracturing QUIK Drill â„ ¢ Composite Bridge Plug 31 sing as many as seven QUIK Drill Bridge Plugs have been brought back on production after taking only 12 hours to remove all of the QUIK Drill Plugs, including rig-up and rig-down of the coiled tubing unit. Field runs also indicate QUIK Drill Composite Products can be milled quickly when set at depths exceeding 19,000 ft. Typical Application for the QUIK Drillâ„ ¢ Composite Bridge Plug Operator’s Objective: Discretely treat two or more zones having varying bottomhole pressures (BHP) while minimizing formation damage. Solution: Use Baker Oil Tools’ QUIK Drillâ„ ¢ Composite Bridge Plug to isolate zones of interest and enable removal in an underbalanced environment. Procedure: Step 1 – Install QUIK Drill under pressure Step 2 – Perform treating operations Step 3 – Remove QUIK Drill with coiled tubing under pressure Zone 1 Zone 2 Zone 3 Zone 1: BHP is 11. 4 lb/g How to cite Coiled Tubing, Essay examples

Is Performing Arts a Waste of Time, Money, and Resource Essay Example For Students

Is Performing Arts a Waste of Time, Money, and Resource? Essay Performing arts is a waste of time, money and resource? In the 11th centuries, many people may think that performing arts is a subject that existed for the teenagers who cannot excel well in studies. Most of the people also think that this subject is only tort the teenagers that wanted to be an actress or singer, but actually this is a totally illogical mindset. However, the definitions of performing arts are actually a term that used to explain a national art that brings a message of a drama, rather than just present for its wan interest only and without any of the moral values. Furthermore, performing art is usually means that a performance that are presented to audiences, but it does not representing a canonical theatrical play which does not refers to describe a group of artificial characters in normal script. Therefore, it allowed interaction between the performer and audience, such as spoken words or even the audience did not give any response it is still 3 response. The origin of performing arts can be found in many countries especially those European countries. As for Asia countries, performing art is still not very commonly use in schools. People choose to study performing arts for many reasons, it included many personal benefactions or just because they enjoy it. However, people have variety opinions towards how performing arts affect their life and is this really a waste of time, money and resource for studying this particular subject. In my opinion, studying performing arts is not a waste of time. It is because performing in front of a crowd; no matter it is a large or even a small audience; an he very astounding but during practice time, people will more or little grow in confidence by seeing their improvements, they will be able to use this confidence in every phase in their daily life, The most important key that a performer need is communication, tort example: musician and actor communicate with the audience, actor, photographer and dancer communicate with director, they will be able to done their job with a well communication and cooperation. In this case, to be a part of the performing arts students can improve and develop interpersonal skills. In additions, there is also proved that participate in Music, Drama and Dance will improve peoples concentration levels in their work and also develop a new phase of understanding and knowledge to the particular subject. According to the research, there are also psychological and spiritual advantages which performing art brings calmness, self discipline, self expression and fulfillment. On the Other hand, there are thousands Of people in this whole did world think that studying in performing art this subject is really a vast of time, money and resource. They believe that whoever studied in this particular subject will not have any job opportunity in this society. This is a cruel society, most Of the people may have the thought that if you like to have stable income every month or year, you should not have achieving this by doing what u enjoyed. This means that only when hard work is paid then only people can have the satisfied outcome.