A Christmas Carol by Charles Dickens Essay -- Christmas Carol Charles

A Christmas Carol by Charles Dickens Charles Dickens wrote his novels during the Victorian times. Britain was a harsh place at this time with the upper and lower classes being clearly separated. Dickens himself grew up as part of the lower classes, and so he knew what it was like. It was very hard for the poor to survive, many of them having no alternative but to go into the workhouses. This seemed to be the worst place to end up, as many people would rather have died than gone into the workhouses. When people went to the workhouses, they were separated from their families, forced to work long hours and hardly fed at all. The workhouse system was the upper classes solution to poverty, but it did not help at all. The lower classes were still living very hard lives. Dickens published 'A Christmas Carol' in 1843 to try to bring the lower classes hard lives to the attention of people who could do something about it; the upper classes. He decided to write a novel because he felt that more people would take an interest in a book rather than leaflet, because the attitude towards helping the poor was not good. In the novel, the main character, Scrooge, is used to personify the upper classes. The three ghosts are used to show that the poor are not all 'idle' and that some are genuinely in need. Before the ghosts came, Scrooge was 'hard and sharp as flint' and solitary as an oyster'. There is a lot of descriptive language used about Scrooge (in the 6th - 8th paragraphs) by Dickens, which gives the impression that Scrooge was bitter, cold and lonely. He believed that if people were poor, it was not his 'business' and he just wanted 'to be left alone'. He refused to give money to the poor at Christmas and sai... ...f they do not change their ways, then the poor people who still have some dignity, who were shown by the 'Ghost of Christmas Present', will also eventually become so desperate, that the seedy, dirty London that is shown by the 'Ghost of Christmas Yet to Come' is what the whole city will end up like. Dickens presents the lower classes realistically; he does not try to make out that all poor people are kind hearted. He tries to make the upper classes realise that the situation of the poor can only get better if they do something to help. He also tries to make the reader feel concerned about Tiny Tim and show the upper classes that they can help; when Tiny Tim is mentioned, it is almost like a personal appeal to the reader to help someone in need. Dickens presents the lower classes effectively and this is probably why the book is still very popular today.

Energy Requirements In Post Combustion Environmental Sciences Essay

Recently there has been increased involvement in C gaining control engineerings. There are a figure of factors act uponing this increased consciousness. There is increased credence that important decreases in CO2 emanations are required to avoid earnestly impacting the planetary clime, these decreases are improbable to be achieved through decreases in planetary energy demand. Therefore capturing CO2 before it enters the ambiance becomes a feasible option to cut down emanations. Post-combustion CO2 gaining control ( PCC ) engineering is a promising engineering that has possible to significantly cut down CO2 emanations from big point beginnings such as power workss. The chief advantage that station burning gaining control engineerings have over other gaining control methods is that bing power workss can be retrofitted with the engineering leting for a more immediate decrease in C emanations than is possible with the other possible engineerings. This is an of import consideration as the typical lifetime of a coal fired power works is 25 old ages which means that merely PCC can efficaciously turn to emanations from most of the universes presently runing power Stationss. However, PCC incurs higher energy punishments than pre-combustion gaining control engineerings and because there are non sufficient fiscal and legislative punishments for CO2 emanations PCC has yet to be demonstrated on a full graduated table footing and hence these energy costs can merely be quantified on a theoretical footing. Coal holds the largest portion of worldwide electric power production by a broad border, accounting for 40 % of universe energy supply in 2008. With this figure merely expected to somewhat diminish to 37 % by 2035 [ 1 ] . Because of coals laterality of the energy production sector and the higher C emanations associated with the combustion of coal we will concentrate on the energy efficiencies associated with using PCC to these workss. Modern coal fired power workss operate by using powdered coal. This coal is assorted with air and so fire in a boiler. The steam generated is used to turn a turbine generator and the waste burning gases are released to the ambiance. These gases consist chiefly of nitrogen plus H2O and CO2. Additional merchandises, depending on the pureness of the coal used, can include sulphur dioxide and N oxides. A typical powdered coal power works emits about 743 g/kWhr of CO2 [ 2 ] . As CO2 typically merely accounts for 12.5-12.8 % of the entire flue gas volume the separation of this from the other constituents is non a simple undertaking and requires energy input to accomplish.Minimum Energy RequirementThe thermodynamic lower limit specific energy demand for CO2 gaining control is shown in Figure. If an mean provender gas mole fraction of 12 % is taken so we can see that about 20 % extra energy is required in order to accomplish 100 % CO2 separation. Figure: Minimum specific energy demand for separation as a map of molar fraction in the provender gas for different fractional remotion ( T= 313 K ) [ 3 ] . In add-on to being separated from the remainder of the fluke gases the CO2 besides needs to be compressed from atmospheric force per unit areas to force per unit areas of typically 15 MPa, which are more contributing for station burning storage or transit. The minimal energy demand in order to accomplish a compaction from 0.1MPa at a temperature of 313 K to 15 MPa is 0.068 kWh/kg CO2. Figure shows the minimal energy demand for separation both with and without compaction procedure, presuming a gas mole fraction of 12 % . If we take the Siemens system for PCC as a criterion ; it removes 90 % of CO2 [ 4 ] from the flue gases. This represents 0.114 kWh/kg CO2 theoretical lower limit energy demand. Figure: Minimum specific energy demand for CO2 gaining control and compaction ( 12 % molar fluke gas concentration ) as a map of fractional CO2 remotion: separation merely and separation with compaction to 15 MPa [ 3 ] .CO2 Absorption ProcessThere are a figure of different methods being developed to divide CO2 from the other end product flue gases. Currently absorption procedures appear to be the taking engineering so they will be the focal point of this treatment. Figure shows a typical schematic for a station burning CO2 soaking up procedure. First, the fluke gases are passed through a ice chest, which is required to cut down ammonium hydroxide release in the absorber and diminish the volume of the flue gases. A fan is so required to pump the gas through the absorber which contains the chemical absorbents. The absorbent stuff which now contains the chemically bound CO2 is pumped to the desorber via a lean-rich heat money changer. The desorber regenerates the chemical absorbent by utilizing an addition in temperature ( 370-410 K ) and pressures between 1 and 2 bara. Heat is besides supplied to the re-boiler to keep regeneration conditions for the chemical absorbent which means the procedure incurs an extra energy punishment as the heat is required for steam production which acts as a denudation agent to divide the CO2 from the chemical absorber. The steam is recovered and fed back into the stripper while the extremely pure CO2 gas ( & A ; gt ; 99 % pureness ) leaves the compressor. The absorber chemical, which has had the CO2 removed is fed back into the absorber [ 3 ] . Figure: Schematic of typical station burning gaining control procedure [ 5 ] . Clearly this procedure involves a serious energy punishment as the extra procedures add much greater losingss to the system than the theoretical lower limit energy demands calculated earlier. Table shows the important works efficiency punishment which is the cost of the C gaining control procedure. This efficiency bead is due to increasing resource ingestion per unit of electricity produced and additions in chilling H2O ingestion per unit of electricity produced. Power works and gaining control system type Internet works efficiency without CCS Internet works efficiency with CCS CCS Energy PenaltyAdditional energy input per cyberspace kWh end productDecrease in net kWh end product for a fixed energyinput.Existing subcritical Personal computer, post-combustion gaining control 33 % 23 % 43 % 30 % New supercritical Personal computer, post-combustion gaining control 40 % 31 % 29 % 23 % Table: Valuess for cyberspace pulverised coal power works efficiencies with and without CCS [ 6 ] . This lessening in efficiency means that more fuel is required in order to bring forth the same sum of electricity as before the PCC procedure was added. From Table it can be seen that newer, more efficient workss suffer lower energy punishments when PCC is applied. The bing subcritical powdered coal works a 43 % addition in energy input per kWh end product compared with 29 % for a new supercritical pulverised coal works. Thermal energy demands are the most important factor in the increased energy demands and are the chief challenge confronting efforts to diminish these losingss.Thermal Energy RequirementsChemical soaking up is normally used in industry to take gases and drosss from high value merchandises like H or methane. The issue that arises in using this engineering to the power coevals sector is that it consequences in much larger decreases in efficiencies. while taking H2S from H for illustration may merely take 2.5 % [ 2 ] of the energy content of the H, this loss is much lar ger in power coevals as antecedently shown.Binding Energy RequirementThe heat which is required to interrupt the bond between the CO2 and the absorbent is an of import factor to be taken into consideration. This can be reduced by the usage of aminoalkanes as they can possess a lower binding energy for CO2. Absorbent material Heat of soaking up ( GJ/tonnes CO2 ) MEA-H2O 1.92 DGA-H2O 1.91 DIPA-H2O 1.67 DEA-H2O 1.63 AMP-H2O 1.52 MIDEA-H2O 1.34 TEA -H2O 1.08 Water 0.39 Table: Typical Heat of Absorption for Common Liquid Absorbents [ 7 ] . Table shows the values for heat of soaking up for the most normally used liquid absorbents. MEA-H2O possesses the highest value for adhering energy to the CO2. If this value could be reduced the sum of energy which would be required to divide the CO2 from the absorbent could be significantly decreased. Future developments in chemical absorbents could see the debut of hydrogen carbonate formation, which has been shown to hold the lowest binding energy of any chemical absorbent [ 3 ] taking to important lessening in the energy punishments encountered by the system.Heating of Absorbent in DesorberThe energy consumed by the absorbent heating up in the stripper can be reduced by take downing the heat money changer attack temperature and diminishing the volume of dissolver flow through the desorber. This can be achieved through the usage of 2nd coevals sterically hindered aminoalkanes. This has possible to duplicate the molar capacity of the absorbent. This could take to a bead in energy d emand from 1.2 GJ/tonne CO2 to 0.8 GJ/tonne CO2 which represents two tierces of the first coevals demands. Further betterments in these countries could finally take to 0.08 GJ/tonne CO2 which is predicted for 4th coevals aminoalkanes and attack temperatures [ 3 ] .Reflux RatioDepriving steam in the desorber has to drive the CO2 through the desorption procedure and supply the heat demand of the overall desorber and releases this heat when condensed and this heat is lost in the chilling H2O. Typically the reflux ratio achieved, expressed as H2O/tonnes CO2, is 0.7. This can be improved through the usage of absorbents that posses a higher Carbon dioxide to H2O ratio at the desorber issue. With a 0.1 ratio seen as possible for 4th coevals absorbents.Entire Thermal Energy Requirement ReductionsTable shows how these factors could diminish the thermic energy demand as new coevalss of chemical absorbents are introduced. Decreases in entire thermic energy demand of up to 80 % may be possible if these engineerings can be implemented. Procedure Generation Status G1 G2 G3 G4 Binding Energy ( MJ/kmol CO2 ) 80 70 55 30 Desorber attack temperature ( K ) 15 10 5 3 Solvent Flow ( m3/tonnes CO2 ) 20 10 8 4 Reflux Ratio ( metric tons H2O/tonnes CO2 ) 0.7 0.6 0.4 0.1 Entire Thermal Energy Requirement ( GJ/tonnes CO2 ) 4.56 3.31 2.29 0.95 Table: Possible thermic energy demand betterments [ 3 ] .Power RequirementsPower is required to drive a figure of facets of the PCC procedure: Fan power demand which is determined by the flow rate required and per centum remotion of CO2 sought. Liquid absorbent pump power. Affected by the degree of absorptive regeneration and other such procedures Compaction power demands which depend on the CO2 belongingss and the degrees of compaction required. Current coevals power demand is 0.154 MWh/tonnes CO2 with the mentality for power economy outlined in Table. Procedure Generation Status G1 G2 G3 G4 Entire Power ( MWh/tonnes CO2 ) 0.154 0.138 0.122 0.105 Table: Possible power demand betterments [ 3 ] .DecisionWhile involvement and investing in research in the country of PCC has increased in recent times the procedure is still in the really early phases of development and at the minute the energy costs involved in using this engineering to char discharged power workss make it highly inefficient and economically impracticable. Table shows that in all cases PCC can take to enormous lessenings in the sum of CO2 which emanating from coal fired power workss. However, first coevals PCC engineerings lead to a 40 % lessening in the works efficiency ensuing in 65 % addition in coal ingestion to bring forth the same sum of electricity. PCC Generation Status G1 G2 G3 G4 Efficiency with no gaining control ( % ) 35 41 46 50 CO2 Emission ( No gaining control ) ( metric tons CO2/MWh ) 0.928 0.792 0.706 0.650 Efficiency with 90 % gaining control ( % ) 21.2 31.6 39.7 45.8 CO2 Emission ( with gaining control ) ( metric tons CO2/MWh ) 0.153 0.103 0.082 0.071 Increase in Coal usage due to Capture ( % ) 65 30 16 9 Table: Overall mentality for PCC [ 3 ] . Because these engineerings are in the really early phases of developments there is a immense range for efficiency betterments in both the thermic energy required and the power demands for the procedure. It is seen as an accomplishable end that as engineering is developed that PCC could ensue in every bit small as a 4.2 % lessening in overall works efficiency and a 9 % addition in coal ingestion. These decreases are cardinal to the future use of PCC engineering as if it is non economically feasible for the procedure to be used it will ne'er be adopted.

Comparative Foreign Policies of Cuba, Costa Rica, and Usa

Comparative Foreign Policies of Cuba, Costa Rica, and the U.S.A: The Case of Health Care Policy and Outcomes The United States currently runs an inefficient and expensive healthcare system that provides limited support for its citizens. The problem stems from placing economic benefit miles in front of practical wellness of its people. Other countries, some considered â€Å"third world†, have done the reverse. Ironically, those countries have been internationally recognized over the U.S. when unfolding the quality of health care. Cuba and Costa Rica are nations of distinct economic principle and policy; yet, they share very similar qualities in public health ideology that have made them poster children of health care. Cuban Health Care†¦show more content†¦Compared to 1958 when Cuba had 1 doctor for every 1,100 people, the eve of the 21st century showed more prosperous eminence with 1 doctor for every 170 people (Sixto, 2002). According to the U.S. Department of Health and Human Services, the United States health care system provides 1 physician for every 390 people. Unfortunately, tuberculosis, hepatitis, and chicken pox rose during the 1990s due to the loss of Soviet subsidies causing economic problems after a successful attempt for vaccination in the 1960s (Merz, 2005). Apart from intrinsically promoting quality healthcare, Cuba has expanded its skills beyond its borders. For many decades, Cuba has sent physicians to other parts of the world. Through these efforts, Cuba has supported countries with much needed help in medicine such as Africa, Asia, and even the United States (Gelder, 2007). When a slum dweller in Port au Prince, the son or daughter of a farmer in Honduras, or an indigenous person from Bolivia decides to become a doctor, they turn to Cuba (Gelder, 2007). Cuba graciously turns them into physicians. 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