Sunday, December 29, 2019
Evaluation Of The Beck s Efforts - 847 Words
The assignment on this week is to calculate the capacity of each machine center and the capacity of the system. I will analyze where the focus of the Beckââ¬â¢s efforts should be if Beck wants to expand capacity. There will then be a determination of how much extra capacity they can get without causing another operation to become the bottleneck. I will then make suggestions of ways that Beck can expand capacity without purchasing new equipment. The focus for this week is to review capacity. In reviewing the information this week, it focuses on capacity planning. In researching , effective capacity is the greatest amount of work that an organization is capable of completing in a in a set amount of time taking into consideration various constraints (Hu, Vakili and Huang, 2004) This is an important aspect to any business because it outlines everything needed to accomplish the task. The planning allows for the effective transition from planning, to implementing, executing and providing a finished product. (Vonderembse, 2013) According to our text, capacity is a means for an organization to supply customers with the requested product on time. (Vonderembse, 2013) The term also includes the highest rate of production. The goal of any organization it to provide the requested service or product in a time outlined by the customer. It is key for the organization to be aware of what the system capacity when producing products. The system capacity, as defined by our test,Show MoreRelatedCognitive Theory And Therapy For Depression989 Words à |à 4 Pagesas it relates to depression was developed by Aaron Beck. Beck, a well known psychiatrist, served as a pioneer in the development of cognitive theory and therapy for depression. Beckââ¬â¢s cognitive theory of depression was created with the idea that a personââ¬â¢s experience directly affects their thoughts. These thoughts, then draw a parallel with the development of their beliefs. Oneââ¬â¢s beliefs assist in determining their emotions and behaviors. Beck considered the main trigger of depression to be negativeRead MoreThe Beck Depression Inventory-II1093 Words à |à 5 PagesReview The Beck Depression Inventory-II (BDI-II) is the latest version of one of the most extensively used assessments of depression that utilizes a self-report method to measure depression severity in individuals aged thirteen and older (Beck, Steer Brown, 1996). The BDI-II proves to be an effective measure of depression as evidenced by its prevalent use in both clinical and counseling settings, as well as its use in studies of psychotherapy and antidepressant treatment (Beck, Steer Brown,Read MoreThe Key Components Of Anxiety Disorders And Cognitive Behavioral Theory ( Cbt ) Essay1630 Words à |à 7 Pageswho were diagnosed with anxiety disorders. The research paper will examine the theory, model, and effectiveness of exploration in relation to the other articles to suggest that CBT is a productive form of treatments for anxiety disorders. Keywords: Beck, CBT, Problem Solving Model, and Anxiety. To experience any form of anxiety, such as interviews, a drive in traffic, or even a first date is a natural- human experience. For instance, one begins to undergo a feeling of failure regardingRead MoreTheory For The Problem : Cognitive Behavior Therapy1424 Words à |à 6 Pageswill push Stan to assumes that his cognitions, emotions, and behaviors interact all have a reciprocal cause-and-effect relationship (Ellis). The goal is to teach Stan that his emotions stem mainly from his beliefs, reactions to life situations,evaluations and interpretations (Ellis). The aim is for Stan to learn to identify the interplay of their, feelings,thoughts and behaviors to identify and go over irrational beliefs that have maintained by self-indoctrination (Ellis). To stop Irrational ideasRead MoreComputerized Provider Order Entry Pre-Deployment Evaluation Plan1894 Words à |à 8 PagesIn an effort to improve clinician workflow and enhance patient safety, a healthcare facility has purchased and w ill soon be introducing a computerized provider order entry (CPOE) system for use within the electronic health record. A pre-deployment evaluation plan will permit the informatics team to appraise the usability of the CPOE and provide administrators with valuable data regarding its successful implementation. This paper describes the formation of this evaluation plan including the goalsRead MoreDigital Piracy Essay1225 Words à |à 5 Pagesreports as they erroneously assume that every consumer of an unauthorised copy would have purchased a ticket to see the film if the copy didnââ¬â¢t exist. Thus, they reject the piracy figures published by industry sources as exaggerated and lobbying efforts . Likewise, Gayer and Shy (2001) point out that data on piracy losses tends to be overestimated because the positive and negative impacts partly offset each other. In this regard, Vany and Walls (2007) attempt to realistically quantify the revenueRead MoreMarketing Strategy Evaluation : Beck Consulting7173 Words à |à 29 Pages 27 SONG MENG, PC CONSULTING REPORT Song Meng, PC Consulting Report BECK Consulting Team: Brian Tan Erika Tan Cari Lyall Kathleen Guiang Table of Contents Executive Summary 3 Introduction 4 Online Marketing 4 Offline Marketing 8 Market Expansion: South Korea 13 Market Strategy Evaluation 21 Importance of tracking marketing 21 How to track your marketing 22 Recommendations 25 Conclusion 25 References 27 Song Meng, PC Immigration Lawyers Consulting Report Executive SummaryRead MoreCase Assessment1307 Words à |à 6 PagesIdentifying Information: middle-aged female, married with two children Mental Status Examination She appeared neatly dressed in an outfit, which was age-appropriate. She was alert and oriented to person, place, and time. The client made every effort to be open and honest. Furthermore, she maintained a cooperative attitude toward the examiner. Her mood and affect were depressed and anxious. Speech was coherent and relevant. There were no signs of a formal thought disorder as observed. MemoryRead MoreEssay on Ethical Use of Assessment2904 Words à |à 12 Pagesï » ¿Ethical Use of Assessment Julia Ray Capella University Abstract In this report Julia has selected an assessment instrument that will be used in the mental health counseling field area of professional practice, the Beck Depression Inventory-II. Reviews of the assessment will be read to ensure that the assessment measures what it purports to measure and that the article reviews will also establish an appropriate use of that tool. Julia has also analyzed the theoretical basis of the article choiceRead MoreEvaluation Of A Comprehensive Assessment Essay1636 Words à |à 7 Pagesstated, regarding assessment, that, ââ¬Å"assessment provides direction for treatment and aids in the evaluation processâ⬠¦It is the counselorââ¬â¢s responsibility to gain sufficient information regarding the client and the clientââ¬â¢s presenting concerns to establish an effective treatment strategy,â⬠(p. 2). In the following, we will examine a comprehensive assessment of our client, Jadine, in which every effort was taken to gain sufficient information for t he benefit of helping her. This paper will outline the
Saturday, December 21, 2019
The Plague and the Book of Jobs - 690 Words
The Plague and the Book of Jobs How there was a day when the sons of God came to present themselves before the LORD, and Satan also came among them. The LORD said to Satan, Whence have you come? Satan answered the LORD, From going to and fro on the earth, and from walking up and down on it. And the LORD said to Satan, Have you considered my servant Job, that there is none like him on the earth, a blameless and upright man, who fears God and turns away from evil? Then Satan answered the LORD, Does Job fear God for nought? Hast thou not put a hedge about him and his house and all that he has, on every side? Thou hast blessed the work of his hands, and his possessions have increased in the land. But put forth thy hand now, and touch all that he has, and he will curse thee to thy face. And the LORD said to Satan, Behold, all that he has is in your power; only upon himself do not put forth your hand. (Source: Chapter 1, 6-12, http://etext.lib.virginia.edu/toc/modeng/public/RsvBJob.html) The report is geared towards establishing the presence of hope in the face of extreme suffering. The report argues that suffering should be seen as more of a means to correct oneââ¬â¢s flaws and develop fully than to be seen as something negative. My support is therefore for the way of life adopted by the doctor in Albert Camusââ¬â¢ book, The Plague. The report will first present a brief outline of the two stories and then put forward their similarities and differences. Finally the reportShow MoreRelatedNorman F. Cantor s The Black Plague978 Words à |à 4 Pagespapers have to deal with the medieval period. In the beginning of this book, Cantor begins to describe how the black plague began and the symptoms of the black plague. The black plague was also known as the Black Death. Many have their own thoughts about how the plague started, but Cantor explains his thoughts throughout the first section of this book. According to Cantor, the plague started from a tiny flea. The black plague is thought to have started in Asia and spread through trade. ShipyardsRead MoreReview Of Genesis And The Garden Of Eden 1440 Words à |à 6 Pagesstarts out with Pentateuch, which refers to the first five books of the Christian Bible, Pentateuch is a Greek word that means ââ¬Å"five scrollsâ⬠, which also refers to the compromise of the Torah. The first five books of The Bible are ââ¬Å"Genesisâ⬠, ââ¬Å"Exodusâ⬠, ââ¬Å"Jobâ⬠, ââ¬Å"Psalmsâ⬠, and ââ¬Å"Song of Songsâ⬠. The Hebrews considered Pentateuch as the Torah which also means law because they believed that it was handed down to Moses by God. In each of the books that is in The Bible, there are symbols or signs that God hasRead MoreThe Plague Essay768 Words à |à 3 PagesIn The Plague by Albert Camus a town called Oran became suddenly taken over by an epidemic ââ¬Å"the plagueâ⬠, killing off thousands of people. One character greatly affected by the plague goes by the name Rambert (A journalist from Paris just doing some research). The plague dramatically changed the way Rambert thought because three types of environmental characteristics that surrounded him: Death, despair and isolation. Therefore, these three characteristics showed the dramatic effects an epidemic canRead MoreThe Black Plague in Great Britain838 Words à |à 3 Pagesknights and castles, royals and peasants, plague and famine, war and death. In the 1300ââ¬â¢s a devastating plague swept across of most of Europe and Asia. It killed millions of people. Upon reaching Britain it killed over one-third the population . The Black Death, in only a few years, had left a permanent mark on Britain, its economy, the feudalism system and its culture through the cause of the major population decline in the 14th century. The Black Plague or Black Death is believed to have begunRead More the black death Essay752 Words à |à 4 Pagesauthor Phillip Ziegler attempts to fully describe the Plague that struck Europe in 1338 and remained until 1665. The year of the great Plague of London Ziegler tries to give an unbiased account of the Plague by compiling information from contradictory sources. Ziegler begins the book with the Tartans catapulting diseased corpses into Genoese as the Genoese escape back to Europe. Following this, the author provides some insight into the Plague in Italy, Germany, and France, in which he highlightsRead MorePlagues in England: Death Is in the Air Essay688 Words à |à 3 Pages If one were to think back to when the only cures society had were rituals, a prime example of sickness in a society is England. Recalling the plagues in England, one can easily see the two prominent plagues that struck, along with how they affected English economy and culture. In the 1300ââ¬â¢s, England was struck with a plague called the Bubonic Plague, better known as the ââ¬Å"Black Death.â⬠Historians believe this disease arrived by ship at a seaport in modern day Ukraine (Byrne 1). Fleas living onRead MoreThe Black Death And The Transformation Of The West Essay973 Words à |à 4 Pagesand Women, describing David Herlihyââ¬â¢s profession on his work of the Black Death. David Herlihy was a remarkable medievalist who questioned the inference of the Black Death, the Yersinia Pestis or the bubonic plague. Herlihy has written several other books about his work, one well-known book is Medieval Households (1985). Herlihy graduated in the colleges of Yale University and the University of San Francisco, although there was no specific majors or degrees he has received. He taught has a professorRead MoreEssay on Black Death988 Words à |à 4 PagesWorld History Book Report Summary: The Black Death, by Philip Ziegler, covers the epidemic that spread throughout Eurasia around 1348. The book mostly focuses on England and how the disease affected this area. The book also covers other portions of Europe such as France, Italy, and Germany but not as in depth. Ziegler uses the research of many historians to piece together what occurred during this time of grief. Ziegler starts off the book explaining the origins and nature of the plague. He explainsRead MoreEssay on Man Child and the Promised Land919 Words à |à 4 Pages The Will to Survive nbsp;nbsp;nbsp;nbsp;nbsp;In the book, ââ¬Å"Manchild in the Promised Land,â⬠Claude Brown makes an incredible transformation from a drug-dealing ringleader in one of the most impoverished places in America during the 1940ââ¬â¢s and 1950ââ¬â¢s to become a successful, educated young man entering law school. This transformation made him one of the very few in his family and in Harlem to get out of the street life. It is difficult to pin point the change in Claude Brownââ¬â¢s life that separatedRead MoreFather Paneloux and The Plague1028 Words à |à 5 Pagesbelieved what he was preaching, I believe he was completely wrong. This would make what I would say much different from what Father Paneloux said. However, some strong points did emerge from his sermons. Overall, the two sermons in Albert Camusââ¬â¢ The Plague fail to help people become more faithful and fail to even preach to the people of Oran the truth. Father Paneloux makes statements in his first sermon that condemn the people of Oran for their wicked behavior. Camusââ¬â¢ description of the sermon makes
Friday, December 13, 2019
Hydraulic Machines Free Essays
30 CHAPTER 5 TURBINES 5. 1 Introduction Hydraulic turbines are the machines which use the energy of water and convert it to mechanical energy. The mechanical energy developed by a turbine is used in running an electric generator which is directly coupled to the shaft of the turbine. We will write a custom essay sample on Hydraulic Machines or any similar topic only for you Order Now The electric generator thus develops electric power, which is known as hydro-electric power. 5. 2 Elements of Hydraulic Power Plants Fig. 5. 1 General Layout of a Hydraulic Power Plant 31 Fig. 5. 1 shows a general layout of hydraulic power plant, in which an artificial storage reservoir formed by constructing a dam has been shown. 5. 3 General Classification of Turbines Turbines are hydraulic machines that convert energy into rotating mechanical energy which in turn generators to produce electrical energy. Originally developed from the water wheels, hydraulic turbines are the prime mortars of importance in modern water power development. According to their hydraulic action, turbines are broadly divided into two classes. (1) Impulse Turbine: Impulse turbines are more efficient for high heads. At the inlet to the turbine runner, pressure head can be completely converted into kinetic head in the form of a jet of water issuing from one or more nozzles. The free jet will be at atmospheric pressure before as well as after striking the vanes. The turbines are regulated by nozzles which may be a simple straight flow type or a deflector type. The impulse turbines are commonly represented by Pelton Wheels. Turgo turbine is also an impulse turbine but with different buckets, when compared with pelton. Turgo and cross flow turbines are relatively new developments in this class. The main advantages of these turbines are: â⬠¢ They can be easily adopted to power variation with almost constant efficiency. â⬠¢ The penstock overpressure and the runner overspeed control are easier. â⬠¢ The turbine enables an easier maintenance. â⬠¢ Due to the jet the manufacturer of these turbines impose a better solid particle control, conducting, consequently, to a lower abrasion effect. (2) Reaction Turbine: A turbine can be made to rotate under the action of water flowing under pressure through the runner. In such turbines the penstocks, the inlet passage to the runner, passage between the runner vanes, all form a continuous passage for the flow under a pressure which continuously decreases from inlet to outlet. The turbine runner directly converts both kinetic energy as well as the pressure energy into mechanical energy. Reaction turbines are represented in modern practice by two principal types: the Francis turbine where the flow is directed radial to the runner axis and the Propeller type 32 where the flow is axial to the runner axis. Propeller turbines may be fixed blade or adjustable blade types. Kaplan turbine has adjustable blades. The main advantages of these turbines are: â⬠¢ It needs lesser installation space. â⬠¢ It provides a greater net head and a better protection against downstream high flood levels. It can have greater runner speed. â⬠¢ It can attain greater efficiencies for high power values. In order to distinguish different turbines, the hydraulically salient features like pressure, head, flow direction and magnitude, speed and power etc. The general classification of hydraulic turbines is illustrated in Fig. 5. 2. Hydraulic Turbines Impulse Turbines Pelton Tur go Reaction Turbines Cross-Flow Fixed -Blade Propeller Kaplan Francis Tubular Deriaz Bulb Fig. 5. 2 General Classification of Turbines 5. 4 Number of Units It is normally cost effective to have a minimum number of units at a given small ydropower installation. Multiple units may, however, be necessary from the operational point of view so that even one unit breaks down or is in the routine maintenance, the power generation can be achieved to a certain extent. The efficiency curves of turbines show that the 33 efficiency of power generation from hydraulic turbines considerably decreases at low flow ratios or power ratios. In multiple units, it is possible to maintain the higher efficiency even in low flows and the low loads by running a certain number of the units at a time depending upon the available discharge and the load demand. Multiple units thus, make the most effective use of water where the flow as well as the load variations are significant. 5. 5 Limits of Use of Turbine Types The selection of best turbines for any particular small hydropower site depends on the site characteristics, the dominant beings the head and the available flow. There are some limits on the range of these parameters in the selection of turbines. Each turbine type is best suited to a certain range of pressure head and the flow rate. For instance, Pelton wheels operate with low flows discharged under great pressures where as Propeller turbines are effective in high flows under low heads. Francis turbines fall in the medium category covering a wide range of different heads and discharges. The common practice of SHP systems is to develop standard unit sizes of equipment that will operate over a range of heads and flows. Either charts or nomographs are used to select appropriate units for site specific application. One such chart showing the head-flow range of normal SHP schemes applicable to each type of turbine is given in Fig5. 3. The graph also indicates the approximate power generation for each combination of the head and the discharge applicable to SHP schemes. Fig. . 3 Head-Flow Ranges for Different Turbines 34 5. 6 Pelton Wheel Pelton wheel is well suited for operating under high heads. A pelton turbine has one or more nozzles discharging jets of water which strike a series of buckets mounted on the periphery of a circular disc. The runner consists of a circular disc with a number of buckets evenly spaced round its periphery. The buckets have a shape of a double semi-ellipsoidal cups. The pelton bucket is designed to deflect the jet back through 165à ° which is the maximum angle possible without the return jet interfering with the next bucket. Fig. 5. 4 Pelton bucket General arrangement of a pelton wheel is shown in the Fig. 5. 5. For SHP schemes, Pelton wheels are easier to fabricate and are relatively cheaper. The turbines are in general, not subjected to the cavitation effect. The turbines have access to working parts so that the maintenance or repairs can be effected in a shorter time. Fig. 5. 5 General Arrangement of a Pelton Wheel 35 Traditionally, micro hydro pelton wheels were always single jet because of the complexity and the cost of flow control governing of more than one jet. Advantages of multi-jet: -Higher rotational speed -Smaller runner -Less chance of blockage Disadvantages of multi-jet: -Possibility of jet interference on incorrectly designed systems -Complexity of manifolds 5. 7 Francis Turbine Francis turbine is a mixed flow type, in which water enters the runner radially at its outer periphery and leaves axially at its center. Fig. 5. 6 illustrates the Francis turbine. The runner blades are profiled in a complex manner and the casing is scrolled to distribute water around the entire perimeter of the runner. The water from the penstock enters a scroll case which completely surrounds the runner. The purpose of the scroll case is to provide an even distribution of water around the circumference of the turbine runner, maintaining an approximately constant velocity for the water so distributed. The function of guide vane is to regulate the quantity of water supplied to the runner and to direct water on to the runner at an angle appropriate design. A draft tube is a pipe or passage of gradually increasing cross sectional area which connects the runner exit to the tail race. Fig. 5. 6 Francis Turbine 36 . 8 Kaplan Turbine It is an axial flow turbine which is suitable for relatively low heads. From Fig. 5. 7, it will be seen that the main components of Kaplan turbine such as scroll casing, guide vanes, and the draft tube are similar to those of a Francis turbine. Fig. 5. 7 5. 9 Kaplan Turbine Specific Speed The specific speed of any turbine is the speed in r. p. m of a turbine geometrically sim ilar to the actual turbine but of such a size that under corresponding conditions it will develop 1 metric horsepower when working under unit head. Ns = NP H5/ 4 â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 1) where Ns = specific speed P = power in HP 5. 10 Characteristic Curves The turbines are generally designed to work at particular values of H,Q,P,N and ? o which are known as the designed conditions. It is essential to determine exact behaviour of the turbines under the varying conditions by carrying out tests either on the actual turbines or on their small scale models. The results of these tests are usually graphically represented and the resulting curves are known as characteristic curves. 37 -constant head characteristic curves -constant speed characteristic curves -constant efficiency characteristic curves In order to obtain constant head characteristics curves the tests are performed on the turbine by maintaining a constant head and a constant gate opening and the speed is varied by changing the load on the turbine. A series of values of N are thus obtained and corresponding to each value of N, discharge Q and the output power P are measured. A series of such tests are performed by varying the gate opening, the head being maintained constant at the previous value. From the data of the tests the values of Qu, Pu, nu and ? o are computed for each gate opening. Then with Nu as abscissa the values of Qu, Pu and ? o for each gate opening are plotted. The curves thus obtained for pelton wheel and the reaction turbines for four different gate openings are shown in Fig. 5. 8. Fig. 5. 8 Constant head characteristics for Pelton wheel and reaction turbines 38 5. 11 Cavitation in turbines When the pressure in any part of the turbine reaches the vapour pressure of the flowing water, it boils and small bubbles of vapour form in large numbers. These bubbles are carried along by the flow, and on reaching the high pressure zones these bubbles suddenly collapse as the vapour condenses to liquid again. The alternate formation and collapse of vapour bubbles may cause severe damage to the surface which ultimately fails to fatigue and the surface becomes badly scored and pitted. This phenomenon is known as cavitation. In order to determine whether cavitation will occur in any portion of the turbine, D. Thomas has developed a dimensionless parameter called Thomasââ¬â¢cavitation factor ? which is expressed as ?= Ha ? Hv ? Hs H â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 2) where Ha = atmospheric pressure head Hv = vapour pressure head Hs = suction pressure head For Francis turbines: Critical cavitation factor ? c = 0. 625 (Ns/444)2 â⬠¦Ã¢â¬ ¦.. (5. 3) For Propeller turbines: ? c = 0. 28 + [ Example 5. 1 1 Ns 3 ( )] 7. 5 444 â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦.. (5. 4) Estimate the maximum height of straight conical draft tube of a 18000 h. p. Francis turbine running at 150 r. p. m under a net head of 27 m. The turbine is installed at a station where the effective atmospheric pressure is 10. 6 m of water. The draft tube must sink at least 0. 77 m below the tail race. Ns = NP H5/ 4 = 327 39 ?c = 0. 625 (Ns/444)2 = 0. 339 Cavitation factor ? = Ha -Hv -Hs H Ha -Hv = 10. 6 m, H =27 m 0. 339 = 10. 6 -Hs 27 Hs = 1. 45 m Max length of the draft tube = 1. 45 + 0. 7 = 2. 22 m 5. 12 Governing of Turbines All the modern turbines are directly coupled to the electric generators. The generators are always required to run at constant speed irrespective of the variations in the load. This constant speed N of the generator is given by the expression N= 60 f p â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦.. (5. 5) where f = frequency (usually 50) p = numbers of pairs of poles 5. 13 Water Hammer A gate or valve at the end of the penstock pipe controls the discharge to the turbine. As soon as this governor regulated gate opening is altered, the pipe flow has to be adjusted to the new magnitude of flow. In doing so, there are rapid pressure oscillations in the pipe, often accompanied by a hammering like sound. Hence this phenomenon is called as water hammer. 5. 14 Jet Speed The velocity of flow of the jet depends upon the total net head H at the base of the nozzle and is given by the nozzle equation: v = C v ? 2gH where the discharge coefficient velocity of the nozzle is taken as 0. 95. â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 6) 40 5. 15 Bucket speed V= ? DN 60 â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 7) The bucket speed should be half of the jet speed. In practice, losses in the turbine cause the maximum efficiency to occur at slightly less than a half, typically 0. 46. V =0. 6 v 5. 16 Design of Pelton Wheel Runner diameter: Runner diameter can be found out from the rpm equation. D= 38 ? H N â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦. (5. 8) where N = runner speed(rpm) H = net head Nozzle diameter: The nozzle diameter is given by the nozzle equation: d = 0. 54 ? Q 0. 5 1 ? 0. 25 H n jet â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦. (5. 9) Je t ratio: Jet ratio D/d is a size parameter for the turbine. It has a value in a range of 10 to 24. For the high efficiency Pelton wheel design, the ratio of the runner diameter to the nozzle should be more than 9. Number of buckets: The number of buckets required for the efficient operation of the Pelton turbine is calculated as: N buc = 0. 5 ? D + 15 d â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦.. (5. 10) In practice, the selection and the detail design of the turbine units are carried out by the manufactures based on the model performances. 41 Example 5. 2 Powerhouse is equipped with a vertical shaft pelton turbine. The generator is provided with 6 pairs of poles. Design discharge is 1. 4 m3/s and net head is 425 m. The turbine will provide 6500 hp. Take coefficient of nozzle as 0. 95. Determine (a) the specific speed (b) velocity of jet (c) jet diameter (d) pitch circle diameter of the wheel (e) number of buckets (a) N= 60 f p = 60 x 50/6 = 500 rpm Ns = = NP H5/ 4 500 6500 4255 / 4 = 20. 9 Use single jet pelton turbine (b) velocity of jet v = C v ? 2gH = 0. 95 ? 2Ãâ"9. 81Ãâ"425 = 86. 75 m/s (c) jet diameter d = 0. 54 ? = 0. 54 ? Q 0. 5 1 ? 0. 25 H n jet 1. 4 0. 5 425 0. 25 ? = 0. 14 m =14 cm 1 1 42 (d) pitch circle diameter D= 38 ? H N = 1. 57 m (e) Number of buckets N buc = 0. 5 ? N buc = 0. 5 ? D + 15 d 1. 57 + 15 0. 14 = 20. 6 = 21 5. 17 Work done of Pelton Wheel In turbines, the water flows on to the runner, which itself is rotating with a certain speed. The water flows over the runner and leaves the runner at its outlet point. We can speak of absolute velocity of water before it flows in the runner, the relative velocity of water w. r. t the runner and again the absolute velocity of water after it has left the runner. In order to ascertain the relationship between these velocities, the velocity vector diagram prove to be very useful. Fig. 5. 9 shows the velocity triangles at the tips of the bucket of a pelton wheel. At the outlet tip velocity triangles are different depending upon the magnitude of u corresponding to which it is slow, medium or fast runner. Inlet velocity diagram V Vri Vai =Vwi 43 Outlet velocity diagram V Vwo ? ? Vfo Vro Vao Fig. 5. 9 Velocity triangles V = bucket velocity Vai = absolute velocity of jet at inlet tip Vai = Cv 2 gH1 Vao = absolute velocity of jet at outlet tip Vri = relative velocity of jet at inlet = Vai-V Vro = relative velocity of jet at outlet = k. Vri Vwi = velocity of whirl at inlet =Vai Vwo = velocity of whirl at outlet = V-VroCos ? Vfo = velocity of flow at outlet Mass/sec m =? Q =? a Vai=? ?/4 d2 Vai â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 11) Workdone on the bucket/sec (power developed by turbine) P = m (Vwi -Vwo) V â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 12) Maximum hydraulic efficiency ? h max = 1 (1 + kCos? ) 2 â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦(5. 13) The hydraulic efficiency is maximum when the bucket speed is equal to half of the velocity of jet. 44 Example 5. 3 The head available at entrance to the nozzle supplying a pelton wheel is 300 m and the coefficient of velocity for the nozzle is 0. 98. The wheel diameter is 1. 8 m and the nozzle diameter is 125 mm. The buckets deflect the jet through 165à °. Assuming the relative velocity of the jet is reduced by 16%, calculate the theoretical speed in rev per min for the maximum hydraulic efficiency. What is the hydraulic efficiency when running at this speed, and what is the power developed? Deflection angle =165à ° = (180- ? ) ? = 15à ° k = 0. 84 hf hn Hââ¬â¢=Vai2/2g H For max hydraulic efficiency V/Vai =0. 5 Vai = Cvv2gH1 = 75 m/s V =Vai/2 = 37. 5 m/s V =? DN/60 N =60V/? D = 398 rpm ?hmax = 1/2 (1+ k Cos ? ) = 90. 55 % mass/sec = m = ? Q = ? ?/4 d2 Vai = 920 kg/sec H1 45 Inlet diagram: V Vri From velocity diagram Vwi = Vai =75 m/s Vri = Vai- V =37. 5 m/s Vwi = Vai Outlet diagram: Vwo = V -Vro Cos ? V = V ââ¬â k Vri Cos ? Vwo Vro Power = m V ( Vwi -Vwo) = 234600 Watts Vao =7 m/s 46 CHAPTER 6 CENTRIFUGAL PUMP 6. 1 Introduction Centrifugal pumps are classified as rotodynamic type of pumps in which dynamic pressure is developed which enables the lifting of liquids from a lower to a higher level. The basic principle on which a centrifugal works is that when a certain mass of liquid is made to rotate by an external force, it is thrown away from the central axis of rotation and a centrifugal head is impressed which enable it to rise to a higher level. Now, if more liquid is constantly made available at the centre of rotation, a continuous supply of liquid at a higher level may be ensured. Since in these pumps the lifting of the liquid is due to centrifugal action, these pumps are called ââ¬Ëcentrifugal pumpsââ¬â¢. 6. 2 Advantages of centrifugal pumps over reciprocating pumps The main advantage of a centrifugal pump is that its discharging capacity is very much greater than a reciprocating pump which can handle relatively small quantity of liquid only. A centrifugal pump can be operated at very high speeds without any danger of separation and cavitation . The maintenance cost of a centrifugal pump is low and only periodical check up is sufficient . But for a reciprocating pump the maintenance cost is high because the parts such as valves etc. , may need frequent replacement. 6. 3 Component Parts of a Centrifugal Pump The main component parts of a centrifugal pump are: -impeller -casing -suction pipe -delivery pipe 47 Fig. 6. 1 Component part of a centrifugal pump 6. 4 Workdone by the Impeller The expression of the workdone by the impeller of a centrifugal pump on the liquid flowing through it may be derived in the same way as for a turbine. The liquid enters the impeller at its centre and leaves at its periphery. Fig. 6. shows a portion of the impeller of a centrifugal pump with one vane and the velocity triangles at the inlet and outlet tips of the vane. V is absolute velocity of liquid, u is tangential velocity of the impeller, Vr is relative velocity of liquid, Vf is velocity of flow of liquid, and Vw is velocity of whirl of the liquid at the entrance to the impeller. Similarly V1,u1,Vr1,Vf1 and Vw1 represent their counterpa rts at the exit point of the impeller. 48 Fig. 6. 2 Velocity triangles for an impeller vane ? = the impeller vane angle at the entrance ? = the impeller vane angle at the outlet = the angle between the directions of the absolute velocity of entering liquid and the peripheral velocity of the impeller at the entrance ? = the angle between the absolute velocity of leaving liquid and the peripheral velocity of the impeller at the exit point Work done per second by the impeller on the liquid may be written as Work done = W ( Vw1 u1 ââ¬â Vw u) ââ¬âââ¬âââ¬âââ¬â-(6. 1) g where W kg of liquid per second passes through the impeller. Since the liquid enters the impeller radially ? = 90 and hence Vw = 0. Thus equation (6. 1) becomes Work done = W (Vw1u1) ââ¬âââ¬âââ¬âââ¬â-(6. ) g 6. 5 Head of a Pump The head of a centrifugal pump may be expressed in the following two ways: (a) Static head (b) Manometric head (or total head or gross head) 49 Fig. 6. 3 Head on a centrifugal pump (a) Static Head Static head is the vertical distance between the liquid surfaces in the pump and the tank to which the liquid is delivered by the pump. Static head (or lift) Hs = hs + hd where hs = static suction lift hd = static delivery lift â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦.. (6. 3) 50 (b) Manometric Head Manometric head is the total head that must be produced by the pump to satisfy external requirements. If there are no energy losses in the impeller and the casing of the pump, then the manometric head Hm will be equal to the energy given to the liquid by the V ? 1u1 g impeller, i. e Hm = . But if losses occur in the pump then V ? 1u1 ? losses of head in the pump g â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦.. (6. 4) Applying Bernoulliââ¬â¢s equation between the points, O at the liquid surface in the pump and 1 in the suction pipe just at the inlet to the pump (i. e. , at the centre line of the pump), the following expression is obtained if the liquid surface in the sump is taken as datum. 0= p s Vs2 + + hs + h f s ? 2g ps Vs2 ? [ + hs + h fs ] 2g ? â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦. (6. 5) where ps is the pressure at point l ; Vs is the velocity of flow in the suction pipe ; hs is the suction lift and hfs is the head loss in the suction pipe which includes the head loss due to friction and the other minor losses. It may however be pointed out that if the pump is situated below the level of the liquid surface in th e sump, hs will be negative. Equation (6. 5) indicates that at the inlet to the pump there is always a suction or vacuum pressure developed which will be recorded by the vacuum gauge provided at this point as shown in Fig. . 3. The head expressed by equation (6. 5) is called the suction head of the pump. Also, applying Bernoulliââ¬â¢s equation between points 1 and 2, which is just at the outlet of the impeller and is assumed to be at the same level as point 1, then since the impeller imparts a head equal to (Vw1u1/g) to the liquid the following expression is obtained: p s V s2 V? 1u1 p 2 V12 + + = + + hLi ? 2g g ? 2g â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦.. (6. 6) where p2 is the pressure and V1 is the absolute velocity of the liquid leaving the impeller and hLi is the loss of head in the impeller. 51 6. Specific Speed of Centrifugal Pumps In order to compare the performance of different pumps, it is necessary to have some term which will be common to all centrifugal pumps. The term used for this purpose is the specific speed. The specific speed of a centrifugal pump is the speed at which the specific pump must run to deliver unit quantity against unit head, the efficiency being the same as the actual pump. Ns = NQ H 3/ 4 â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦(6. 7) where Ns= specific speed N = rotational speed(rpm) H = total head 6. 7 Performance of Pumps- Characteristic Curves A pump is usually designed for one speed, flow rate and head in actual practice, the operation may be at some other condition of head on flow rate, and for the changed conditions, the behaviour of the pump may be quite different. Therefore, in order to predict the behaviour and performance of a pump under varying conditions, tests are performed and the results of the tests are plotted. The curves thus obtained are known as the characteristic curves of the pump. The following three types of characteristic curves are usually prepared for the centrifugal pumps : a) Main and operating characteristics. (b) Constant efficiency or Muschel curves . (c) Constant head and constant discharge curves. Main and Operating Characteristics In order to obtain the main characteristic curves of a pump it is operated at different speeds. For each speed the rate of flow Q is varied by means of a delivery valve and for the different values of Q the corresponding values of manometric head Hm, shaft H. P. , P , and overall efficiency ? are measured or calculated. The same operation is repeated for different speeds of the pump. Then Q v/s Hm ; Q v/s P and Q v/s ? urves for different speeds are plotted, so that three sets of curves, as shown in Fig. 6. 4 are obtained, which represent the 52 main characteristics of a pump. The main characteristics are useful in indicating the performance of a pump at different speeds. During operation a pump is normally required to run at a constant speed, which is its designed speed, (same as the speed of the driving motor). As such that particular set of main characteristics which corresponds to the designed speed is mostly used in the operations of a pump and is, therefore, known as the operating characteristics. A typical set of such characteristics of a pump is shown in Fig. 6. 5 Fig. 6. 4 Main characteristics of a centrifugal pump Fig. 6. 5 Operating characteristic curves of a centrifugal pump 53 6. 8 Parallel or Series Operation of Pumps Pumps in series Centrifugal pumps generate a relatively low head delivering a fairly high rate of discharge. Normally a pump with a single impeller can be used to deliver the required discharge against a maximum head of about 100 m. But if the liquid is required to be delivered against a still larger head then it can be done by using two or more pumps in series. Fig. 6. 6 Three stage centrifugal pump If the required head is more than that can be provided by one pump, the pumps are connected in series. The same discharge passes through both pumps but the head developed by one pump add the other. The total head developed is obtained by adding together the value of the head of each pump corresponding to the relevant discharge. Pumps in Parallel The multi-stage pumps or the pumps in series as described earlier are employed for delivering a relatively small quantity of liquid against very high heads. However, when a large quantity of liquid is required to be pumped against a relatively small head, then it may 4 not be possible for a single pump to deliver the required discharge. In such cases two or more pumps are used which are so arranged that each of these pumps working separately lift the liquid from a common sump and deliver it to a common collecting pipe through which it is carried to the required height Fig. 6. 7. Since in this case each of the pumps deliver the liquid against the same head, the arrangement is known as pumps in parallel. If Q1, Q2, Q3â⬠¦.. , Qn are the discharging capacities of n pumps arranged in parallel then the total discharge delivered by these pumps will be Qt = (Q1+Q2+Q3+â⬠¦Ã¢â¬ ¦+Qn) â⬠¦Ã¢â¬ ¦Ã¢â¬ ¦Ã¢â¬ ¦. (6. 8) If the discharging capacity of all the n pumps is same, equal to Q , then the total discharge delivered by these pumps will be Qt = nQ Fig. 6. 7 Two centrifugal pumps arranged in parallel 55 A centrifugal pump, having four stages in parallel, delivers 11m3/min of Example 6. 1 liquid against a head of 24. 7m, the diameter of the impeller being 225mm and the speed 1700 rpm. A pump is to be made up with a number of identical stages in series, of similar constriction to those in the first pump, to run at 1250 rpm, and to deliver 14. 5 m3/min, against a head of 248m. Find the number of stages required for the second pump. 1st Pump 2nd Pump Q = 11m3/min Q = 14. 5m3/min H = 24. 7 m H = 248 m N = 1700 rpm N =1250 rpm D = 225 mm Specific speed N s = NQ H 3/ 4 Q for one pump = 11/4 = 2. 75 m3/min Ns = 1700 2. 75 24. 7 3 / 4 = 254 For 2nd pump, with identical stages in series i. e multi-stage pump, if each stage is similar to those of each stage is similar to those of the first pump. The specific speed of each stage Ns = 254 Ns = 254 = NQ H 3/ 4 1250 14. 5 H 3/ 4 H = 49. 64 m Total head required = 248 m No of stages required = 248/49. 64 = 5 stages 56 CHAPTER 7 DIMENSIONAL ANALYSIS, HYDRAULIC SIMILITUDE AND MODEL INVESTIGATION 7. 1 Dimensional Analysis Dimensional analysis is a mathematical method of obtaining the equations, changing units, determining a convenient arrangement of variable of a physical relation. In an equation expressing a physical relationship between quantities, absolute numerical and dimensional equality must exit. In general, all such physical relationships can be reduced to the fundamental quantities of mass M, length L and time T. It is a based on the assumption that the phenomenon can be expressed by a dimensionally homogeneous equation, with certain variable. The dimensional analysis is widely used in research work for developing design criteria and also for conducting model tests. 7. 2 Dimensions and Units All physical quantities are measured by comparison. This comparison is always made with respect to some arbitrarily fixed value for each independent quantity, called dimension(e. g. , length, mass, time, etc. ). Since there is no direct relationship between these dimensions, they are called fundamental dimensions. Some other quantities such as area, volume, velocity, force etc. can not be expressed in terms of fundamental dimensions and thus may be alled derived dimensions. There are two systems for fundamental dimensions namely FLT (i. e force, length, time) and MLT (i. e. , mass, length, time). One common system employed in dimensional analysis is the M,L,T system. Table is a listing of some of the quantities used in fluid flow, together with their symbols and dimensions. 57 Quantity Symbol Dimensional Form Length l L Time t T Mass m M Velocity v L T-1 Acceleration a L T-2 Force F M L T-2 Pressure P M L-1 T-2 Discharge Q L3 T-1 Power P M L2 T-3 W,E M L2 T-2 Density ? M L-3 Dynamic viscosity à µ M L-1 T-1 Kinematic viscosity ? L2 T-1 Surface tension M T-2 Work,energy 7. 3 Methods of Dimensional Analysis The methods of dimensional analysis are: -Buckinghamââ¬â¢s ? theorem -Ralyeighââ¬â¢s method Buckinghamââ¬â¢s ? Theorem If there are ââ¬Ënââ¬â¢ variables in a dimensionally homogeneous equation, and if these variables contain ââ¬Ëmââ¬â¢ fundamental dimensions such as (M,L,T) , they may be grouped into (nm) non-dimensional independent ? terms. Mathematically, if a variable x1 depends upon independent variables x2, x3,x4, â⬠¦. ,xn, the functional equation may be written as x1 = f (x2, x3, x4, â⬠¦. , xn) The equation may be written in its general form as 58 f1 ( x1, x2, x3,â⬠¦Ã¢â¬ ¦. xn) = C In this equation there are ââ¬Ënââ¬â¢ variables. If there are ââ¬Ëmââ¬â¢ fundime ntal dimensions, the according to ? theorem f2 ( ? 1,? 2,? 3,â⬠¦.. , ? n-m ) = C1 e. g Q = f (d,H,à µ,? ,g) f1 (Q, d, H, à µ, ? , g) = C n = 6; m = 3; (n-m) = 3 f2 ( ? 1, ? 2, ? 3) = C1 Procedure 1. First of all, write the functional relationship with the given data. 2. Then write the equation in its general form. 3. Choose ââ¬Ëmââ¬â¢ repeating variables and write separate expressions for each term. Every ? term will contain the repeating variables and one of the remaining variables. The repeating variables are written in exponential form. 4. With the help of the principle of dimensional homogeneity, find out the values of the exponents by obtaining simultaneous equations. 5. Substitute the value of these exponents in the ? term. 6. After the ? terms are obtained, write the functional relation in the required form. e. g Q = f ( d, H, à µ, ? , g) f1 (Q, d, H, à µ, ? , g) =C n = 6 , m = 3 , (n-m) = 3 f2 (? 1,? 2,? 3)=C1 Choose ? , g, d as repeating variable, ?1 = ? a1 gb1 dc1 Q ? 2 = ? a2 gb2 d c2 H ? 3 = ? a3 gb3 dc3 à µ 59 Selection of Repeating Variable 1. The variables should be such that none of them is dimensionless. 2. No two variables should have the same dimensions. . Independent variables should be as far as possible, be selected as repeating variable. ? fluid property ? flow characteristics l geometric characteristics Example 7. 1 A V-notch weir is a vertical plate with a notch angle ? cut into the top of it and placed across an open channel. The liquid in the channel is backed up and forced to flow through the notch. The discharge Q is some function of the elevation H of upstream liquid surface above the bottom of the notch. In addition it depends upon gravity and upon the velocity of approach Vo to the weir. Determine the form of discharge equation: ?V ? Q = gH 5/2 f ? ,? ? ? gH ? ? ? Q = f (H, g , Vo , ? ) f1 ( Q, H ,g ,Vo, ? ) = C Choose g and H as repeating variables n = 5; n-m =3 ; m=2 ?1 = Ha1 gb1 Q = (L)a1 (LT-2)b1 L3 T-1 ?2 =Ha2 gb2 Vo = (L)a2 (LT-2)b2 LT-1 ?3 = ? (M)o (L)o (T)o = (L)a1 (LT-2)b1 L3 T-1 a1+b1+3 =0 ? a1 = -5/2 -2b1-1 =0 ? b1 = -1/2 ?1 = H-5/2 g-1/2 Q = Q vg H 5/2 (M)o (L)o (T)o = (L)a2 (LT-2)b2 L T-1 a2 = -1/2 60 b2 = -1/2 ?2 =H-1/2 g-1/2 Vo= Vo vgH Q f2 ( gH 5/ 2 Q gH 5/ 2 , Vo ,? gH ) = C1 Vo ,? gH ) Vo ,? gH ) =f( Q = gH 5/2 f ( Example 7. 2 Q = VD 2 f [ Prove that the discharge over a spillway is given by the relation gD H ,] V D where V= velocity of flow D = depth of throat H = Head of water g = Acceleration due to gravity Q= f (V,D,H,G) f1 (Q,V,D,H,G) = C Choose V and D as repeating variables n = 5, m =2, n-m =3 ?1= Va1 Db1 Q = (LT-1)a1 (L)b1 (L3T-1) ?2 = Va2 Db2 H = (LT-1)a2 (L)b2 (L) ?3 = Va3 Db3 g = (LT-1)a3 (L)b3 (LT-2) M0L0T 0 = (LT-1)a1 (L)b1 (L3T-1) 0 = -a1-1 ; a1 = -1 0 = a1+b1+3 ; b1= -2 ?1 = V -1 D -2 Q 61 ?1 = Q VD2 M0L0T 0 =(LT-1)a2 (L)b2 (L) 0 = -a2 a2+b2+1 =0 ; b2 = -1 ?2 = V0 D-1 H = H/D M0L0T 0 = (LT-1)a3 (L)b3 (LT-2) 0 = -a3-2 ; a3 = -2 0 = a3+b3+1 ; b3 =1 ?3 = V-2 D g gD V = f2 ( gD H , )=0 VD 2 D V Q VD 2 Q , = f( gD H ,) V D Q = VD 2 f ( 7. 4 D H ,) V D HYDRAULIC MODELS Hydraulic models, in general, may be either true models or distorted models. True models have all the significant characteristics of the prototype reproduced to scale (geometrically similar) and satisfy design restrictions (kinematic and dynamic similitude). Model-prototype comparisons have clearly shown that the correspondence of behaviour is oft en well beyond expected limitations, as has been attested by the successful operation of many structures designed from model tests. 7. 5 Hydraulic Similitude To know the complete working and behaviour of the prototype, from its model, there hould be a complete similarity between the prototype and its scale model. This similarity is 62 known as hydraulic similitude. From the subject point of view, the following three types of hydraulic similitude are important. (1) Geometric similitude (2) Kinematic similitude (3) Dynamic similitude GEOMETRIC SIMILITUDE The model and the prototype are identical in shape, but differ only in size. (The ratios of all the corresponding linear dimensions are equal) . Let L = Length of the prototype B = Breadth of the prototype D = Depth of the prototype l,b,d = corresponding values of the model L Linear ratio Lr = Area ratio Ar = ( Volume ratio Vr = ( l = BD = bd L B D )2 = ( )2 = ( )2 l b d L B D ) 3 = ( ) 3 = ( )3 l b d KINEMATIC SIMILITUDE The model and the prototype have identical motions. ( The ratios of the velocities at corresponding points are equal) Let V1 = velocity of liquid in prototype at point 1 V 2 = velocity of liquid in prototype at point 2 v1,v2 = corresponding values of the model Velocity ratio Vr = V1 V2 = = â⬠¦.. v1 v 2 DYNAMIC SIMILITUDE The model and prototype have identical forces. (The ratios of the corresponding forces acting at corresponding points are equal). F Force ratio Fr = 1 = f1 F2 â⬠¦.. f2 63 7. 6 CLASSIFICATION OF MODELS (1) Undistorted model (2) Distorted model Undistorted model A model which is geometrically similar to the prototype is known as undistorted model. Distorted model Model does not have complete geometric similarity with the prototype, is known as distorted model. 7. 7 Comparison of an Undistorted Model and the Prototype If the model is to be overall similar to the prototype, then all the three similarities (i. e, geometric, kinematic, dynamic ) should exist. But this is not possible in actual practice, as it is difficult to exist two types of similarities simultaneously. In general, and undistorted model of a prototype is made keeping in view the geometric similarity only and the remaining similarities are then compared for the scale ratio. 7. 8 Velocity of Water in Prototype for the Given Velocity of an Undistorted Model Consider an undistorted model geometrically similar to a proposed prototype like a weir, dam, spillway etc. Let h = head of water over the model v = velocity of water at a point in the model H,V = corresponding values for the prototype 1/s = scale ratio of the model to the prototype Velocity of water in the model v = Cv v2gh Velocity of water on the corresponding point in the prototype V = Cv v2gH C v 2 gh v = = V C v 2 gH h 1 = H s V = v vs Example 7. 3 The velocity at a point on a spillway model of a dam is 1. 3m/sec for a prototype of model ratio 1:10. What is the velocity at the corresponding point in the prototype? 64 Velocity in the model v = 1. 3 m/s Model ratio, 1/s = 1/10 s = 10 Velocity in the prototype V = v vs V =1. 3 x v10 = 4. 11 m/sec 65 References: 1. Hydraulics and Fluid Mechanics P. N. Modi and S. M. Seth 2. Hydraulics, Fluid Mechanics and Hydraulic Machines R. S. Khurmi 3. Fluid Mechanics Victor L. Streeter How to cite Hydraulic Machines, Essay examples
Thursday, December 5, 2019
Dbq- Trade free essay sample
RoadIn the times of the early modern world, there was an increase in desire for new goods and resources, which led countries to explore different lands. More trade routes were made, allowing trade to erupt all around the world. Trade became an important force of change and had many effects on society and foreign relations. From 1300-1800 many European countries wanted to expand and make their lands more bountiful with more resources and goods from other places. Countries wanted what other countries had; for example different types of food and spices. This desire for new goods and resources drove countries to explore new lands and trade with other places so they can attain those things. For example, there was Vasco de Gama of Portugal who travelled to Calicut, India, claiming that he wanted to befriend the ruler of Calicut (document 4). In truth, the reason Vasco de Gama came to India was because he knew that other countries were bringing goods to India and he was interested in discovering what goods and resources they had. We will write a custom essay sample on Dbq- Trade or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page As more trade routes were being made, and more countries were exploring different lands; trade became an important force for change due to the exchanging of different resources and ideas. The Western Hemisphere and the Eastern Hemisphere each had a lot to offer (document 2) and through the many trade routes that were made through the European sea trade (document 5), a lot of goods were now being exchanged. So a variety of lands now had different food, animals, metals, and diseases. In this new modern world, changes began to happen in different areas; lands were now being exposed to different resources unlike what they were used to because of the different goods and resources they were receiving. Another change that occurred because of this age of exploration and trading is the rising of a new merchant class (document 3). The merchants, not only did the trading of goods and resources but also of ideas. Since trading became so big, the merchants who were in charge of it became very wealthy and were always in demand for the goods that they had. These changes stuck in society, and there became a wider variety of goods, resources, and ideas all around the world. Trade provided the world with new resources that they have not seen, which also allowed relationships between countries to interact and improve. For example the letter from the governor of Sijilmasa in southern Morocco, to the king of Ghana in Western Africa (document 1). Even though these two kingdoms are not from the same religion or place, they have put aside their differences and agreed on the issue that merchants should not be imprisoned. Trade has let completely different people interact and communicate humanly even though they are not the same. Another example is what Pope Innocent III granted to Venice (document 6). Under normal circumstances the pope did not allow Venice to trade with Muslim because they were at war with them, but due to critical conditions, an acception was made, to allow the people of Venice to live well. Venice was now allowed to trade with the Muslims, so the relationship between those two lands were mended slightly due to this. In general because of the European sea trade and all the trade routes that there were, countries were forced to interact more with each other, so just in that aspect itself it improved relationships between countries, different lands, and leaders themselves. In the 1300ââ¬â¢s to the 1800ââ¬â¢s, goods and resources became more desirable so trade routes flourished throughout the European sea trade. Trade introduced new resources and ideas to different countries and lands, and came up with a new merchant class. It improved different countries relationships with each other and helped countries interact better.
Thursday, November 28, 2019
Are Eyewitnesses Reliable essays
Are Eyewitnesses Reliable essays Studies say that even though 50% of eyewitness testimonies are wrong, the information given to the jury by a confident eyewitness beats the reliable facts of fingerprints and DNA. Researchers have studied the affects of eyewitness testimony and it is said that incorrect eyewitness identifications account for more convictions of innocent people than any other causes combined. Two studies have shown that after being questioned for a crime, positive feedback by police enforcers or other investigators made the eyewitness more confident, even if there answer was wrong. Unfortunately, how confident people are about making identifications doesn't necessarily reflect how accurate their identification is. In fact, an eyewitness' degree of certainty is quite flexible and can easily become overblown. "Confidence levels can be influenced by external factors that have nothing to do with the witness's actual memories or perceptions of the event." (psychologist, Elizabeth Brimacombe). I believe that eyewitness testimony should not be used in court cases in which it is the only factor of determining the defendant's future. Other factors should be considered. In some cases, the jury may not understand the concept of DNA and might not understand the importance and the accuracy of it. They have to understand also, that the witnesses are not lying or being deceptive, they are moral citizens and are trying to be contributive. In order to understand why eyewitnesses have such a high incorrectness level, it is important to know a few things about memory. A person's memory does not function like a video recorder. It is more like static, which changes and fluctuates over time. When someone experiences a consequential event, they remember only fragments of the situation and re-associate the information with previously stored memories and also prior expectations. Often times an event occurs in a split second and accurate details about the ev ...
Sunday, November 24, 2019
The Golden Age of Greece Essays - Ancient Greek Architecture
The Golden Age of Greece Essays - Ancient Greek Architecture The Golden Age of Greece The ancient statues and pottery of the Golden Stone Age of Greece were much advanced in spectacular ways. The true facts of Zeuss main reason for his statue. The great styles of the Kouros and the Kore. The story of The Blinding of Polphemus, along with the story of Cyclops. The Dori and Ionic column stone temples that were built in Greece that had an distinctive look. The true colors of the vase, Aryballos. The vase that carried liquids from one place to another. The Lyric Poetry that was originally a song to be sung to the accompaniment of the lyre. Zeus was considered, according to Homer, the father of the gods and of mortals. He did not create either gods or mortals; he was their father in the sense of being the protector and ruler both of the Olympian family and of the human race. He was lord of the sky, the rain god, and the cloud gatherer, who wielded the terrible thunderbolt. His breastplate was the aegis, his bird the eagle, his tree the oak. Zeus presided over the gods on Mount Olympus in Thessaly. His principal shrines were at Dodona, in Epirus, the land of the oak trees and the most ancient shrine, famous for its oracle, and at Olympia, where the Olympian Games were celebrated in his honor every fourth year. The Nemean games, held at Nemea, northwest of Argos, were also dedicated to Zeus. Zeus was the youngest son of the Titans Cronus and Rhea and the brother of the deities Poseidon, Hades, Hestia, Demeter, and Hera. According to one of the ancient myths of the birth of Zeus, Cronus, fearing that he might be dethroned by one of his children, swallowed them as they were born. Upon the birth of Zeus, Rhea wrapped a stone in swaddling clothes for Cronus to swallow and concealed the infant god in Crete, where he was fed on the milk of the goat Amalthaea and reared by nymphs. When Zeus grew to maturity, he forced Cronus to disgorge the other children, who were eager to take vengeance on their father. Zeus henceforth ruled over the sky, and his brothers Poseidon and Hades were given power over the sea and the underworld, respectively. The earth was to be ruled in common by all three. Beginning with the writings of the Greek poet Homer, Zeus is pictured in two very different ways. He is represented as the god of justice and mercy, the protector of the weak, and the punisher of the wicked. As husband to his sister Hera, he is the father of Ares, the god of war; Hebe, the goddess of youth; Hephaestus, the god of fire; and Eileithyia, the goddess of childbirth. At the same time, Zeus is described as falling in love with one woman after another and resorting to all kinds of tricks to hide his infidelity from his wife. Stories of his escapades were numerous in ancient mythology, and many of his offspring were a result of his love affairs with both goddesses and mortal women. It is believed that, with the development of a sense of ethics in Greek life, the idea of a lecherous, sometimes ridiculous father god became distasteful, so later legends tended to present Zeus in a more exalted light. His many affairs with mortals are sometimes explained as the wish of the early Greeks to trace their lineage to the father of the gods. Zeus's image was represented in sculptural works as a kingly, bearded figure. The most celebrated of all statues of Zeus was Phidias's gold and ivory colossus at Olympia. The standing nude youth (kouros), the standing draped girl (kore), and the seated woman. All emphasize and generalize the essential features of the human figure and show an increasingly accurate comprehension of human anatomy. The youths were either sepulchral or votive statues. Examples are Apollo (Metropolitan Museum), an early work; Strangford Apollo from Lmnos (British Museum, London), a much later work; and the Anavyssos Kouros (National Museum, Athens). More of the musculature and skeletal structure is visible in this statue than in earlier works. The standing, draped girls have a wide range of expression, as
Thursday, November 21, 2019
Develop your own marketing communication model derived from academic Assignment - 1
Develop your own marketing communication model derived from academic research. Use this model to analyse the Marketing Communications Campaign of your chosen FMCG (Nescaf) brand - Assignment Example Marketing communications, as defined by Egan (2007, p. 1), is ââ¬Å"the means by which a supplier of goods, services, values and/or ideas represent themselves to their target audience with the goal of stimulating dialogue leading to a better commercial or other relationshipsâ⬠. Marketing communications is said to be good when it takes into account three primary elements i.e. audience, message and media (Dahlà ©n, Lange & Smith 2009). These three elements are interlinked and the decision regarding marketing communication tools must take into account all three of them. Marketing communication tools are also known as marketing communications mix or promotional mix. Egan (2007, p. 17) defined these tools as ââ¬Å"tools used in marketing communications such as advertising, sales promotion, public relations, personal selling, direct marketing etcâ⬠. Now the company has to decide how well it can integrate these tools in order to ensure they get a positive feedback from the whol e communication process. Communication process is presented below. There are several marketing communications models developed after much research on the effect of communications on product marketing. All of them try to explore different facets on how consumers perceive information provided to them by the marketer and how they react to it. Since positive reaction/feedback enhance companyââ¬â¢s profits therefore communicating a product in a right manner to the target audiences is very important. Following head discusses the marketing communication models in detail with particular emphasis on two models, Strongââ¬â¢s AIDA model and Mindscape of Integrated Marketing Communications Model (extended version presented by Hartley & Pickton 2010). Marketing communications which is also referred to as Integrated Marketing Communications is ââ¬Å"a process of using a wide range
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