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Henan Li Marine Technology Submission date: June 2012 Supervisor: Svein Sævik, IMT Norwegian University of Science and Technology Department of Marine Technology THESIS WORK SPRING 2012 for Stud. tech. Henan Li Flexible Pipe Stress and Fatigue Analysis Spennings- og utmatnings-analyse av fleksible stigerø r The flexible riser represents a vital part of many oil and gas production systems. During operation of such risers, several failure incidents may take place e.g. caused by fatigue and corrosion. In limit cases where inspections indicate damage, the decision making with regard to continue operation or replacing the riser may have large economic and environmental consequences. Hence, the decision must be based on accurate models to predict the residual strength of the pipe. In most applications, one or several steel layers are used to carry the hoop stress resulting from internal pressure. This is further combined with two layers of cross-wound armour tendons (typically 40-60 tendons in one layer installed with an angle of 35o with the pipe’s length axis) acting as the steel tensile armour to resist the tension and end cap wall force resulting from pressure. The riser fatigue performance may in many cases be governed by the dynamic stresses in the tensile armour. The existing lifetime models for such structures is primarily based on inherent assumptions with respect to the slip properties of the tensile armour. This thesis work focus on establishing a FEM based model for analysis of the tensile armour, so as to analyse the stress and slip behaviour when exposed to different load conditions. The thesis work is to be based on the project work performed and shall include the following steps: 1) Literature study, including flexible pipe technology, failure modes and design criteria, analytical methods for stress analysis of flexible pipes,...
March 1997 ICF Incorporated Fairfax, VA BACKGROUND For the purposes of this survey, a flexible pipeline is defined as a pipeline constructed of flexible material that can be installed in single long runs without the necessity of regular joints either to extend the length of the line or change directions. This material is usually shipped in rolls that are hundreds of feet long, with the installer cutting lengths to fit the requirements of each installation. Most varieties of flexible piping are available with secondary containment either as an option or an integral part of the primary piping. In all cases, the secondary containment piping will not serve as primary piping. The secondary containment piping is designed to channel leakage back to a sump or monitor point, where it can be detected. Because these pipelines differ significantly from the more traditional steel and fiberglass reinforced plastic (FRP) pipelines, the U.S. Environmental Protection Agency (EPA) has periodically requested a survey of their characteristics and availability. This is the third installment of this survey.1
DESCRIPTION OF A COFLEXIP® FLEXIBLE LINE The Coflexip® Flexible Line Coflexip® products are designed for oilfield services, both on and offshore, where heavy duty is required in combination with Flexible lines are manufactured in long continuous sections (up to several kilometres) and are cut to fit each client's requirements. End fittings with the most common types of end connectors are kept in stock thus minimising delivery times. End connectors not kept in stock will be machined or obtained according to the client's specifications. Delivery time depends mainly on the type of end connectors required and our client’s particular specifications. The pipe structure Coflexip® pipes are composed of successive layers of steel and thermoplastic to produce unique structures that have the strength and durability of steel pipes combined with the flexibility of reinforced rubber hoses. Each layer works independently from the others, as no vulcanisation is used during manufacturing. This results in the structural stability of the pipe. flexibility and Functions of Coflexip® pipe components reliability. These requirements are in applications such as: Choke and kill lines Rotary and vibrator lines Test lines Hydraulic lines Acid and cement lines Nitrogen lines Coflexip® flexible pipes for drilling and service applications are manufactured by the Drilling & Refining Applications Division of the Technip Group 2 1. The thermoplastic inner tube makes the pipe leak-tight. 2. The interlocked zeta and flat steel spiral pressure carcass resist internal pressure and external crushing loads. 3. The intermediate thermoplastic sheath is an anti-friction layer. 4. The double crosswound steel armours resist axial loads, protect the pipe from torsional strain resulting from handling and working conditions. 5. The thermoplastic outer jacket protects the armours from external corrosion. 6. The Stainless Steel Outer Wrap (SSOW), protects the pipe from mechanical impact, abrasion, weathering and accidental mishandling.
When a ﬂow is driven through a deformable channel or tube, interactions between ﬂuid-mechanical and elastic forces can lead to a variety of biologically signiﬁcant phenomena, including nonlinear pressure-drop/ﬂow-rate relations, wave propagation, and the generation of instabilities. Understanding the physical origin and nature of these phenomena remains a signiﬁcant experimental, analytical, and computational challenge, involving unsteady ﬂows at low or high Reynolds numbers, large-amplitude ﬂuid-structure interactions, free-surface ﬂows, and intrinsically 2D or 3D motion. Whereas frequently the internal ﬂow involves a single ﬂuid phase (albeit often of a complex biological ﬂuid such as blood), in many instances the presence of two or more distinct ﬂowing phases is of primary importance (as is the case for air-liquid ﬂows in peripheral lung airways, for example). We divide this review accordingly: Section 2 treats single-phase ﬂows in collapsible tubes, Section 3 covers recent applications of such ﬂows to a wide range of physiological 0066-4189/04/0115-0121$14.00
Suzuki Hayabusa Brand Name Suzuki Hayabusa Parent Company Suzuki Category Motorcycles Sector Two-wheeler Tagline/ Slogan The Ultimate Predator; Ride the winds of change 1/4 Suzuki Hayabusa USP Extremely powerful engine and sporty design used in motorsports STP Segment Ultra premium sports bike Target Group Upper middle and upper class men Positioning Passion for performance and precision engineering SWOT 2/4 Suzuki Hayabusa Strength 1.Excellent brand name 2.High speed and performance 3.Hig innovative technology Weakness 1.Very expensive 2.Cant utilise maximum power due to traffic issues Opportunity 1.New emerging high income market 2.Better innovations Threats 1.Threats from other competitors 2.At such a high price people might prefer cars Competition 3/4 Suzuki Hayabusa Competitors 1.VMAX 2.R1 3.Kawasaki Ninja 4.Ducati 5.Honda CBR 4/4
RCC Turbos - Stage 1 Turbo Install: Suzuki Hayabusa (Gen 1) • Preparation/Disassembly: Remove the seat. Disconnect negative terminal on the battery. Drain the fuel tank. Remove the fuel tank. Remove the stock fuel pump from the tank. Remove the air box. Remove the MAP sensor and temperature sensor from the air box. Remove left and right side fairings. Drain engine oil. Drain engine coolant. Remove the oil filter Remove the oil restrictor, behind the filter. Remove the oil cooler lines. Remove the radiator and oil cooler, as one unit, leaving only the bracket/support for radiator (before reinstalling the radiator please remove all the tabs along the bottom of the radiator). Remove the entire exhaust system. Remove the PAIR system. Remove the oil pan from the engine. • Sensor Bracket Modification: On the left hand side of bike, on the inside of the frame, you will see a bracket, with a plastic vacuum canister, vacuum control solenoid valve, atmospheric pressure sensor, and some vacuum lines, with a check valve in the vacuum line. Please remove this entire bracket, eliminate all the vacuum lines, the plastic canister, and the control solenoid valve, and also cut off the metal tab that held the vacuum canister. Then reinstall this bracket with only the atmospheric pressure sensor, and plug the wires back in. • Tap/plug PAIR System Holes: Tap the four small PAIR system holes, above the exhaust ports, with an M6 x 1.0 tap. Install the four small M6 screws into the exhaust holes after tapping them. • Modify the Oil Pan: Drill a ¾” hole on the left side of the oil pan. Use thread sealant on the washer, and red Loctite on the threads. Make sure the sealing washer is against the inside of pan, then the stainless flat washer, then the nut. Once the fitting is installed, reinstall the oil pan. • Install Header/Turbo/Oil Lines/Exhaust: Install the header and turbo as a unit, but with the bolts loose. Use four of your original header bolts on the top of the turbo header (Allen head). Use the four new bolts on the bottom row of the header (M8, 10mm flange head). PLEASE NOTE! After installing the dump pipes and waste gate, the nipple on the top of the waste gate remains open, and no hose gets installed on the top fitting. The top fitting is used for boost control on Stage 2 and higher end kits. It is not used on Stage 1 kits.
SAMPLE RESUME TEMPLATE We have given you an outline of a sample resume as a GUIDE ONLY. It is intended to be read in conjunction with the Careers Centre handout on ‘Resume Writing’ which can be downloaded from the Careers Centre web site. In order to MAKE YOUR APPLICATION COMPETITIVE AND UNIQUE, you should take into account your own experience and background and compile your resume in a way that you feel best reflects those. This may mean that the length of your resume varies. YOU MAY FIND THAT YOU NEED TO: • change the order of the headings • change the wording of the headings • leave some sections out that are not relevant to you or • add new sections (such as “Major Projects” or “Awards and Achievements” or “Leadership”) to capture certain experiences you have had. Also, bear in mind that employers will sometimes state what they want in a resume for a specific job application. They might specify length of resume, content required, number and type of referees required etc. In this instance, you should ALWAYS MEET THE EMPLOYER’S REQUIREMENTS for the specific job application.
Boston University College of Communication Career Services Résumé Samples 640 Commonwealth Avenue • Boston, MA 02215 • 617/353-3490 • email@example.com www.bu.edu/com-csc E-mailable Fonts: Times, Times New Roman Font Size: Type name in 20 – 24 and all other text should be 10, 11, or 12 point depending on the amount of text Margin Settings: Go to Format, select Document, and set Top and Bottom at 0.5 or 0.6, Left and Right should be 0.7 or 0.8 To set a line below name and address, go to left align, then select Auto Shapes and select lines, clicking on the straight line. Insert line under name and address. Once line is in place you may enhance the line by selecting “More Lines” to the far right of Auto Shapes. To delect settings for your format., drag left indent/hanging indent/first line indent to 1 1/4 inches. Drag first line indent back to 0. Set two left tabs, 1/4 inch apart, to the right of left indent/hanging in dent. Change tab by clicking twice to right tab. Insert one right tab at 6 3/4 inches. Bullets are made by selecting “option*. SAMPLE RESUME #1 – Basic Format Your Name Street Address • City, State, Zip • Telephone number • E-mail (Centered) List two Addresses if you need both Present and Permanent Address ( Centered) OBJECTIVE Seeking a full-time position in Advertising/Marketing – or Seeking an internship in Television Production EDUCATION Boston University College of Communication Boston, MA Bachelor of Science in (Communication, Journalism, or Film and Television) Expected May 2003 Concentration in (Advertising or Public Relations, or Film Production, etc.) Dean’s List Liberal Arts Concentration (or Minor if you have one) in English Current GPA: 3.6/4.0 London Internship Programme (or other study abroad) Studies in …………….. London, England September – December 2002 Related Course Work (Add left tabs at 4 1/4 and 4 1/2) • Course Name • Course Name • Course Name • Course Name RELATED EXPERIENCE Name of Company Title • Information about what you did and accomplished • Start each phrase with action words • If job is current use present tense - If job is over use past tense Name of Company (Don’t forget academic experience such as AdLab) Title • What you did for company or client • More information about what you did Prior Title (if you have held two different positions at the same company) City, State Dates
Recent report published by MarketsandMarkets forecast that the value of pressure sensor market was $5.11 billion in 2011 and is expected to reach $7.34 billion in 2017, at an estimated CAGR of 6.3% from 2012 to 2017.