Thursday, May 21, 2020
The Hypocrisy of Imperialism in Heart of Darkness
And indeed nothing is easier for a man who has, as the phrase goes, followed the sea with reverence and affection, than to evoke the great spirit of the past upon the lower reaches of the Thames...It had known and served all the men of whom the nation is proud, from Sir Francis Drake to Sir John Franklin, knights all, titled and untitled--the great knights-errant of the sea. (302) The unnamed narrator sits aboard a pleasure ship called the Nellie, along with four other men, including Marlow. The five men are held together by the bonds of the sea, yet are restless and meditative aboard the ship, waiting for something to happen. As darkness begins to fall, the men recall the great ships and explorers that have set forth from the Thames onâ⬠¦show more contentâ⬠¦Marlow, himself, claims to be well-aware that the Company operates for profit and not for the good of humanity, unlike the beliefs of his aunt and other Europeans. Marlow attributes this naà ¯vetà © to propaganda and the fact that women do not live in the same world as men- as fragile creatures, they must be protected from reality. Marlow seems to identify female figures as representatives of home. For Marlow, this is negative, as home indicates knowledge that has been derived from books and religion, rather than from experience. However, Heart of Darkness is not thoroughly demeaning towards fema les, as the story includes many influential and powerful women. Marlow s aunt, for example, was able to get him a job with the Company. In this section, Marlow also encounters two men who demonstrate the change that occurs within oneself while in Africa, due to exposure to the wilderness and colonial sites. Fresleven was Marlow s predecessor in the Company, who, by European standards, was a good and gentle man. However, Marlow is sent to recover Fresleven s bones from the centre of an African village, as he was killed violently after striking the village chief. This story indicates that either the European view of people is wrong and useless or that something in Africa makes men behave unusually. Such a transformation in character is supported by Marlow s encounter with the CompanyShow MoreRelatedHypocrisy of Imperialism in The Heart of Darkness by Joseph Conrad990 Words à |à 4 PagesThe Heart of Hypocrisy The Heart of Darkness by Joseph Conrad is a frame narrative which creates a clear and organized structure. This structure helps emphasize upon the hypocrisy of imperialism in the novel and Marlowââ¬â¢s journey to discovering his true identity. The orderly and systematic nature of the structure corresponds with the Company in the novel and how it seems so structured on the outside while their mission is actually extremely chaotic underneath as displayed by Kurtz. The cyclicalRead MoreAnalysis Of The Book Heart Of Darkness 1571 Words à |à 7 PagesEstuary. Heart of Darkness explores the issues surrounding imperialism in complicated ways. As Marlow travels from the Outer Station to the Central Station and finally up the river to the Inner Station, he encounters scenes of torture, cruelty, and near-slavery. At the very least, the incidental scenery of the book offers a harsh picture of colonial enterprise. The impetus behind Marlowââ¬â¢s adventures, too, has to do with the hypocrisy inherent in the rhetoric used to justify imperialism. The men whoRead MoreCompare Themes of Heart of Darkness and Tess of the DUrbervilles1427 Words à |à 6 PagesThroughout the two novels, Thomas Hardyââ¬â¢s ââ¬Å"Tess of the dââ¬â¢Urbervillesâ⬠and Joseph Conradââ¬â¢s ââ¬Å"Heart of Darkness,â⬠the common theme of oppression by using psychological methods prevails. Tessââ¬â¢ parents and Alec can control her by leveraging guilt as a way of victimization which ultimately seals her fate. Mr. Kurtz inâ⬠Heart of Darknessâ⬠takes control over the weaker African natives to force them into submission. Both stories have this underlying theme of power and domination resulting in feelings ofRead MoreHeart Of Darkness By Joseph Conrad1436 Words à |à 6 PagesIn Joseph Conradââ¬â¢s, Heart of Darkness one encounters the telling of Conradââ¬â¢s adventures on a steamship traveling up the Congo when numerous, drastic accountancies take place. During this Victorian age, men are seen as heroes and women are occupied by roles of domesticity, which ironically the story tells quite the opposite from these two ideals. Throughout the text, one will also learn from the imperialistic society that is set forth by the Europeans and the controversy that arises because of theRead MoreShakespeare s Heart Of Darkness1424 Words à |à 6 Pages Relevance of Heart of Darkness Alexander Spirovski LITR 211 Professor David Auchter ââ¬Æ' Joseph Conrad s Heart of Darkness contains both relevant and irrelevant elements to today s society. Issues present in the text such as imperialism, racism, and moral ambiguity are still present today but their formats have changed enough in society that Heart of Darkness approaches obsolescence in perspective. Concurrently, the characters and theme presented in Heart of Darkness are scarce in fictionalRead MoreAnalysis Of Heart Of Darkness By Joseph Conrad1188 Words à |à 5 PagesRomantic views, rather than a reaction. The Novella, ââ¬Å"Heart of Darknessâ⬠by Joseph Conrad shows the transition from Romantic to Modernism, not as an opposing idea, but an evolution of it. From the start, we are presented with a rather Romantic introduction, stories of heroic adventures, of travellers going to new lands. These ideas of Imperialism and Colonialism are two massive Romantic ideals. Not only does Conrad point out the hypocrisy of Imperialism, but he also shatters the Romantic idea of the ââ¬ËHeroicRead MoreThe Journey In ââ¬Å"Heart Of Darknessâ⬠Spans Not Only The Capricious1222 Words à |à 5 PagesThe journey in ââ¬Å"Heart of Darknessâ⬠spans not only the capricious waters extending our physical world, but also the perplexing ocean which exists in the heart of man. Through Marlow s somewhat overenthusiastic eyes, we perceive the mystery that is humanity, and the blurred line between darkness and light. It is an expedition into the deepest crevices of the human heart and mind bringing on an awareness, and finally descending into the abyss of hell abiding in each of us. 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Wednesday, May 6, 2020
Cigarette Smoking The Deadliest Artifact Ever Invented
The cigarette is the deadliest artifact ever invented. Cigarettes execute around 6 million individuals consistently, a number that will develop before it contracts. Smoking in the twentieth century slaughtered just 100 million individuals, though a billion could die in our century unless we turn around course.1 Even if present rates of utilization drop consistently to zero by 2100, we will in any case have around 300 million tobacco passing this century. The cigarette is additionally a blemished item, which means risky as well as absurdly perilous, slaughtering a large portion of its long haul clients. The usage of cigarettes is the real reason for preventable and sudden passing and sickness around the world, as per the Centers of Disease Control and Prevention. Cigarettes smoking harms nearly every organ within the body, making it harder for the body to function, which will cause some type of environmental problem. Cigarette smoking should be banned, period, because it leads to heal th risks of yourself and others. Cigarettes are a cylindrical roll of finely cut tobacco cured of smoking, considerably smaller than most cigars and usually wrapped in thin white paper. At the point when a cigarette is lit and begins to blaze it discharges more than 4000 diverse chemicals. The cigarette is lighted toward one side and permitted to seethe; its smoke is breathed in from the flip side, which is held in or to the mouth; at times, a cigarette holder might be utilized, also. ââ¬Å"The first
Liquid Permeability of Porous Media Free Essays
string(44) " Elevated Pressure Test option is selected\." 1. 0Summary This experiment is conducted to determine the liquid permeability of porous media. The apparatus used in the experiment is the liquid permeameter. We will write a custom essay sample on Liquid Permeability of Porous Media or any similar topic only for you Order Now The liquid used in this experiment is water. Three membrane samples of different thickness (0. 1, 0. 2, 0. 3 cm) are used as the porous media. The determination of the permeability is carried out using elevated pressure test. Each sample is tested for 5 times at different values of pressure gradient which are 5, 10, 15, 20 and 30 psi. In order to obtain more accurate data, ensure that the membrane samples to be test is fixed tightly and covers the o-ring of the sample chamber completely. Values of volumetric flow rates are obtained from the apparatus itself. For pressure gradient of 5 psi and 30 psi, the average permeability for PP1 membrane sample are 0. 23993 cm2 @ 2. 33993? 10-5 m2 and 0. 096196 cm2 @ 9. 6196? 10-6 m2 respectively. For PP3 membrane sample, the average permeability are 0. 52692 cm2 and 0. 19841 cm2 for pressure gradient of 5 psi and 30 psi. For PP5 membrane sample, the average permeability are 1. 0541 cm2 and 0. 29489 cm2 for pressure gradient of 5 psi and 30 psi. The values of permeability obtained are then compared by plotting graphs of volumetric flow rate over cross sectional (q/A) against pressure gradient over thickness (? P/L). The gradient of the straight line from the graph is à µ/k. For PP1 sample membrane, the permeability obtained from the graph is k= 0. 000148 m2 for ? P=5psi and k= 0. 000062 m2 for ? P= 30 psi. Permeability obtained from the graph is compared with ones obtained from the liquid permeameter apparatus. Reynolds number for the tests at ? P=5psi is 5. 3913? 10-5 and for ? P= 30 psi is 1. 1147? 10-4. Laminar flow conditions exist so that Darcyââ¬â¢s equation is applicable. 2. 0 Introduction When fluid flows through a medium, the flow is affected by the property of the medium that allows the flow of the fluid through it. The property of the medium is called permeability. Permeability which is symbolized as k is the measure of the ability of a medium to transfer fluids. Permeability affects flow processes of fluids. An effective flow process can occur if the permeability of the medium where the fluids pass through is high. Concept of permeability is important in the oil and gas industry in which the permeability characteristic of rocks are determined in order to extract oil and gas from the subsurface reservoir. For example, sandstones are permeable and can transmit fluid effectively. This types of stones possessed large and many connected pores. They may content high quantity of oil. Shales and siltstones composed of fine grains and have less connected pores causing them to be less permeable or impermeable. Permeability of a medium can be easily determined from equipment with high technology. It is important to know the factors or component which may affect permeability in order to prove or increase the permeability. This might benefits the industry which involves extraction processes. Experimental results are important because to increase the efficiency of processes involving permeability it is dependent on the data or results. 3. 0 Aims/Objectives The experiment is conducted to objective of this experiment is to determine the permeability of the porous media, to create conditions so that Darcyââ¬â¢s equation can be used and to compare the average permeability for different pressure gradient and types of tested samples as well as to relate permeability with various components of Darcyââ¬â¢s equation. 4. 0 Theory Permeability is property of the porous medium and is a measure of the ability of the medium to allow fluids to pass through it. Permeability concept is widely used to determine the flow characteristics of hydrocarbonsà inà oilà andà gasà reservoirs. Medium or rocks that possess high permeability can allow fluids to pass through it in large quantity over time. This is indicated form high volumetric flow rate. To quantify permeability, assume that there is a medium with cross-sectional area (A) and thickness (L). A fluid of dynamic viscosity (à µ) is allowed to flow through the medium. The change in pressure that occurs during the flow is ? P and the volumetric flow rate (q) is the amount of fluid that can flow through the medium over a period of time with respect to the ? P. Permeability (k) is related to all the components by the Darcyââ¬â¢s equation. Darcyââ¬â¢s equation: q=kA? Pà µL â⬠¦.. (1) The SI unit for permeability, k is m2. Permeability is also measured in Darcy, D. 1 D is approximately 10-12m2. Factors affecting permeability are membrane solubility, pressure, concentration and temperature of the molecules or solutes. Permeability is also affected by size of the molecules of the fluids that passing through the medium. Darcyââ¬â¢s equation is valid for any Newtonian fluids and is only applicable for laminar flow. The laminar flow is always achieved by groundwater but not always achieved by gas flows. Laminar flow can be determined by computing the Reynolds number of the flow. Re= ? vDà µ 5. 0 Apparatus i. Liquid permeameter apparatus ii. Liquid hose iii. Yellow chip pullers iv. Membranes of different thickness, 0. 1, 0. 2 and 0. 3 cm v. Water 6. 0 Procedures i. 3 membrane samples of different thickness (0. 1, 0. 2, 0. 3cm) are prepared. The samples are cut bigger than the o-ring so that they will cover the ring completely and to ensure perfect sealing. ii. The liquid hose attached to the sample chamber lid is disconnected. The lid is unscrewed and removed. The chamber insert and adapter plates are taken out. The o-rings is checked for dryness. iii. Under Group on the main CapWin menu, a new group is created by clicking on New Group. iv. Under Execute on the main CapWin menu, Autotest F2 is selected. Autotest settings screen is opened. Test Type is clicked and Liquid Permeametry is selected from the Test Selection box. Then, Elevated Pressure Test option is selected. You read "Liquid Permeability of Porous Media" in category "Papers" v. At the Autotest screen, several information are keyed in. The fields are as below. Output File Name-user designated End User-user designated Test Reference-Liquid Permeametry; Elevated Pressure Test Sample ID-user designated Lot Number-user designated Operator-user designated Fluid-Water Surface Tension Diameter-3cm for all 3 samples Thickness-0. 1, 0. 2, 0. 3 cm vi. Done on the Autotest screen is clicked. ii. The screened adapter plate is placed in the bottom of the sample chamber. The plate is aligned on three chamber pins. The sample is placed on the top of the screened plate. The o-ring of the screened plate is checked so that it seals against the sample. Top adapter plate is plac e on the sample chamber. viii. The chamber insert is placed into the chamber. The insert should not be lower than the sample chamber height. ix. Start Test button is clicked. Starting pressure, maximum pressure, point step pressure, maximum wait between points and maximum number of points are keyed in. Continue button is clicked after each value has been entered. . Sample chamber is filled with water. The lid is screwed and hand-tightened. Liquid fill hose with quick connect fitting is attached to the sample chamber lid. xi. Click Ok on the Autotest screen and the test is started. xii. When the test has ended, a Test Done dialogue box appeared and clicked Ok. xiii. Test results may be viewed and analyzed using CapRep. Select Report from the main CapWin menu and clicked on Execute Report to access the data from the test. xiv. Steps (iii) to (xiii) are repeated for different pressure gradient (10, 15, 20, and 30) and two other samples with thickness 0. 2 cm and 0. 3 cm. 7. 0 Result For PP1 sample with diameter, d= 3cm and thickness, L= 0. 1cm. Differential Pressure (psi)| Average Permeability| 5| 0. 23993| 10| 0. 17461| 15| 0. 13315| 20| 0. 11792| 30| 0. 096196| For PP3 sample with diameter, d= 3cm and thickness, L= 0. 2cm. Differential Pressure (psi)| Average Permeability| 5| 0. 52692| 10| 0. 36709| 15| 0. 33807| 20| 0. 26133| 30| 0. 19841| For PP5 sample with diameter, d= 3cm and thickness, L= 0. 3 cm. Differential Pressure (psi)| Average Permeability| 5| 1. 0541| 10| 0. 70806| 15| 0. 50627| 20| 0. 37001| 30| 0. 29489| 8. 0 Calculations i) PP1 sample with diameter, d= 3cm and thickness, L=0. cm at ? P= 5psi. From the plotted graph, q/A against ? P/L, a straight line obtained gives a gradient of 0. 148. From the gradient of graph, we can compute the permeability, k. Gradient = y2-y1x2-x1 = 4-127-6. 9 = 0. 148 Gradient = kà µ 0. 148 = k0. 001 Pa. s , k = 0. 000148 m2 @ 1. 48? 10-4 m2 The permeability, k obtained from the CapWin software is 0. 23993 cm2 @ 2. 33 993? 10-5 m2. ii) PP1 sample with diameter, d= 3cm and thickness, L=0. 1cm at ? P= 30psi. From the plotted graph, q/A against ? P/L, a straight line obtained gives a gradient of 0. 148. From the gradient of graph, we can compute the permeability, k. Gradient = y2-y1x2-x1 = 12-6195-98 Gradient = kà µ 0. 062 = k0. 001 Pa. s , k = 0. 000062 m2 @ 6. 2? 10-5 m2 The permeability, k obtained from the CapWin software is 0. 096196 cm2 @ 9. 6196? 10-6 m2. iii) Calculations of Reynolds number At ? P= 5 psi, q= 2. 5424? 10-6 m3/s, V= 1. 7971? 10-9m/s, ? =1000kg/m3 Re= ? VDà µ=10001. 7971? 10-9(0. 03)0. 001= 5. 3913? 10-5 (laminar flow) At ? P= 30 psi, q= 5. 2564? 10-6 m3/s, V= 3. 7155? 10-9m/s, ? =1000kg/m3 Re= ? VDà µ=10003. 7155? 10-9(0. 03)0. 001= 1. 1147? 10-4 (laminar flow) 9. 0 Discussion Permeability of PP1 sample membrane at ? P = 5 psi and ? P = 30 psi are k = 0. 23993 cm2 @ 2. 33993? 10-5 m2 and k = 0. 096196 cm2 @ 9. 6196? 10-6 m2 respectively. By plotting graphs of q/A against ? P/L, the compute permeability is 1. 48? 10-4 m2 at ? P = 5 psi and 6. 2? 10-5 m2 at ? P = 30 psi. The values are different as being compared. This might due to the different techniques involved in computing the values of permeability. The values from the liquid permeameter are more accurate as the values are computed as the test runs. Compared to the ones computed by plotting the graph, there might be some minor errors that make the values to be different from each other. Apart from that, the apparatus might not function effectively or might be having some problems. Besides that, the sample membranes used are the old ones. As they are often used for testing, this might change or alter their permeability values as they oftenly pass through by fluids. For the tests, laminar flows did occur. Laminar flow occurs at the region in which the points from the graph intersect the straight line plotted. For both ? P = 5 psi and ? P = 30 psi, laminar flow did occur. For ? P = 5 psi, the Reynolds number is 5. 3913? 10-5 which is representative for laminar flow. For ? P = 30 psi, the Reynolds number is 1. 1147? 10-4 which is also representative for laminar flow. For graph at ? P = 5 psi, there is only one point that intersects the straight line (best line of fit) plotted. This is because the pressure gradient is low so there is not much data for permeability is acquired as the test runs. It is different for graph at ? P = 30 psi, there are several points that are intersect or join by the straight line plotted. As the pressure is elevated to 30 psi, there are many data obtained for permeability at different pressures as the pressure increasing to 30 psi. As laminar flow is proven to occur in the test, so Darcyââ¬â¢s equation can be used. From the Darcyââ¬â¢s equation, we can relate that permeability of a medium is directly proportional to volumetric flow rate, dynamic viscosity of fluid and thickness of medium and is inversely proportional to pressure gradient. For membrane sample PP1 with thickness of 0. 1 cm, we can see that the average permeability of the membrane is decreasing with increasing pressure gradient. This case occurs for other two membrane samples, PP3; thickness of 0. 2 cm and PP5; thickness of 0. 3 cm. Permeability decrease as pressure gradient increase because the fluid, in this case water have to overcome certain pressure as they flow through the membrane samples. The pressure gradient acts as resistance to the flow. The higher the resistance, little or less fluid can flow through the medium over a given time. It is also shown that for the same pressure gradient by using membranes with different thickness, the average permeability is higher for sample which is thicker. The different between the three membrane samples is only the thickness. They are of same cross-sectional area. As fluid flow they overcoming the same pressure gradient, same cross-sectional area, the amount of fluid that can be passed through is much dependent on the thickness. When the fluid passes through membranes with large thickness, they are experiencing much effect through the membranes causing the permeability to be higher than the ones obtained with small thickness. 10. 0 Conclusions The objectives of this experiment are achieved. The permeability of three membrane samples are obtained from the liquid permeameter-elevated pressure tests. The permeability of the PP1 sample at ? P = 5 psi and ? P = 30 psi are k = 0. 3993 cm2 @ 2. 33993? 10-5 m2 and k = 0. 096196 cm2 @ 9. 6196? 10-6 m2 respectively. Laminar flow conditions are also created where Darcyââ¬â¢s equation can be used. From the data obtained from the tests, we are able to deduce relationship between permeability and other components of Darcyââ¬â¢s equation. Although the compared values are differing from the each other, we can say that the experiment is still a success as we are able to achieve the main objectives. 11. 0 Recommendations In order to get more accurate results, ensure that the apparatus used (liquid permeameter) is in good condition and is maintained regularly. Besides that, using new or fresh membrane samples can improve the results. Not necessarily that for every test to use new ones but replacing old ones with new ones as when they are in bad condition would help. The average permeability value would be more accurate and the values obtained from the graph would be of not much difference. 12. 0 References i) Brown, G. (n. d. ). Darcyââ¬â¢s Law. Retrieved October 03, 2012, from Darcyââ¬â¢s Law Basics and More: http://biosystems. okstate. edu/darcy/LaLoi/basics. htm ii) Darcyââ¬â¢s Law. (n. d. ). Retrieved October 03, 2012, from Darcyââ¬â¢s Law: http://www. ldeo. columbia. du/~martins/hydro/lectures/darcy. html iii) Laminar Flow. (n. d. ). Retrieved October 03, 2012, from Hyper Physics: http://hyperphysics. phy-astr. gsu. edu/hbase/pfric. html iv) Laminar, Transitional or Turbulent Flow. (n. d. ). Retrieved October 03, 2012, from The Engineering ToolBox: http://www. engineeringtoolbox. com/laminar-transitional-turbulent-flow-d_5 77. html v) Oilfield Glossary. (2012). Retrieved October 03, 2012, from Schlumberger: http://www. glossary. oilfield. slb. com/Display. cfm? Term=permeability vi) Permeability. (n. d. ). Retrieved October 03, 2012, from NDT Resource Center: http://www. ndt-ed. rg/EducationResources/CommunityCollege/MagParticle/Physics/Permeability. htm 13. 0 Appendices Graph1: q/A against ? P/L at ? P=5psi Graph 2: q/A against ? P/L at ? P= 30 psi Figure 1: Liquid permeameter Figure 2: Sample chamber Figure 3: Pressure cylinder Figure 4: Fluid bin Figure 5: The discharge port of water Figure 6: Yellow chip pullers For ? P = 5psi, ?P/L| q/A| 0| 0| 15. 919| 3. 1536| 19. 185| 3. 4128| 22. 623| 3. 6631| 26. 519| 3. 9394| 29. 866| 4. 1191| 32. 784| 4. 1995| For ? P = 30 psi, ?P/L| q/A| ? P/L| q/A| ? P/L| q/A| 0| 0| 74. 1191| 6. 529| 142. 874| 8. 724| 5. 4528| 2. 274| 77. 339| 6. 8886| 146. 066| 8. 948| 12. 8498| 2. 9474| 81. 186| 6. 7182| 150. 051| 9. 209| 15. 9759| 3. 1624| 84. 434| 7. 2454| 153. 216| 9 . 497| 19. 0896| 3. 4502| 88. 364| 7. 1371| 156. 263| 9. 495| 22. 5177| 3. 7128| 91. 687| 7. 0481| 159. 821| 9. 957| 26. 6236| 4. 057| 94. 541| 6. 9633| 163. 875| 9. 468| 29. 9179| 4. 1482| 97. 858| 7. 126| 167. 619| 9. 357| 32. 471| 4. 2458| 98. 775| 8. 4774| 170. 453| 9. 444| 35. 9619| 4. 449| 100. 678| 7. 2947| 173. 287| 9. 683| 39. 2052| 4. 7036| 104. 677| 7. 94| 176. 741| 9. 692| 44. 044| 5. 186| 107. 986| 7. 9996| 180. 85| 10| 47. 068| 5. 1119| 116. 322| 8. 1839| 184. 373| 10. 5| 49. 7694| 5. 697| 118. 307| 8. 042| 187. 213| 10| 53. 2892| 5. 3991| 122. 31| 8. 399| 190. 655| 11. 1| 56. 6594| 5. 51| 125. 161| 8. 437| 193. 936| 10. 19| 59. 9503| 5. 8797| 128. 615| 8. 379| 198. 032| 10. 3| 63. 3005| 6. 0421| 132. 325| 8. 492| 201. 679| 10| 66. 792| 6. 2865| 135. 517| 8. 692| 205. 078| 10| 69. 7064| 6. 1141| 138. 523| 8. 76| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | How to cite Liquid Permeability of Porous Media, Papers
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