American History Timeline - 1701 - 1725

The first quarter of the 18th century in America can be characterized as a time of conflict, with different European colonies—English, French, and Spanish—waging fierce and political battles against each other and the Native American inhabitants over new territories and colonization strategies. Slavery as a way of life became entrenched in the American colonies. 1701 Fort Pontchartrain is built by the French at Detroit. October 9: Yale College is founded. It will not become a university until 1887, one of nine universities established in Colonial America. October 28: William Penn gives Pennsylvania its first constitution, called the Charter of Privileges. 1702 April 17: New Jersey is formed when East and West Jersey are united under the authority of the New York governor. May: Queen Anne’s War (The War of Spanish Succession) begins when England declares war on Spain and France. Later in the year, the Spanish settlement at St. Augustine falls to Carolina forces. Cotton Mather publishes The Ecclesiastical History of New England (Magnalia Christi Americana), 1620–1698. 1703 May 12: Connecticut and Rhode Island agree upon a common boundary line. 1704 February 29: During Queen Anne’s War, French and Abenaki Indians destroy Deerfield, Massachusetts. Later in the year, New England colonists destroy two important supply villages in Acadia (present-day Nova Scotia). April 24: The first regular newspaper, The Boston News-Letter, was published. May 22: The first Delaware assembly meets at the town of New Castle. 1705 The Virginia Black Code of 1705 is passed, restricting the travel of enslaved persons and naming them officially as real estate. It read in part: All servants imported and brought into the Country...who were not Christians in their native Country...shall be accounted and be slaves. All Negro, mulatto and Indian slaves within this dominion...shall be held to be real estate. If any slave resist his master...correcting such slave, and shall happen to be killed in such correction...the master shall be free of all punishment...as if such accident never happened.   1706 January 17: Benjamin Franklin is born to  Josiah Franklin and  Abiah Folger.   August: French and Spanish soldiers unsuccessfully attack Charlestown, South Carolina during Queen Anne’s War. Chattel  slavery  is introduced by French colonists in  Louisiana after they raid Chitimacha settlements. 1707 May 1: The United Kingdom of Great Britain is founded when the Act of the Union combines England, Scotland, and Wales. 1708 December 21: The English settlement at Newfoundland is captured by French and Indian forces. 1709 Massachusetts is becoming more willing to accept other religions, as evidenced by the Quakers being allowed to establish a meeting house in Boston. 1710 October 5–13: The English capture Port Royal (Nova Scotia) and rename the settlement Annapolis. December 7: A deputy governor is appointed over North Carolina, although the Carolinas are considered one colony. 1711 September 22: The Tuscarora Indian War begins when North Carolina settlers are killed by the Indians. 1712 The separation of North and South Carolina is officially enacted. June 7: Pennsylvania bans the import of slaves into the colony. 1713 March 23: When South Carolinian forces capture Fort Nohucke of the Tuscarora Indians, the remaining Indians flee north and join the Iroquois Nation, ending the Tuscarora War. April 11: The first of the peace treaties under the Treaty of Utrecht is signed, ending Queen Anne’s War. Acadia, Hudson Bay, and Newfoundland are given to the English. 1714 August 1: King George I becomes the king of England. He would reign until 1727.   Tea is introduced to the American colonies. 1715 February: Charles, the fourth Lord Baltimore successfully petitions the crown for return to Maryland, but he dies before taking control of the colony. May 15: Maryland is restored to William, the fifth Lord Baltimore. 1717 Scots-Irish immigration begins in earnest due to higher rental rates in Great Britain. 1718 Spring: New Orleans is founded (although not recorded, later the traditional date becomes May 7). May 1: The Spanish found the city of San Antonio in the Texas territory. The Valero  mission is established  at San Pedro Springs in present-day San Antonio by Fray Antonio de San Buenaventura y Olivares, a Franciscan missionary of the College of Santa Cruz de Querà ©taro. It would later be renamed the Alamo. 1719 May: Spanish settlers surrender Pensacola, Florida to French forces. Two ships of African slaves arrive in Louisiana, carrying rice farmers from the West Coast of Africa, the first enslaved Africans brought into the colony. 1720 The three largest cities in the colonies are Boston, Philadelphia, and New York City. 1721 South Carolina is named a royal colony and the first provisional governor arrives. April:  Robert Walpole becomes the English Chancellor of the Exchequer, and a period of â€Å"benign neglect† begins, which will have huge ramifications in the years leading up to the American Revolution. 1722 The building later known as the Alamo is erected as a mission in San Antonio. 1723 Maryland requires the establishment of public schools in all counties. 1724 Fort Drummer is built as protection against the Abenaki, forming what would become the first permanent settlement in Vermont at present-day Brattleboro. 1725 There are an estimated 75,000 black slaves in the American colonies, out of a half-million non-Native American residents. Source Schlesinger, Jr., Arthur M., ed. The Almanac of American History. Barnes Nobles Books: Greenwich, CT, 1993.

Understanding The Term Foreign Direct Investments Finance Essay - Free Essay Example

Sample details Pages: 6 Words: 1732 Downloads: 6 Date added: 2017/06/26 Category Finance Essay Type Analytical essay Did you like this example? The paper helps the reader to understand the meaning of the term Foreign Direct Investments (FDI). Countries investing beyond domestic frontiers are called as source countries, countries receiving foreign investments are called as host countries. This article explains factors affecting FDI movements between countries. Brief mention about circumstances that are detrimental to FDI inflows or outflows are also explained. Two developing economies; India and China are compared and evaluated on FDI attractiveness on the bases of factors discussed as influential to FDI growth in an economy. INTRODUCTION Understanding FDI: FDI refers to capital movements between countries; it can be capital inflows or outflows. Capital inflow occurs when country experiences investments by foreign individuals, group of individuals, corporations, and group of related enterprises, government agencies, social organizations or combination of the investors mentioned above and vice versa for capital outflows. Capital refers to: Monetary investments by foreign companies/individuals. Equity stake in a particular company or set of companies in an industry Transfer of technical know-how, personnel and assets between countries. FDI (capital inflows) can occur through the following methods: Opening up subsidiaries in host countries. Through joint ventures with investors or enterprise located in host countries. Through mergers or acquisition of unrelated or related enterprise located in host countries. Attempts to explain inward FDI flows to host countries include both micro and macro explanations. Micro ex planations focus on individual firms and the motives for expansion into foreign markets through wholly owned subsidiaries and joint ventures (rather than through licensing or exporting). For example, Aharonis (1966) pioneering study of direct investments by US firms abroad looked in detail at the company-specific characteristics of that kind of investment. A number of additional studies have followed that micro-level analysis (Caves, 1974; Grubaugh, 1987). The macro approach focuses on country level variables (e.g., exchange rate changes or interest rate differentials) to explain national FDI flows. These studies generally examine country-level factors that determine the country of destination of FDI, i.e., they explain why direct investors choose one country over another (Green and Cunningham, 1975; Culem, 1988; United Nations Centre on Transnational Corporations, 1992; Lipsey, 1999). Both macro and micro explanations are relevant; the two perspectives complement each other and further our understanding of FDI. In fact, Dunnings (1980, 1997) eclectic theory of FDI combines the two approaches, focusing on firm-specific advantages (e.g., a brand name or proprietary technology) that firms may possess relative to their rivals, benefits from internalizing the market for these advantages within the hierarchy of the firm when it expands abroad, and location advantages that attract FDI to one country vs. Another. As distinguished from these approaches, our analysis takes a macro-level view but it focuses on the macro attributes of the countries of origin of the FDI, rather than the countries of destination. We look at only one target country, Mexico, and explore the factors that explain why companies from different home countries have chosen to invest there. A review of the literature conducted in 1981 revealed that to that point, no comprehensive macro model had been developed to explain FDI inflows and/or outflows (Arpan et al., 1981). Even so, by that time, several substantial studies of the multiple causes of FDI had appeared in the literature (e.g., Aharoni, 1966; Green and Cunningham, 1975; Kobrin, 1976; US Department of Commerce, 1976; Root and Ahmed, 1979). During the 1980s, a number of studies explored multidimensional attributes of FDI flows, usually looking at the characteristics of the host countries (e.g., Fagre and Wells, 1982; Nigh, 1985; Lecraw, 1985; Schneider and Frey, 1985). An excellent review of this literature appears in United Nations Centre on Transnational Corporations (1992). Moving along a different dimension, researchers such as Ajami and Barniv (1984), Tallman (1988), and Grosse and Trevino (1996) began to focus on home-country determinants of FDI into target countries. All of these researchers who looked at country-of-origin effects have studied the US as the target country. Ajami and Barniv (1984) studied a variety of different economic factors that might affect FDI flows into the US. They found existing tra de between home countries and the US to be positively correlated with FDI inflows to the US. This supported their hypothesis that exports generally precede FDI because FDI involves much more commitment by the firm than exports. They also found differences in interest rates or capital market disequilibrium to be significantly correlated with FDI; this confirmed their hypothesis that there is a cost advantage for firms in a home country where interest rates (cost of borrowing) are lower than in a target (potential location of FDI) nation. Tallman (1988) developed a model with political and economic variables explaining variation in FDI inflows to the US. He found that home-country level of economic development is positively correlated with FDI inflows to the US. Further, he found that political risk is positively correlated with FDI into the US. The positive correlation between political risk and FDI supported his hypothesis that firms from relatively unstable home countries seek t o escape risk by expanding into a country with a more stable political environment the US. Grosse and Trevino (1996) developed another multidimensional (political, geographic and cultural distance, and economic) model of FDI. They test the model using data on inward FDI to the US by country of origin over a 12-year period. They find significant results for the model as a whole which included economic variables: (1) existing bilateral trade, (2) size of home-country market, (3) per capita income, (4) relative cost of borrowing, (5) relative rate of return, (6) exchange rate; a political variable: country-of-origin political risk; a geographic variable: geographic proximity; and a cultural variable: cultural proximity. For the individual variables, they found that existing bilateral trade, home-country size (GDP), exchange rate, cultural distance, geographic distance, and political risk were all significantly associated with FDI flows into the US. The multidimensional approach is a ppealing because it cuts across disciplines: it views FDI in light of economic, sociological, political, historical, and managerial perspectives. In general, the economic perspective focuses on market characteristics and efficiency-gaining motives for FDI. For example, if labour costs in foreign countries are lower than in the home country, there is disequilibrium and firms may invest abroad to take advantage of the cost savings. Socio-political arguments focus on the effects of the macro business environment on firm operations. For example, the degree of market orientation of the government, infra structure and legal environment will affect firms decisions to expand internationally. Geographic arguments, in general, focus on transportation and communication costs involved in managing and controlling dispersed international operations. For example, Germany and Switzerland are physically (geographically) close together; therefore, the costs of inter-nation investments are lower relat ive to another pair of countries that is further apart geographically (e.g., Germany and Brazil). Don’t waste time! Our writers will create an original "Understanding The Term Foreign Direct Investments Finance Essay" essay for you Create order ii. Issue arising as a result of establishing a presence abroad. Each year, hundreds of established and growing companies consider international expansion as a marketing and growth strategy. When developing a strategic plan to launch an international mergers and acquisition (MA) program, financial executives and their advisors must always consider the potential barriers and adjustments that might need to be made to maximize share holder value in a given transaction or in the execution of the given international market penetration strategy as discusses below. The Obstacles are In determining our ability to offer products and services abroad, consider the following: Language barriers Although it may seem simple enough at the outset to evaluate the features of a given product, service, or opportunity into the local language, marketing the services and/or the product may present unforeseen difficulties if the concept itself does not translate well. The target countrys standards for humor, accepted puns or jargon, or even subtle gestures may not be the same as your domestic countrys norms or idioms and may need to be adjusted accordingly. Marketing barriers. These types of barriers most frequently go to the deepest cultural levels. For example, whereas many overseas markets have developed a taste for fast food burgers and hot dogs, differences in culture may dictate that the speed aspect is less important. Many cultures demand the leisure to be able to relax on the premises after eating a meal rather than taking a meal to go. These cultural norms can, in turn, be affected by factors such as the cost and availability of retail space. Direct and subtle messages in advertising campaigns may need to be modified, the appeal of using a particular celebrity in a campaign may vary, and the channels for promotion may also need to be modified to meet the educational patterns and needs of the local consumer. Even marketing methodologies may need to be modified. In certain cultures, coupons are widely accepted and used by people who are both rich and poor (such as in the United States) but in other cultures, coupons are not widely used or accepted . In some cultures, even the use of comparative advertising, which is now commonplace in the United States, could be viewed as offensive or destructive. Legal barriers. Tax laws, customs laws, import restrictions, corporate organization, and agency/liability laws must all be researched by the company and its counsel. Domestic legislation needs to be examined as well for issues arising under labour law, immigration law, customs law, tax law, agency law, and other producer/ distributor liability provisions. Governmental Barriers The foreign government may or may not be a barrier for the foreign investment or expansion of a company. A given countrys past history of expropriation, government restrictions, and limitations on currency repatriation may all prove to be decisive factors in determining whether the cost of market penetration is worth the benefits to be potentially derived. Export regulatory requirements Any company which think of doing business or acquiring businesses either in a large scale or even a small transaction should always consider the implications and requirements of a body of the country. The regulations are define as the export controls (Andrew 2007). For instance when we consider a developed country like U.S it is incumbent and companies that sell, ship or transfer electronic goods determine controls or restrictions apply or selling. Hereby I conclude that when a company looking forward for the investing in a foreign country should always think of the pros and cons. There are various trade compliance services available for hire in order to help the exporters. Compliance guidelines and the specific requirements are available on web as well as there are number of agencies available in order to give the relevant information on the foreign direct investment.

Proposed Vibration Monitoring And Analysis Engineering Essay Free Essays

Vibration is a broad capable country that has continued to pull research over the old ages because of its import in about every aspect of daily life. From aircraft patterning to constructing design in temblor prone parts of the universe ; from plus status monitoring in assorted industrial workss to wheel reconciliation and alliance at the local auto garage, an application of the cognition of quiver rules can be observed. The quiver of an object can merely be referred to as the oscillating motion of that object about a average equilibrium place. We will write a custom essay sample on Proposed Vibration Monitoring And Analysis Engineering Essay or any similar topic only for you Order Now The gesture is brought approximately by the application of some force or excitement. Common illustrations of this phenomenon include the gesture of plucked guitar strings, the gesture of tuning forks, and the shaking felt at the station floor when a train base on ballss, the agitating observed on the route when a heavy truck base on ballss or the rattle of the route workers ‘ impact cock. Some quiver nevertheless is non every bit pronounced as the illustrations given. For case houses and Bridgess vibrate every bit good. Normally, these quivers can non be detected by simply looking. When the excitement is big plenty, the vibrational gesture can be seen and this would likely ensue in the prostration of the construction. From the foregoing, it can be seen that some quiver is utile while some is destructive. The failure or devastation brought about by quiver is non an immediate 1. Vibration finally leads to a fatigue failure and this should be of involvement to the operators and upholders of works equipment. For the care applied scientist or plus direction practician, these facts about quiver can be translated to intelligent and informed determinations for industrial workss. With legion different devices, quiver degrees on works equipment can be detected, measured and recorded. It is possible to analyze the informations collected to find the status of an plus and even predict an at hand failure. All revolving or stationary works equipment have acceptable quiver degrees stipulated by criterions such as the International Organization for Standardization ( ISO ) Codes or developed in-house by Vibration Monitoring Engineers. A divergence from the acceptable quiver degrees is an indicant of the oncoming of impairment which is unwanted. This cognition gives insight into the existent status of a piece of equipment, eliminates guessing and enables the care applied scientist to be after a fitting response to the plus ‘s impairment. Such control and planning can take to a immense economy in care costs, prevent unneeded downtime, better safety and public presentation for any plus. Furthermore, quiver monitoring and analysis incorporates some advanced techniques for the find of the root cause of frequent machinery failures. Using these techniques can intend the difference between changeless dislocations and good plus handiness. It is the aim of this study to supply a clear cut proposal as to how to work out the job of the frequent failures of the Yoho High Pressure ( H.P. ) Flare Scrubber Pumps by the application of these advanced quiver analysis techniques and besides supply a method for supervising the status of the pump to pre-empt any impairment that can jump surprises. This will guarantee a decrease in present care costs and relieve the work load of care forces whose clip is tied up with the attention of these pumps. Case Study and job Description The Yoho H.P. Flare Scrubber pumps are perpendicular, turbine, submerged pumps that transfer cured liquids from the Flare Scrubber vas to the chief petroleum oil production heading on the Yoho offshore oil and gas installing. The pumps are submerged in barrels that receive provender from the H.P. scrubber vas by gravitation. The cured liquid is a mixture of H2O and light petroleum oil. There are three pumps on skid and these pumps are critical to works operations. One pumps runs at a clip and an extra pump or the other two pumps can be put in service, if the demand arise due to an increasing degree of liquid in the H.P. Flare Scrubber. In the event of an outage of all three pumps, the works could lose production to the melody of one hundred 1000 barrels of rough oil per twenty-four hours ( 4100 barrels/hour ) . The pumps were commissioned in 2006 at works start-up and hold had legion failures since. They have proven undependable and soon a contractor ‘s pumps ( which are portable and of a different design ) , are relied upon to execute their map. There have been occasions when all three pumps are in a province of disrepair. These pumps normally run swimmingly for a piece and so go noisy, vibrate and eventually neglect. After a pump fails, it is taken out of the hole, sent to the shore-base for fix, sent back to the platform for reinstallation and so reinstalled. Probes of the legion failure instances reveal that the pump bearings, riser line drives and bushings have worn out given room for shaft drama, impeller harm and mechanical seal failure. Installation, fix and rebuild processs have been scrutinized and checked for quality. This has non yielded any dividends nevertheless, as the pumps maintain neglecting after two or three months in service. Fig. 1. overleaf shows a cut-away subdivision of the pumps. The diagram is supplied by the makers but is simplified as the existent H.P. Flare Scrubber pump has six impellers, a top column of 11inches length, two intermediate columns of 30 inches length, a bottom column of 30 inches length, and a pump bowl assembly of 36.25 inches length. The length of the pumps makes it hard for remotion and installing and as such care practicians, works operators and works direction have been invariably distressed by the frequent failure of these pumps. Fig. 1. Gould Pump Model VIC-T ( beginning ITT-Gould Product catalogue, [ online ] www.gouldspumps.com/pump_VIC.html [ Accessed 6th May 2010 ] Pump Specification Manufacturer: ITT-Gould Head shaft Length: 129 Inchs Head shaft Diameter: 1 Inch Seal Method: Mechanical Sealing wax Drive: 40 HP Electric Motor Differential Pressure: 200 Pounds per square inch Capacity: 180 Gallons per Minute Revolutions per minute: 3000 Impeller: 5 Weathervanes, Enclosed Failure and Maintenance History The tabular array below shows the failures and some care activities performed on the three H.P. Flare Scrubber Pumps over a biennial period. The rows 69, 71, 72, 90,91,97,98,102,103 and 110 show times when none of the three pumps were operational. The cost of this inaccessibility of the pumps is multiplex. It ranges from the loss of production of about one hundred 1000 barrels of rough oil per twenty-four hours, to punishments for non-compliance with environmental ordinances and most significantly, safety. Signal-to-noise ratio Date EVENT/ACTIVITY EQUIPMENT TAG NO. OF PUMPS AVAILABLE COMMENTS/ FINDINGS 1 11-Jan-06 HP Flare Scrubber Pump B Auto Operation job YP-G-180 3 A 2 12-Jan-06 Trouble-shooting of LSLL-6207 on HP Flare Scrubber YP-G-180 3 A 3 1-Mar-06 PM on HP Flare Scrubber Pumps A and B YP-G-180A/B 3 A 4 11-Mar-06 Pumps Operation Started YP-G-180A/B /C A Earliest recorded day of the month of petroleum and produced H2O motion with YP installations 5 5-Jun-06 Test-run HP Flare Scrubber Pump C with quiver group, QIT to find cause of inordinate quiver YP-G-180C 3 Expecting consequence 6 7-Jun-06 Investigating cause of inordinate quiver on HP Flare Scrubber Pump C YP-G-180C 3 Vibration traced to damaged Mech. Sealing wax 7 9-Jun-06 Removed HP Flare Scrubber Pump C for fixs YP-G-180C 2 A 8 9-Jun-06 Unblocked strainers on HP Flare Scrubber Pumps A A ; B YP-G-180A/B 2 A 9 12-Jun-06 Rectified hapless discharge and noisy operation on HP Flare Scrubber Pumps A A ; B YP-G-180A/B 2 A 10 19-Jun-06 PM on HP Flare Scrubber Pump A YP-G-180A A A 11 3-Jul-06 Completed installing of HP Flare Scrubber Pump C YP-G-180C 3 A 12 4-Jul-06 Removed HP Flare Scrubber Pump B for fixs in QIT YP-G-180B 2 A 13 15-Jul-06 Remove and clean HP Flare Scrubber Pump C suction strainer YP-G-180C 2 A 14 12-Aug-06 Remove and clean HP Flare Scrubber Pump C suction strainer YP-G-180C 2 A 15 24-Aug-06 Remove and clean HP Flare Scrubber Pumps A A ; C suction strainer YP-G-180A/C 2 A 16 27-Aug-06 Rigged out HP Flare Scrubber Pump A and transferred to lading bay YP-G-180A 1 A 17 30-Aug-06 Rigged in HP Flare Scrubber Pump B after QIT fixs YP-G-180B 2 A 18 2-Sep-06 Removed shaft matching on HP Flare Scrubber pump B, removed motor and installed motor from pump Angstrom YP-G-180A/B 2 Electricians look intoing high electromotive force on motor 19 3-Sep-06 Transfer motor, pump and all associated parts from YP-G-180B to G-180A YP-G-180A/B 1 A 20 4-Sep-06 Installed pump caput, motor and shaft hub on HP Flare Scrubber Pump A YP-G-180A 1 A 21 5-Sep-06 Carried out matching runout cheques, impeller lift ( Reinstallation ) on pump Angstrom YP-G-180A 2 A 22 8-Sep-06 PM on HP Flare Scrubber Pump C YP-G-180C 2 A 23 11-Sep-06 Remove and clean HP Flare Scrubber Pump C suction strainer YP-G-180C 2 A 24 29-Oct-06 Bleed off gas from HP Flare Scrubber Pump C suction and discharge line YP-G-180C 2 A 25 12-Nov-06 Replacement of Mech. Seal on Pump C YP-G-180C 1 A 26 13-Nov-06 Removed HP Flare Scrubber Pump C for fixs in QIT YP-G-180C 1 A 27 28-Nov-06 Reinstallation of Pump C YP-G-180C 1 A 28 2-Dec-06 Completed installing of HP Flare Scrubber Pump C and test-ran it. YP-G-180C 2 A 29 21-Dec-06 PM on HP Flare Scrubber Pumps A and C YP-G-180A/C 2 A 30 6-Feb-07 Commenced installing of pump B YP-G-180B 2 A 31 7-Feb-07 Continued installing of pump B YP-G-180B 2 Expecting Mech. Sealing wax 32 24-Apr-07 Installation of Mech. Seal on Pump B YP-G-180B 2 A 33 25-Apr-07 Completed Mech. Seal Installation of Pump B YP-G-180B 3 A 34 28-Apr-07 Troubleshoot overload trip mistake on Pump B YP-G-180B 3 A 35 30-Apr-07 Rechecked alliance of Bump B YP-G-180B 3 A 36 1-May-07 Rectified overload trip on Pump B- cleaned recess strainer YP-G-180B 3 Discharge line was filled with sand and sludge 37 14-May-07 Mech. Seal replacing on Pump C YP-G-180C 2 Shaft worn around Mech Seal 38 15-May-07 Rigged out HP Flare Scrubber Pump C for fix at QIT YP-G-180C 2 A 39 27-May-07 Troubleshoot high quiver on Pump B YP-G-180B 2 A 40 30-May-07 Removed HP Flare Scrubber Pump B for fixs in QIT YP-G-180B 1 A 41 1-Jun-07 Assessed stuffs for stiff valves associated with pumps YP-G-180A/B /C 1 A 42 3-Jun-07 Reinstallation of Pump C YP-G-180C 1 A 43 6-Jun-07 Completed Pump C Installation YP-G-180C 2 A 44 7-Jul-07 Reinstallation of Pump B YP-G-180B 2 A 45 10-Jul-07 Completed Pump B Installation YP-G-180B 3 A 46 13-Jul-07 Troubleshoot frequent tripping of Pump B YP-G-180B 3 Electric motor job. This was fixed 47 21-Jul-07 Rigged out HP Flare Scrubber Pump A and transferred to lading bay YP-G-180A 2 A 48 22-Jul-07 Rigged out HP Flare Scrubber Pump B and installed in A barrel YP-G-180A/B 1 Pump B becomes Pump A 49 23-Jul-07 Alliance and commissioning of Pump A YP-G-180A 2 A 50 26-Jul-07 Remove and clean HP Flare Scrubber Pumps A A ; C suction strainers YP-G-180A/C 2 A 51 10-Aug-07 Rigged out HP Flare Scrubber Pump A and transferred to lading bay YP-G-180A 1 A 52 17-Aug-07 Commenced installing of pump Angstrom YP-G-180A 1 A 53 18-Aug-07 Continued installing of pump Angstrom YP-G-180A 1 A 54 22-Aug-07 Alliance and commissioning of Pump A YP-G-180A 2 A 55 11-Sep-07 PM on HP Flare Scrubber Pump A YP-G-180A 2 A 56 17-Oct-07 Removal and resettlement of Pump A to Pump B barrel YP-G-180A/B 2 Pump A becomes B 57 21-Oct-07 Investigate low discharge force per unit area on Pump B YP-G-180B 2 A 58 22-Oct-07 Replacement of Mech. Seal on Pump C YP-G-180C 2 A 59 23-Oct-07 Rigged out HP Flare Scrubber Pump B and transferred to lading bay YP-G-180B 1 A 60 24-Oct-07 Rigged out Pump A barrel for leak fixs by FMS YP-G-180A 1 A 61 25-Oct-07 Rigged in Pump A barrel after leak fixs by FMS YP-G-180A 1 A 62 28-Oct-07 Commenced installing of pump Angstrom YP-G-180A 1 A 63 29-Oct-07 Completed installing of pump Angstrom YP-G-180A 2 A 64 31-Oct-07 Remove stiff hub from Pump B Motor YP-G-180B 2 A 65 3-Nov-07 Remove Motor to W/Shop to bore and tap broken bolts of Motor Fan Cover A 2 A 66 29-Dec-07 Remove damaged pump C and commenced installing of refurbished pump YP-G-180C 1 A 67 30-Dec-07 Rig out Pump C due to miss of keyway on shaft YP-G-180C 1 A 68 1-Jan-08 Transferred bad pump to lading bay for QIT W/Shop A 1 A 69 8-Jan-08 Removed HP Flare Scrubber Pump A for fix in QIT YP-G-180A 0 A 70 9-Jan-08 Installed Flare Scrubber Pump A YP-G-180A 1 A 71 10-Jan-08 Removal of Pump A YP-G-180A 0 Pump stiff. 72 12-Jan-08 Commenced installing of pump Angstrom YP-G-180A 0 A 73 13-Jan-08 Completed installing of pump Angstrom YP-G-180A 1 A 74 27-Jan-08 Rigged in Pump B and commissioned same YP-G-180B 2 A 75 4-Mar-08 PM on HP Flare Scrubber Pumps A A ; B YP-G-180A/B 2 A 76 13-Apr-08 Removal and resettlement of Pump A to Pump C barrel YP-G-180A/C 1 Pump A barrel leaking petroleum from cut bleed line. Pump A becomes C 77 14-Apr-08 Commenced installing of pump C YP-G-180C 1 A 78 15-Apr-08 Completed installing of pump C YP-G-180C 2 A 79 17-Apr-08 Rigged out HP Flare Scrubber Pump B and transferred to lading bay YP-G-180B 1 A 80 A A A A A 81 18-Apr-08 Removal of dust from Pump barrel YP-G-180B 1 A 82 21-Apr-08 Commenced installing of pump B YP-G-180B 1 A 83 22-Apr-08 Completed installing of pump B YP-G-180B 2 A 84 9-May-08 Commenced set uping out Pump C YP-G-180C 1 A 85 10-May-08 Completed set uping out Pump C YP-G-180C 1 A 86 17-May-08 Commenced installing of pump C YP-G-180C 1 A 87 18-May-08 Completed installing of pump C YP-G-180C 2 A 88 20-May-08 Rectified failure to raise on Pump B YP-G-180B 2 A 89 23-May-08 Rigged out HP Flare Scrubber Pump B for QIT fixs YP-G-180B 1 A 90 26-May-08 Rigged out HP Flare Scrubber Pump C for QIT fixs YP-G-180C 0 A 91 27-May-08 Commenced installing of pump B YP-G-180B 0 A 92 28-May-08 Completed installing of pump B YP-G-180B 1 A 93 13-Jun-08 Commenced installing of pump C YP-G-180C 1 A 94 14-Jun-08 Completed installing of pump C YP-G-180C 2 A 95 17-Jun-08 Rigged out HP Flare Scrubber Pump B for QIT fixs YP-G-180B 1 A 96 17-Jun-08 Troubleshoot failure to raise on Pump C YP-G-180C 1 A 97 18-Jun-08 Rigged out HP Flare Scrubber Pump C for QIT fixs YP-G-180C 0 A 98 20-Jun-08 Commenced installing of pump B YP-G-180B 0 A 99 21-Jun-08 Completed installing of pump B YP-G-180B 1 A 100 22-Jun-08 Reconfirmed Pump B alliance YP-G-180B 1 A 101 24-Jun-08 PM on HP Flare Scrubber Pump B YP-G-180B 1 A 102 26-Jun-08 Rigged out HP Flare Scrubber Pump B for QIT fixs YP-G-180B 0 A 103 30-Jun-08 Commenced installing of pump B on freshly designed base YP-G-180C 0 FMS welding / design inaccurate. Pump pulled out to C-Barrel 104 1-Jul-08 Completed installing of pump C YP-G-180C 1 A 105 5-Jul-08 Swapped Barrel B to ‘A ‘ Position YP-G-180A 1 A 106 11-Jul-08 Investigated unusual noise on Pump C YP-G-180C 1 A 107 22-Jul-08 Worked with FMS to measure alteration of Pump bases YP-G-180A/B /C A A 108 26-Jul-08 Installed pump Angstrom YP-G-180A 2 A 109 29-Jul-08 Removed pump C YP-G-180C 1 A 110 31-Jul-08 Commence remotion of Pump A YP-G-180A 0 A Fig.2. Failure and Maintenance Summary for H.P. Flare Scrubber Pumps, YP Literature Review Graham and Nurcombe ( 2003 ) , observed that many perpendicular submergible pump failures happen instead out of the blue, without due warning and rough economic climes and competition has become an inducement for equipment operators to want to acquire the best service out of their equipment. This translates to higher life anticipation with works equipment and as such status supervising engineerings such as Vibration, Lubricant and Exhaust gas analyses have become really popular to forestall unwanted and unplanned machinery outages. Of the afore-mentioned techniques, Vibration analysis they say, is likely the most of import because of its proved efficaciousness and global credence in many industries. In a instance history of submergible pumps at Saudi Aramco, they highlighted the demand to cognize the status of the pump internals which were submerged in liquid and are normally without status monitoring. ISO codes specify that bearings be monitored but this is non straight done for submerged pumps because the bearings are usually unaccessible. Alternatively, ISO allows measurings to be taken from the accessible parts of the machine i.e. from the Electric motor and the downside of this is that plentifulness of quiver information gets losing or attenuated. A batch of the mistakes associated with perpendicular submergible pumps nevertheless arise from those unaccessible places e.g. cavitation, flow induced quiver etc. , and as such supervising the status of the submersed parts straight provides a valuable beginning of information for predictive and diagnostic steps that can do large cost nest eggs for equipment operators. They have developed and tested transducers and quiver monitoring equipment which can be used to straight acquire information from the submerged pump parts. It is non plenty merely to supervise the quiver status of these pumps nevertheless. The job at manus is that of the frequent failures of the H.P. Flare Scrubber pumps from the very clip they were commissioned. Installing the submergible quiver monitoring devices would decidedly assist to foretell the failures but would make nil to place the implicit in cause of the frequent failures. So, the failures might be predicted but would go on often however. The root-cause of these failures demands to be identified so that a permanent solution can be developed. Vibration analysis besides makes this possible. Sinha ( 2008 ) shows that site installing of machines has effects on their quiver and dynamic features, even when they are good designed. He points to the fact that many freshly installed machines vibrate severely and neglect often merely as has been described in the debut and in the care history of the H.P. Flare Scrubber pumps. Hence it is of import to decide any machine installing jobs if equipment handiness is desired. A quiver analysis and dynamic word picture technique known as Modal Testing can be used to uncover the natural frequences of the machine installing assembly and the operating velocity checked to see if near to any of the natural frequences. Operating machines at velocities at or shut to structural natural frequences brings about resonance which is seen as inordinate quiver. This trial makes it possible to place the right places on the construction to use stiffening in order to cut down quiver by modifying the structural natural frequences. He gave some illustration s were these had been done successfully to extinguish frequent machinery failures. DeMatteo ( 2001 ) presents a instance survey of how the quiver analysis methods of Modal Testing and Operating Deflection Shape have been used to work out the job of inordinate quiver on perpendicular pumps which are similar to the H.P. Flare Scrubber pumps. A common yet enfeebling mistake for these pumps is cavitation. A mentioned earlier, it occurs at the submersed parts of this pump where there is no status monitoring as of the present. Cavitation is a phenomenon that takes topographic point in these kinds of pumps when the impact of a fall ining vapor of the fluid been pumped causes harm to the impellers and other pump internals. Vapour-bubbles can be formed within the wired fluid at low force per unit area pump internals as a consequence or restricted suction, fluctuating liquid degrees of the H.P. Flare Scrubber vas etc. When these bubbles move on to higher force per unit area countries within the pump, they collapse and cause harm to the pump. Wilcoxon Research says that, â€Å" The prostration of the bubbles is a violent procedure that creates an impacting action inside the pump. This impact will excite high frequence resonances in the pump construction. † For this ground, they advocate the usage of quiver detectors in pum ps. Cernetic ( 2009 ) says in the same vena, that quiver signals should be used to observe cavitation at the early phases of development since this phenomenon causes pump harm and a decrease in efficiency. From the foregoing, the instance for forestalling failures is being made and the demand for Condition Based Maintenance ( CBM ) emphasised. Prickett and Eavery ( 1991 ) compared preventative care and Breakdown care with CBM. CBM is shown to be cheaper and as such is required for the H.P. Flare Scrubbers if concern profitableness and equipment handiness are desired. Overview of Proposed Vibration Monitoring and Analysis Based Solution to Frequent Failures First and first, it must be ascertained that the site installing of the three pumps is non doing any quiver jobs. The Vibration analysis techniques of Modal Testing and Operating Deflection Shape are proposed for usage to find the root-cause of the frequent failures. Modal proving on the one manus would demo structural natural frequences, node points and manner forms for the three pumps. The manner form is the warp of the construction at any natural frequence. This information would assist to find: if operating velocity is perilously close to the structural natural frequences, the dynamic feature of the construction and the points of least or no warp on the construction ( nodes ) – where supports or stiffening may be added in order to relieve quiver degrees. The Impact cock method shall be used to transport this trial out, in situ. The Operating Deflection Shape ( ODS ) on the other manus, would as the name implies show the warp of each pump construction at the operating frequence of 50Hz ( 3000RPM ) . In other words, the ODS would demo the consequence of the operating velocity on assorted parts of the construction and it can be seen if points on the construction vibrate in stage or non. Should parts of a construction non travel in stage with the other parts, destructive burden can happen which can give rise to frequent failures. Transporting out these trials as mentioned above would place jobs with the installing. Solving the installing jobs would extinguish the frequent failures. The solution as mentioned earlier, normally involves the application of supports in identified places or the stiffening of bing supports. After the installing jobs are taken attention of, it is proposed that for good mounted quiver detectors are put in topographic point. For the open parts of the pump assembly i.e. the electric motor, it is proposed that two accelerometers be mounted at each of the antifriction bearing lodging countries. The accelerometers would be stud mounted at each bearing lodging at right angles apart. Having these accelerometers installed in add-on to the analysis of the generated signals would do it possible to observe bearing mistakes at their incipient phases, such that something could be done to forestall a more dearly-won harm to the whole pump assembly. As for the submersed parts of the pump, i.e. the journal bearings, the shaft, the impeller/bowl assembly, the Bently Nevada designed submergible propinquity investigations are proposed for usage to supervise the quiver and give diagnostic and prognostic capablenesss for such mistakes as cavitation, impeller harm, weariness shaft cleft, instability etc. , which are the common mistakes of machinery such as these and can merely be detected by submersed detectors. Understanding what goes on in the pump hole is critical to maintaining the pump healthy. For case cavitation can be detected on clip with these investigations, procedure conditions changed and the dependability of the pumps maintained. The quiver information collected by these detectors would be analysed and used to do quality determinations sing the needed care responses. Analysis techniques would include frequence spectrum analysis, envelope analysis, polar secret plans, orbit secret plans etc. This three prong attack is strongly believed to extinguish the frequent failures, cut down the overall care costs and assist in guaranting the handiness of the three H.P. Flare Scrubber Pumps. The techniques shall be expounded in more item within this study and all the necessary tools and quiver signal processing methods shall be specified. In-Situ Modal Testing for the Pumps This quiver trial is to uncover any jobs with the installing of the pumps which might be responsible for the frequent failures experienced within the past few old ages. In this trial, the natural frequences, manner form and nodes will be determined for each pump construction. An instrumented cock would be used to provide impact or energy to each construction at a known frequence and responses measured. When there is resonance, elaboration would be seen in the response spectrum. A Frequency Response Function ( FRF ) is obtained utilizing the force and the response spectra. The response can be represented as: FRF= = A + J B Where A= Real Part, B= Imaginary Part and Phase = At Resonance, the exciting frequence from impact cock = Natural Frequency of Pump Structure. A 0, B gives the Mode Shape, and Phase 90A ° The computations are performed and graphs displayed by the FFT ( Fast Fourier Transformation ) Analyzer as shown below. Fig. 3. Time sphere and frequence sphere signals. ( Beginning: M14 Lecture Notes, 2010, MSc Maintenance Engineering and Asset Management, University of Manchester ) The FRF shows frequence extremums which may or may non be structural natural frequences. However, for the structural natural frequences, the relationships shown supra would all use. The existent portion of the curve ( A ) would go through through nothing and the stage would alter by 90A ° . The fanciful portion of the FRF gives the manner form. So, the needed equipment for the unmoved average testing of the pump constructions are as follows: Some accelerometers positioned along points on a pump construction ( accelerometers can be secured by magnetic agencies ) An instrumented cock An FFT Analyzer Cable connexions for cock and accelerometers to analyzer Post Processing Software. The diagram below shows the layout for the trial. The instrumented cock is used to excite the pump construction and the responses taken from the measuring points and analysed to give all the information required i.e. manner form, nodes and natural frequences. Fig.4. Schematic of Vertical Pump Impact Test Fig. 5. Impact Test and Modal parametric quantities ( beginning: Richardson M.H. ( 1997 ) , â€Å" Is It a Mode Shape, or an Operating Deflection Shape † , Sound and Vibration Magazine, 30th Anniversary Issue. ) Fig.6. Mode shapes from Imaginary Part of FRF ( beginning: Richardson M.H. ( 1997 ) , â€Å" Is It a Mode Shape, or an Operating Deflection Shape † , Sound and Vibration Magazine, 30th Anniversary Issue. ) Fig.7. Example of manner form obtained from pump modal proving. ( Beginning: Sinha J.K. , ( 2008 ) , â€Å" Vibration-based Diagnosis Techniques Used in Nuclear Power Plants: An Overview of Experiences † , Nuclear Engineering and Design, Elsevier B.V. , Volume 238, Issue 9, pp. 2439-2452. From the attendant manner forms and ascertained natural frequences, penetration can be obtained as to the exact places for stiffening application or mass remotion in order to alter the natural frequences. Experience has shown that resonance in these kind of instances is due to the intimacy of the operating velocity ( runing frequence or 1x ) or multiples thereof, to one or more structural natural frequences. For the pump described in fig.7. above, the job was solved welding a thick home base to the stool in order to stiffen it and by put ining extra u-bolts on the discharge line. Operating Deflection Shape The Operating Deflection Shape ( ODS ) merely shows how much the pump construction is traveling at a peculiar frequence ( most significantly, the normal runing velocity ) and how much difference there is in stage between different points of the pump construction as it operates. The set-up is merely as was used for the average testing. The difference nevertheless, is that the instrumented cock is non used to excite the construction. Alternatively the machine would be run at its normal operating velocity and quiver informations collected from the accelerometers is fed to the multi-channel analyser. The end product from the analyser is so fed into the computing machine which would hold installed specializer package for ODS show. The show would demo the existent quiver form of the construction. It would be clearly seen, if the pump construction is flexing, if parts are traveling out of stage with one another etc. It would be seen if any status exists which contributes to frequent failures. Fig.8. Example of Software Animation of ODS FRF informations. ( Beginning: Richardson M.H. ( 1997 ) , â€Å" Is It a Mode Shape, or an Operating Deflection Shape † , Sound and Vibration Magazine, 30th Anniversary Issue. ) It is proposed that both Modal Testing and ODS analysis be carried out by contractors who are specializers in the country of survey and have a proved path record of success. Proposed Permanently Mounted Vibration-based Condition Monitoring System Fig.9. Set-up of Proposed Permanently mounted quiver monitoring system for the H.P. Flare Scrubber Pumps ( Influenced by Fig.5. , Graham K.M. and Nurcombe B. , ( 2003 ) , â€Å" Vertical Water Pumps- What ‘s Happening Down The Hole † , Orbit Magazine, 1Q 2003, pp. 4-9 ) Fig. 10. Orthogonally mounted propinquity investigations [ on-line ] Available from: hypertext transfer protocol: //zone.ni.com/reference/en-XX/help/372416A-01/svtconcepts/obt_tbs_shctln/ [ Accessed 6th May 2010 ] The proposed for good mounted quiver monitoring and analysis system for each pump would hold the followers: Four Bently Nevada 330400 Accelerometers mounted as shown on the diagram Four 3300XL 8mm submerged Proximity Probes mounted in Custom Housings ( two each for two different journal places along shaft length ) A Bently Nevada 1900/65 General Condition Equipment Monitor A tacho-sensor for shaft place mention ( from any reputable manufacturer- Bently Nevada, SKF, Endevco ) and, A laptop with the Bently Nevada System 1 version 6.5 Diagnostic package installed for the analysis of information collected by any of the proctors. The accelerometers would be used to mensurate the quiver degrees of the anti-friction bearings on the pumps ‘ electric motors while the submersed propinquity investigations would mensurate shaft quiver, within the impeller shell and intermediate columns. All the transducer information would be collected by the 1900/65 proctor for each equipment. The proctors are designed for uninterrupted monitoring and readouts from them can be checked from clip to clip by dedicated forces or works operators. Besides, these proctors have the capableness of being tied into bing works control systems such that quiver warning degrees and danger bounds for each pump can be announced in control suites via hearable dismaies or visible radiations when these degrees are breached. Additionally, there is the capableness to configure trips and closures in the instance of high quiver degrees occasioned by mistakes such as cavitation. The proctors can be installed near to the equipment in sheltered enclosures, utilizing a short overseas telegram tally. The System 1 package is capable of advanced quiver analysis through the usage of shows such as Bode Plots, Spectral shows, Polar secret plans, Envelope analysis, etc. It is besides capable of informations acquisition and storage which makes swerving possible. Detailed specifications for the assorted equipment are supplied in the appendix. Signal Conditioning and Processing As is good known, the end product from the accelerometers and propinquity investigations are linear and clip sphere signals. These have to be converted to digital end products and frequence sphere signatures for mistake diagnosing to be carried out. This is achieved by the Fast Fourier Transformation ( FFT ) algorithm. Analyzing the frequences shown in a spectrum is indispensable for understanding implicit in machinery mistakes, as certain mistakes have distinguishable frequence features. For case, pump revolving velocity would be shown in the frequence spectrum and mistakes on the shaft could be presented as multiples of revolving frequence. The Bently Nevada 1900/65 proctor and System 1 package facilitate this. Fig. 11. Time sphere and frequence sphere signals. ( Beginning: M04 Lecture Notes, 2010, MSc Maintenance Engineering and Asset Management, University of Manchester ) The quiver measuring devices have been chosen carefully to understate the noise and unwanted intervention to measuring signals. The Bently Nevada 1900/65 has the capableness for low base on balls filtering and high base on balls filtering and these can be configured to accommodate user demands. This helps to extinguish the aliasing consequence and other instrument related noise. ( See merchandise specification sheet in appendix for inside informations ) . There is besides the capableness for envelope analysis by the usage of criterion or enhanced demodulation. This is supported by proctor and analysis package and is peculiarly utile for the early sensing of mistakes on the electric motor anti-friction bearings. Diagnosis Software Display Plots and Uses The following show some of the show plots that can be generated by the diagnostic package: Bode Performance map Rotor stator profile Rotor form Hydro air spread Phasor Histogram Octave Casacade/Full Casacade Current values Bar graph Machine train diagram Alarm/System event list Trend / Multivariable tendency Tabular list Time base ( with option for superposition of baseline informations ) Orbit / Time base ( with option for superposition of baseline informations ) Orbit ( with option for superposition of baseline informations ) Shaft mean center line Spectrum / Full spectrum ( with option for superposition of baseline informations ) Ten vs. Y Waterfall / Full waterfall Polar/Acceptance part Of the list above, accents would be placed on the Bode, Polar, Orbit, Shaft mean centreline and Waterfall secret plans. These secret plans can be used during normal and transeunt machine conditions to expose the normally experient mistakes. The Bode secret plan is really utile in placing the critical velocity ( natural frequence ) of a machine, as it shows the quiver behavior of the said machine during start-up or shut-down ( transeunt conditions ) . Fig. 12. Bode Plot Example. [ Online ] Available from: hypertext transfer protocol: //zone.ni.com/reference/en-XX/help/372416A-01/svtconcepts/bode_polar_plots/ [ Accessed 6th May 2010 ] The polar secret plan gives the amplitude of 1X ( machine RPM or runing frequence ) and its stage difference from the mention place. The amplitude and stage behaviors can be interpreted to existent equipment wellness or defect. Fig. 13. Polar Plot illustration [ online ] Available from: hypertext transfer protocol: //zone.ni.com/reference/en-XX/help/372416A-01/svtconcepts/bode_polar_plots/ [ Accessed 6th May 2010 ] The Orbit secret plan hints out how the shaft is revolving within the bearing. This tells how much clearance exists between shaft and bearing wall. This information is priceless as it can be used to find bearing load alterations and the oncoming of bearing wear. Fig. 14. Orbit Plot illustration [ online ] Available from: hypertext transfer protocol: //zone.ni.com/reference/en-XX/help/372416A-01/svtconcepts/obt_tbs_shctln/ [ Accessed 6th May 2010 ] The Shaft centreline secret plan is used in much the same manner as the orbit secret plan in that it can be used to state how much wear has happened within a bearing. The secret plan checks the concentricity or eccentricity of shaft running within a diary bearing, as the name implies. Fig. 15. Shaft Centerline secret plan illustration [ online ] Available from: hypertext transfer protocol: //zone.ni.com/reference/en-XX/help/372416A-01/svtconcepts/obt_tbs_shctln/ [ Accessed 6th May 2010 ] The Waterfall secret plan is utile during the transeunt machine operations. It shows how frequency constituents such as 1X, 2X, 3X etc alteration with clip or any other variable. The information obtained can be used to do good judgements as to existent machine conditions. Fig. 16. Waterfall plot illustration [ online ] Available from: hypertext transfer protocol: //integratedpro.com/content/ ? p=1114 [ Accessed 6th May 2010 ] Diagnosis Chart Mistake Steady province Characteristic Transient State Characteristic Shaft hang-up 0.3 X shown in frequence spectrum, Funny Orbit secret plan forms and discontinuities thereof. Imbalance Merely 1X is seen in frequence spectrum, 1X additions with clip and the Phase angle alterations Bode Plot remains the same, There is no alteration in critical velocity or stage angle when compared with the healthy status. Misalignment ( or Preload in the instance of unstable bearings ) 1X,2X,3X,4X etc are shown in frequence spectrum, Phase angle remains changeless The orbit secret plan will non change with velocity and polar secret plan remains the same. Crack 1X, 2X, 3X, 4X etc are shown in frequence spectrum and these continually alteration in amplitude. The stage angle alterations every bit good. There is amplitude and phase alteration of 1X constituent in the polar secret plan, The orbit secret plan alterations from a figure eight form to a cringle incorporating a little cringle. Bend Merely 1X is seen in frequence spectrum, 1X additions with clip and the Phase angle alterations A signal alteration of stage takes topographic point at critical velocity. Mechanical Diarrhea Presence of 0.3X, 0.5X, 1X,1.5X,2x, 2.5X in frequence spectrum Motor Bearing Damage Bearing Characteristic Frequencies would be seen in spectrum Fluid induced instability The presence of 0.45-0.48 X in spectrum when fluid natural frequence is approached by circumferential velocity of fluid, stand foring Oil Whirl. The presence of 0.45-0.48 X in spectrum when fluid natural frequence is approached by circumferential velocity of fluid, stand foring Oil Whirl Oil Whip consequences when Pump System rotor natural frequence peers fluid ‘s. Fig. 17. Diagnosis Chart for common mistakes ( Beginning: Sinha J.K. , M14 Lecture notes 2010, MSc Maintenance Engineering and Asset Management, University of Manchester ) Fault Diagnosis Process The overall quiver degrees measuring would be the first phase of protection for the pumps. The ISO recommends the usage of RMS values of speed for overall quiver measuring. Limits for acceptable quiver would be set and configured into the Bently Nevada 1900/65 proctors in footings of Velocity ( RMS ) . These proctors can denote when the bounds have been breached and this would motivate farther probe and trials. These bounds can be obtained from ISO tabular arraies or decided upon in-house by the care applied scientist. The proctor would demo which peculiar detector or detectors has detected a mistake. Furthermore, the proctor and diagnosing package proposed are capable of informations acquisition and storage which make it possible for swerving. The tendencies would be observed hebdomadal and when a set quiver bound is approached, the frequence of review is increased and trials such as the 1s mentioned before can be carried out to determine the mistake type, so a fitting care response can be planned. Fig. 18. Swerving illustration ( beginning: M04 CBM Lecture notes ( 2010 ) , MSc Maintenance Engineering and Asset Management, University of Manchester ) The mistake diagnosing chart would be used in concurrence with the FMEA diagram, 1900/65 proctor event logs and assorted applicable show secret plans ( frequence spectrum shows, Bode secret plan, Polar secret plan etc ) to corroborate the exact mistake of the pumps. Pump related frequences would be noted such that when they appear in the frequence spectrum, they can easy be identified. FMEA, Symptoms of identified impairment mechanisms Potential Failure Mode Potential Effectss of Failure Potential Failure Causes Symptoms of identified impairment mechanisms 1 Antifriction Bearing mistake ( Electric motor ) Bearing Seizure, Misalignment, Damage to motor shaft, Mechanical seal failure. Poor lubrication, Resonance High Frequency Hump seen in Frequency spectrum related to bearing lodging natural frequence 2 Shaft Cracks Shaft Fracture, Loss of pump action Resonance, Manufacturing defects 1X, 2X, 3X, 4X etc are shown in frequence spectrum. These addition in amplitude over clip. 3 Cavitation Impeller Damage, Reduced end product, Pump loss. Process disturbances, Gas lock in Pump Barrel Noisy operation, High frequence extremums in spectrum 4 Imbalance Excessive Vibration, B Damage to bearings and Impellers, Pump loss. Wear, Impeller harm 1x constituent in frequence spectrum which increases in amplitude over clip. 5 Journal Bearing Wear Lateral shaft drama, Shaft harm Matching misalignment Noisy operation, Lateral shaft drama, 6 Impeller Damage Reduced end product, Pump loss, Imbalance, Improper assembly, Cavitation, Flow-induced quiver Blade Passing frequence nowadays in frequence spectrum ( 5X,10X etc ) 7 Bent Shaft Bearing harm, High quiver Matching misalignment, Resonance Axial quiver, 1X presence in frequence spectrum 8 Matching Misalignment Resonance, Damage to pump internals, Mechanical seal failure, Loss of pump. Improper assembly, Resonance 1X,2X,3X,4X etc are shown in frequence spectrum 9 Shaft hang-up Damage to pump internals, Mechanical seal failure, Loss of pump. Matching misalignment 0.3X, 0.5X presence in quiver spectrum secret plan 10 Diarrhea Damage to pump internals, Mechanical seal failure, Loss of pump. Resonance, Improper Assembly The presence of 0.5X, 1X, 1.5X, 2X, 2.5X etc in frequence spectrum Fig. 19. FMEA tabular array for pump and motor assembly. Cost and Man-Power Implications of Vibration Monitoring and Analysis Set-up The monetary values given are estimations based on monetary values obtained from assorted cyberspace shopping web sites. They are non unequivocal as Bently Nevada gives monetary values based on different functionality demands and applications worldwide. Item Measure required for all three pumps Unit Price ( $ ) Price ( $ ) Accelerometer, Bently Nevada 330400 12 500 6000 Monitor, Bently Nevada 1900/65 3 2500 7500 Submersible Proximity investigations, Bently Nevada 12 1000 12000 Tacho Sensor, Bently Nevada 3 300 900 Laptop 1 1000 1000 System 1 Diagnostic Software Licence, Bently Nevada 1 20000 20000 Training for quiver applied scientist ( from bing care administration ) 2500 Entire Price $ 49,900 Fig.20. Cost breakdown of needed equipment for for good mounted quiver monitoring and analysis system. At lease one applied scientist with accomplishments for quiver monitoring and analysis would be required to supervise the whole set-up. He must be trained and competent in the usage of assorted show secret plans, signal processing and conditioning, for mistake designation and sensing. This cognition can besides be used on other critical works equipment such as the gas turbines and the centrifugal gas compressor. The dynamic word picture trials are to be contracted out to see service suppliers with the equal hardware and package for real-time life of vibrational gesture. It is estimated that the cost of this service would be circa $ 100,000. This brings the expansive sum of the proposed quiver programme from the frequent pump failures solution to for good installed status monitoring to about $ 150,000. Benefits and Limits of the proposed Vibration-based Condition Monitoring System The proposed set-up for monitoring and analyzing the quiver from the pumps has rather a figure of benefits. From the concern point of position, it is an investing because it can forestall dearly-won failures. The dollar value of the pumps ‘ failure within the biennial period considered in this study easy exceeds $ 1million when fix costs, trim parts, logistics and man-hours expended are considered. For the care administration, the presence of these vibration-based status monitoring equipment, makes it possible for care to be pro-active instead than reactive. Furthermore, frequent failures are eliminated which give room for better planning and more clip for effectual and efficient care. The cost of the quiver monitoring and analysis equipment can be seen to be a little monetary value to pay for plus handiness, enhanced productiveness and even safety. The restriction to the proposed system is the accomplishment, cognition and competency of the applied scientist or applied scientists who are in charge of the set-up. The signals for any mistake status would ever be picked up by the monitoring equipment. The proper and accurate diagnosing of mistakes and subsequent care determinations made are the remit of the applied scientist ( s ) responsible for the vibration-based status monitoring programme. In add-on, quiver monitoring equipment could neglect and necessitate replacing. Decision A glimpse through the summarised failure and care history of the H.P. flair scrubber pumps for a two twelvemonth period reveals the sum of resources expended on them and their hapless handiness. Clearly so, something new and different from the old attacks should be attempted. This proposed system covers all the grounds- from installing jobs check, procedure vagaries that cause cavitation, to common mistakes experienced by revolving machines such as bearing defects and matching misalignments to advert a few. Besides, the proposed methods are tested and trusted and can lend to nest eggs in care cost, works handiness and safety which are cardinal public presentation indexs for most industrial workss. Appendix i- Bently Nevada 1900/65 Monitor [ Online ] Available from: www.ge-energy.com/prod_serv/products/oc/en/bently_nevada.htm [ Accessed 6th May 2010 ] Appendix ii- Bently Nevada 330400 Accelerometers [ Online ] Available from: www.ge-energy.com/prod_serv/products/oc/en/bently_nevada.htm [ Accessed 6th May 2010 ] Appendix iii- Bently Nevada System 1 Diagnostic Software [ Online ] Available from: www.ge-energy.com/prod_serv/products/oc/en/bently_nevada.htm [ Accessed 6th May 2010 ] Appendix iv- Vibration Severity Limits for Machines Fig. 21. ISO 10816 Vibration Severity Limit Chart Appendix v- Submersible Proximity Probes [ Online ] Available from: www.ge-energy.com/prod_serv/products/oc/en/bently_nevada.htm [ Accessed 6th May 2010 ] How to cite Proposed Vibration Monitoring And Analysis Engineering Essay, Essay examples

Ohio monologue from the play by Nick Zagone Essay Paper Example For Students

Ohio monologue from the play by Nick Zagone Essay Paper A monologue from the play by Nick ZagoneCAT: Hear that song? I love this song. It’s one of those songs you always hear, but you never know who plays it. I’ll probably never know. I don’t want to know now. It would probably ruin the feeling. Whenever I hear this song I always feel there should be credits rolling you know? Like it’s the end of something. The end of a movie. It just brings up so much†¦ that guitar. It’s concluding something. It’s talking. The credits are rolling over the lead actor’s dead body facedown in a gutter. The camera pans back. The rain is pouring down. And all that guitar can say is â€Å"Oh well.† â€Å"That’s Life. † â€Å"Whatever.† Every time I hear this song from now on I will remember this day and what happened and what I did. And I will remember this moment in time, right now, this exact place, the smell, everything†¦ and the scene will freeze and the credits will roll. I never want to know who plays this song. It would ruin everything.