Compare and contrast the social welfare and social workfare-ism models Essay

Compare and contrast the social welfare and social workfare-ism models of citizenship and evaluate their links to political globalization - Essay Example But the policy in this world regarding this is that, if you want to attain something you’ll need to work for it. That’s the reason why there is a must to find a job for every individual, to support their living and continue surviving in this crucial world. And one of the economic problems of each country is the continuously increasing of the number of their people who are unemployed and underemployed. Government organizations worldwide are now in action to dissolve this economic problem. There came social institutions to help build up individual’s function as interdependent units, that each of them are carrying out the full range of his or her roles and responsibilities to have a functional and effective society. The social welfare is opened for everyone. They helped human kind to find their way for a more realistic living with functions in its society. The social workfare came to be presented to the people to achieve the aims and goal in which they provide their people the opportunity and success to help build up a strong community. People of the state will all take advantage of these wonderful opportunities that will help improve their living. The people behind this organized institutions formulated some programs like Non-Formal Education program. This kind of proposals and activity project on a country serves as a support for the foundation of an individual. As we all know that every individual serves as the foundation of a society, and to have a strong society we need a strong foundation also. Every citizen composed a state and should be well founded. This workfare is included under the political stands. Government sectors are responsible of taking good care of its people. Their first aim before taking their position must be for the common good of the people and not for their selves. They take the oath for the common good. Because of having the

Global Warming Research Paper Example | Topics and Well Written Essays - 500 words - 1

Global Warming - Research Paper Example Global warming can be referred to as indisputable and continuous increase in the earth’s temperature. Oxlade defines global warming as â€Å"increase in the temperature of the earth’s atmosphere† (4). Global warming has been linked with natural and human (anthropogenic) causes. However, little attention has been given to natural causes and scientists and environmentalists have mainly focused on human causes. Scientists have established that increasing accumulation of greenhouse gases, especially carbon dioxide, in the earth’s atmosphere is the main cause of global warming. Industrialization era has seen much increase in the concentration of carbon dioxide in the earth’s atmosphere. Humans are the main emitters of carbon dioxide through activities that involve combustion of fossil fuels (Haldar 10). There have been massive carbon dioxide emissions from industry, agriculture and transport sectors. Even lighting systems in homes that use fossil fuel have contributed towards global climate change. Moreover, increasing human population has led to deforestation for to create settlement areas and expand agricultural lands. Trees are known to be important for carbon dioxide sequestration. When trees are cut, forests, which store huge amounts of carbon dioxide, cease to be there. This means an increased amount of carbon dioxide that escape into the atmosphere. The impacts of global warming are already evident across the world. Global warming is having serious implication on human health, global economy, and environment. The temperature of sea and oceans are constantly rising and coastal flooding is becoming more common than ever (Haldar 24). Heat waves are becoming a common phenomenon and many places around the world that were once agriculturally productive are turning into deserts (Gupta 24).

Design Of Wastewater Treatment Plant Environmental Sciences Essay

Design Of Wastewater Treatment Plant Environmental Sciences Essay Industrial wastewater treatment covers the mechanisms and processes used to treat waters that have been contaminated in some way by industrial or commercial activities prior to its release into the environment or its re-use. It involves mainly three stages, called primary, secondary and tertiary treatment. Activated sludge process can be used to treat the wastewater produces from Oushadi Ayurvedic Pharmaceuticals. Contaminants include oils, particulate solids, materials having high concentrations of biochemical oxygen demand (BOD) and suspended solids (SS). Primary treatment consists of temporarily holding the sewage ,where heavy solids can settle to the bottom while oil, grease and lighter solids float to the surface. The settled and floating materials are removed and the remaining liquid may be discharged or subjected to secondary treatment. One major problem faced by Oushadi was the complete removal of oil from wastewater and this posed a threat to the use of treated water for the ir boilers. Secondary treatment removes dissolved and suspended biological matter. Secondary treatment is typically performed by natural, water-borne micro-organisms in a managed habitat. Secondary treatment may require a separation process to remove the micro-organisms from the treated water prior to discharge or tertiary treatment. Tertiary treatment is sometimes defined as anything more than primary and secondary treatment. Comprising over 70% of the earths surface, water is undoubtedly the most precious natural resource that exists on our planet. Recycling of wastewater in industries is therefore a process, which is a necessity rather than a luxury. Wastewater treatment is the process of removing contaminants from wastewater. It includes physical, chemical, and biological processes to remove physical, chemical and biological contaminants. Its objective is to produce a waste stream (or treated effluent) and a solid waste or sludge suitable for discharge or reuse back into the environment. This material is often inadvertently contaminated with many toxic organic and inorganic compounds. Wastewater can cause contamination of ground water, lakes, streams and rivers. It wastes and decreases the amount of potable water available on earth, causes an imbalance in aquatic ecosystems and wastes the nutrients contained in wastewater by not recycling them. Many industries use large volumes of water in their manufa cturing operations. Because some of this water becomes contaminated, it requires treatment before discharge. Improvements in determining the effects of industrial waste discharges have led to the adoption of stringent environmental laws, which define the degree of treatment necessary to protect water quality. Discharge permits, issued under the National Pollutant Discharge Elimination System (NPDES), regulate the amount of pollutants that an industry can return to the water source. The permitted quantities are designed to ensure that other users of the water will have a source that meets their needs, whether these needs are for municipal water supply, industrial or agricultural uses, or fishing and recreation. Consideration is given to the feasibility of removing a pollutant, as well as the natural assimilative capacity of the receiving stream. This assimilative capacity varies with the type and amount of pollutant. Wastewater treatment plants are designed to convert liquid wastes into an acceptable final effluent and to dispose of solids removed or generated during the process. In most cases, treatment is required for both suspended and dissolved contaminants. Special processes are required for the removal of certain pollutants, such as phosphorus or heavy metals. Wastewater can be recycled for reuse in plant processes to reduce disposal requirements. This practice also reduces water consumption. Sahradaya College Of Engineering Technology, Kodakara 1 Design Of Wastewater Treatment Plant 1.1 POLLUTANTS IN WASTEWATER Organic Compounds The amount of organic material that can be discharged safely is defined by the effect of the material on the dissolved oxygen level in the water. Organisms in the water use the organic matter as a food source. In a biochemical reaction, dissolved oxygen is consumed as the end products of water and carbon dioxide are formed. Atmospheric oxygen can replenish the dissolved oxygen supply, but only at a slow rate. When the organic load causes oxygen consumption to exceed this resupply, thus dissolved oxygen level drops, leading to the death of fish and other aquatic life. Under extreme conditions, when the dissolved oxygen concentration reaches zero, the water may turn black and produce foul odours, such as the rotten egg smell of hydrogen sulphide. Organic compounds are normally measured as chemical oxygen demand (COD) or biochemical oxygen demand (BOD). Nutrients Nitrogen and phosphorus are essential to the growth of plants and other organisms. However, nitrogen compounds can have the same effect on a water source as carbon- containing organic compounds. Certain organisms use nitrogen as a food source and consume oxygen. Phosphorus is a concern because of algae blooms that occur in surface waters due to its presence. During the day, algae produce oxygen through photosynthesis, but at night they consume oxygen. Solids Solids discharged with a waste stream may settle immediately at the discharge point or may remain suspended in the water. Settled solids cover the bottom-dwelling organisms, causing disruptions in population and building a reservoir of oxygen-consuming materials. Suspended solids increase the turbidity of the water, thereby inhibiting light transmittance. Deprived of a light source, photosynthetic organisms die. Some solids can coat fish gills and cause suffocation. Sahradaya College Of Engineering Technology, Kodakara 2 Design Of Wastewater Treatment Plant Acids and Alkalies The natural buffering system of a water source is exhausted by the discharge of acids and alkalies. Aquatic life is affected by the wide swings in pH as well as the destruction of bicarbonate alkalinity levels. Metals Certain metals are toxic and affect industrial, agricultural, and municipal users of the water source. Metals can cause product quality problems for industrial users. Large quantities of discharged salts necessitate expensive removal by downstream industries using the receiving stream for boiler makeup water. The contaminants in wastewater are removed by physical, chemical and biological methods. The specific method are classified as physical unit operations, chemical unit processes and biological unit processes. 1.2 Unit Operations and Process in Wastewater Treatment TABLE 1.1 Operations and Process in Wastewater Treatment Contaminant Unit Operations/ Processes Classifications Suspended solids Screening Sedimentation Floatation Filtration Physical Biodegradable Organics Activated Sludge Trickling Filters Rotating Biological Contactors Biological Phosphorus Lime Coagulation Chemical Heavy Metal Chemical Precipitation Chemical Sahradaya College Of Engineering Technology, Kodakara 3 Design Of Wastewater Treatment Plant CHAPTER 2 WASTEWATER CHARACTERISTICS 2.1 WASTEWATER CHARACTERISTICS To design a treatment process properly, characterization of wastewater is perhaps the most critical step. Wastewater characteristics of importance in the design of a treatment process can be grouped into the following categories:  · Temperature  · pH  · Colour and Odour  · Carbonaceous substrates  · Nitrogen  · Phosphorous  · Chlorides  · Total and volatile suspended solids (TSS and VSS)  · Toxic metals and compounds  · Density  · Oil grease  · Alkalinity 2.1.1 Temperature: The temperature of wastewater is commonly higher than that of the local water supply, because of the addition of warm water from household activities. As the specific heat of water is much greater than that of air, the observed wastewater temperatures are higher than the local air temperatures during most of the year and are hotter only during the hottest summer months. Depending on the location and time of the year the effluent temperatures can either higher or lower than the corresponding influent values. 2.1.1.1 Effect of temperature The temperature of water is a very important parameter because of its effect on chemical reactions and reaction rates, aquatic life, and the suitability of the water for beneficial purposes. In addition, oxygen is less soluble in warm water than in cold water. The increases in rate of biochemical reactions that accompanies an increase in temperature, combined with the decrease in the quantity of oxygen present in surface waters, can often cause serious depletions in dissolved oxygen concentrations in summer months. Optimum temperatures for bacterial activity are in range from 25 to 35oC.Aerobic digestion and nitrification stops when the temperature rises to 50oC. When the temperature drops to about 15oC, methane producing bacteria become quite inactive and at about 5oC, the autotrophic nitrifying bacteria practically Sahradaya College Of Engineering Technology, Kodakara 4 Design Of Wastewater Treatment Plant cease functioning. At 2oC, even the chemo heterotrophic bacteria acting on carbonaceous material become essentially dormant. 2.1.2 pH: The hydrogen ion concentration is an important quantity parameter of both natural waters and wastewaters. The usual means of expressing the hydrogen ion concentration is as pH, which is defined as the negative logarithm of hydrogen ion concentration. The concentration range for the existence of most biological life is quite narrow and critical typically 6 to 9. Wastewater with a extreme concentration of hydrogen ion is difficult to treat by biological means, an if concentration is not altered before discharge, the wastewater effluent may alter the concentration in the natural waters. For treated effluents, discharged to the environment the allowed pH range usually varies from 6.5 to 8.5. The pH of fresh domestic waste water is slightly more than that of the water supply to the community. However, the onset of septic conditions may lower the pH while the presence of industrial wastes may produce extreme fluctuations. 2.1.3 ODOUR AND COLOUR: Fresh domestic waste water has slightly soapy and earthy odour and cloudy appearance depending upon its concentration, With the passage of time, the waste water becomes stale, darkening in colour with a pronounced colour due to microbial activity. 2.1.3.1 Odour: Odours are usually caused by gases produced by the decompositions of organic matter or by substances added to the waste water. Fresh wastewater has a distinctive, somewhat disagreeable odour which is less objectionable than the odour of wastewater which has undergone anaerobic decomposition. The most characteristic odour of stale or septic wastewater is hydrogen sulfide. Odours have been rated as the foremost concern of public relative to wastewater treatment facilities. Within the past few years, the control of odour has become major consideration in the design and operation of wastewater collection, treatment and disposal facilities, especially with respect to public acceptance of these facilities. Effect of Odours: The importance of odours at low concentrations in human terms is related primarily to psychological stress they produce rather than to the harm they do to the body. Offensive odours can cause poor appetite, lower water consumption, impair respiration, nausea and vomiting and mental perturbation. Some odorous compounds are toxic at elevated concentrations. Sahradaya College Of Engineering Technology, Kodakara 5 Design Of Wastewater Treatment Plant 2.1.3.2 Colour: Historically, the term condition was used along with composition and concentration was used to describe waste water. Conditions refer to the age of wastewater, which is determined qualitatively by its colour and odour. Fresh wastewater is usually a light brownish grey colour. However as the travel time in collection system increases, and more anaerobic conditions develop, the color of waste water changes sequentially from grey to dark grey and ultimately black . When the color of wastewater is black, the wastewater is described as septic . In most cases the grey , dark grey and black color of wastewater is due to formation of metallic sulphites which form as the sulphide produced under anaerobic conditions react with metals in the wastewater. 2.1.4 CARBONACEOUS CONSTITUENTS: Carbonaceous constituents are measured by BOD, COD or TOC analyses. While the BOD has been the common parameter to characterize carbonaceous material in wastewater, COD is becoming more common in most current comprehensive computer simulation design models. 2.1.4.1 Biochemical Oxygen demand: The BOD test gives a measure of the oxygen utilized by bacteria during the oxidation of organic material contained in a waste water sample. The test is based on the premise that all the biodegradable organic material contained in the wastewater sample will be oxidized to CO2 and H2O, using molecular of oxygen as the electron acceptor. Hence, it is a direct measurement of oxygen requirements and an indirect measure of biodegradable organic matter. 2.1.4.2 Chemical oxygen demand: The COD test is based on the principal that most organic compounds are oxidized to CO2 and H2O by strong oxidizing agents under acid conditions. The measurement represents the oxygen that would be needed for aerobic microbial oxidation, assuming that all organics are biodegradable. 2.1.4.3 Total Organic Carbon: The total carbon analyzer allows a total soluble carbon analysis to be made directly on an aqueous sample. In many cases TOC can be correlated with COD and occasionally with BOD values. Sahradaya College Of Engineering Technology, Kodakara 6 Design Of Wastewater Treatment Plant Table 2.1: Definition of Solids Found in Wastewater Test Description The residue remaining after a wastewater Total Solids (TS) Total Volatile Solids(TVS) sample has been evaporated and dried at a specified temperature (103-105oC). Those solids that can be volatilized and burned off when the TS are ignited (500 ±50 oC). oTotal Fixed Solids (TFS) The residue that remains after TS are ignited (500 ±50 C). Portion of the TS retained on a filter with a specified pore size, measured after being dried at a specified temperature (105oC). The Total Suspended Solids (TSS) Volatile Suspended Solids (VSS) Settle able Solids filter used most commonly for the determination of TSS is Whatman glass fiber filter which has a nominal pore size of about 1.58 µm. Those solids that can be volatilized and burned off when the TSS are ignited (500 ±50 oC). Suspended solids, expressed as mL/L, that will settle out of suspension with in a specified period of time. Sahradaya College Of Engineering Technology, Kodakara 7 Design Of Wastewater Treatment Plant CHAPTER 3 STAGES OF WASTEWATER TREATMENT 3.1 STAGES OF WASTEWATER TREATMENT 1) Preliminary Treatment: Removal of wastewater constituents such as rags, sticks, floatable grit and grease that may cause maintenance or operational problems with treatment operations, process and ancillary systems. 2) Primary treatment: Removal of a portion of suspended solids and organic matter from the wastewater. 3) Advanced Primary: Enhanced removal of suspended solids and organic matter from the wastewater typically accomplished by chemical addition to wastewater. 4) Secondary treatment : Removal of biodegradable organic matter (in solution or suspension) 5) Secondary with nutrient removal: Removal of biodegradable organics, suspended solids and nutrients. (N2, P or both N2 and P). 6) Tertiary treatment: Removal of residual suspended solids (after secondary treatment) usually by granular medium filtration or micro screens. Disinfection is also typically a part of tertiary treatment. Nutrient removal is often included in this definition. 7) Advanced Tertiary: Removal of dissolved and suspended materials remaining after normal biological treatment when required for various water reuse applications. 3.2TREATMENT PROCESS FLOWSHEET: Depending on the contaminants to be removed, an almost limitless number of process combinations can develop using the unit operations and process. The term flow sheet is used to describe particular combinations of unit operations and process used to achieve a specific treatment objective. Apart from the analysis of the technical feasibility of the individual treatment methods, the exact flow-sheets configuration will depend on factors such as (1) the needs of the of the clients needs, (2) the designers past experience, (3) regulatory agency policies on the application of specific treatment methods, (4) the availability of equipment suppliers, (5) what use can be made of existing facilities, (6) the availability of qualified operating personnel, (7) initial construction costs and (8) future operation and maintenance costs. Sahradaya College Of Engineering Technology, Kodakara 8 Design Of Wastewater Treatment Plant The Process Flow Sheet proposed in this project for the wastewater treatment is as shown below : Figure 3.1: Process Flow Sheet Table 3.1: LEVELS OF WASTEWATER TREATMENT TREATMENT LEVEL DESCRIPTION Removal of wastewater constituents Such as Preliminary rags,sticks, floatables,grit and grease that may cause maintenance or operational problems with the treatment operations. Primary Removal of apportion of the suspended solids and organic matters from wastewater. Enhanced removal of suspended solids and Advanced Primary organic matters from wastewater typically accomplished by chemical addition or filtration. Secondary Removal of biodegradable matters and suspended solids Secondary with Nutrient removal Removal of biodegradable organics and nutrients. Tertiary Removal of residual suspended solids usually by granular medium filtration or micro screen Sahradaya College Of Engineering Technology, Kodakara 9 Design Of Wastewater Treatment Plant CHAPTER 4 LITERATURE REVIEW 4.1 SCREENING The first unit operation generally encountered in wastewater is screening. A screen is a device with opening, generally of uniform size, that is used to retain solids found in the influent wastewater to the treatment plant. The principle role of screening is to remove coarse material from the flow stream that could damage subsequent process equipment, reduce overall treatment process reliability and effectiveness and contaminate waterways. Fine screens are sometimes used in place of or following coarse screens where greater removal of solids are required to protect process equipment and eliminate materials that may inhibit the beneficial reuse of bio-solids. All aspects of screening, removal, transport and disposal must be considered in the application of screening devices including 1. The degree of screening removal required, because of potential effects of downstream processes 2. Health and safety of operators as screenings contain pathogenic organism that attract insects 3. Odour potential 4. Requirements for handling transport and disposal 5. Disposal options Two general types of screens, coarse screens and fine screens are used in preliminary treatment of wastewater. Coarse screens have clear opening ranging from 6 -150mm, Fine screens have openings ranging less than 6mm. Micro screens will generally have screen opening less than 50 µ m, are used principally in removing fine solids from treated effluents. Bar rack for the removal of coarse solids. 4.2 GRIT REMOVAL Removal of grit from wastewater may be accomplished in grit chambers or by the centrifugal separation of solids. Grit chambers are designed to remove grit, consisting of sand, gravels, cinders or other heavy solid materials that have subsiding velocities of specific gravities substantially greater than those of the organic putrescible solids in wastewater. Grit chamber are most commonly located after the bar screen and before the primary sedimentation tanks. Sahradaya College Of Engineering Technology, Kodakara 10 Design Of Wastewater Treatment Plant Locating grit chamber ahead of wastewater pump when desirable, would involve placing them at considerable depth at added expense. It is therefore deem more economical to pump the wastewater, including the grit to grot chamber located at a convenient position ahead of the treatment plant units, recognising that pumps may require greater maintenance. 4.2.1 Why Grit is removed?  · Prevent wear on pumps  · Accumulation in clarifiers  · Accumulation in aeration tank  · Accumulation in digesters  · Clogging of sludge piping 4.2.2 TYPES OF GRIT CHAMBERS Grit chambers are provided to (1) Reduce formation of heavy deposits in pipelines, channels and conduits (2) reduce the frequency of digester cleaning caused by excessive accumulation of grit (3) Protect moving mechanical equipment from abrasion and accompanying abnormal wear. There are three general type of grit chamber: Horizontal flow either rectangular or square configuration; aerated or vortex type. The aeration type consists of a spiral flow aeration tank where the spiral velocity is induced and controlled by the tank dimension in and quantity if air supplied to the unit. The vortex type consists of cylindrical tank, in which the flow enter tangentially vortex flow pattern; centrifugal and gravitational forces causes the grit to separate. Design of grit chamber is commonly based on removal of grit particles having a specific gravity of 2.65 and wastewater temperature 15.5oC. However analysis of grit removal data indicates the specific gravity ranges from 1.3-2.7. Horizontal Flow Grit Chambers In the horizontal flow type the flow passes through the chamber in a horizontal direction and the straight line velocity of flow is controlled by the dimension of the unit, an effluent distribution gate and a weir at the effluent end. Rectangular and square Horizontal flow grit chambers have been used for many years. Sahradaya College Of Engineering Technology, Kodakara 11 Design Of Wastewater Treatment Plant Typical Design Information for Horizontal Flow Grit Chamber Table 4.1 Item Detention time Horizontal velocity Settling velocity for removal of .21mm material Settling velocity for removal of .15mm material SI Unit Range Typical s 45-90 60 m/s .25-.4 .3 m/min 1-1.3 1.15 m/min .6-.9 .75 % 30-40 36 % 25-50 30 Head loss in a control section as % depth in channel Added length allowance for inlet and outlet turbulence Horizontal- Velocity Grit Chambers: They are controlled by either a  · Parshall flume  · Proportional weir Parshall fume is used more widely due to less head loss than the weir. The flume and weir are also used to measure flow rates. In the chamber, a constant horizontal velocities is maintained by proper cross-sectional geometry of the chamber.  · Horizontal velocity must be adequate to keep the organic matter in suspension.  · Horizontal velocities should be sufficient so as to prevent scouring of settled grit along the bottom of the channel. Values of .23-.38m/s are common. 4.3 FLOW EQUALIZATION Process for water treatment works best with uniform conditions. Shock to the bioprocesses in the form of sudden change in the concentration of nutrients can upsets. If the concentrations or flow rates of the waste vary greatly, dosages for treatment must be constantly be readjusted. Flow equalization is a method used to overcome the operational problems caused by flow rate variation, to improve the performance of downstream process, and to reduce the size and cost of t downstream treatment facilities. Flow equalisation is damping of flow rate variations to achieve a constant or nearly constant flow rate and can be applied in a number of different situations depending on characteristics of collection system. There may be aeration both to keep the fluid from becoming anaerobic and smelly and to biodegrade some of the organic compound present. Sahradaya College Of Engineering Technology, Kodakara 12 Design Of Wastewater Treatment Plant The principle applications are for the equalisation of: 1. Dry weather flow to reduce the peak flow and loads. 2. Wet weather flow in sanitary collection systems experiencing inflow and infiltration. 3. Combined storm water and sanitary system flows. In the line arrangement all of flow passes through equalisation basin. This arrangement can be used to achieve considerable amount of concentration and limits its divert into equalisation basin. Although the pumping requirements are reduced in this arrangement, the amount of constituents concentration damping is considerably reduced. The principle benefits that are cited as derived from application of flow equalisation are: 1. Biological treatment is enhanced, because shock loadings are eliminated or minimised, inhibiting substances can be diluted and pH can be stabilised. 2. The effluent quality and thickening performance of secondary sediment tank following biological treatment is improved consistency in solid loading. 3. Effluent filtration surface area requirements are reduced, filtered performance is improved and more uniform filter back wash cycles are possible by lower hydraulic loading. 4. In chemical treatment, damping of mass loading improves chemical feed control and process reliability. 5. Often the rest of the plant designed with a smaller equipment( less capital investment) because of this improvement in performance. Disadvantage of flow equalisation include  · Relatively large land areas are required.  · Equalisation facilities may have to be covered for odour control near residential area.  · Additional operation and maintenance required  · Capital cost is increased. 4.4 PRIMARY SEDIMENTATION The objective of treatment by sedimentation is to remove readily settle able solids and floating materials and thus reduce the suspended solids content. Primary sedimentation is used as a preliminary step in the further processing of the waste water. Efficiently designed and operated primary sedimentation tanks should remove from 50-70% of the suspended solids and from 25-40% of the BOD. Sedimentation tanks have also been used as storm water retention tanks which are designed to provide a moderate detention period (10-30mins) for overflows from either combined sewers and storms sewers. The purpose of sedimentation is to remove a substantial portion of organic solids that otherwise would be discharged directly to the receiving waters. Sedimentation tanks have also been used to provide detention periods sufficient for effective disinfection of such overflows. Sahradaya College Of Engineering Technology, Kodakara 13 Design Of Wastewater Treatment Plant 4.4.1DESCRIPTION Almost all treatment plants are mechanically cleaned sedimentation tanks of standardized circular or rectangular design. The selection of the type of sedimentation unit for a given application is governed by the size of the installation, by rules and regulations of local control authorities, by local site conditions and by the experience and judgment of the engineer. Two or more tanks have to be provided so that the process may remain in operation when one tank is out of service for maintenance and repair work. RECTANGULAR TANKS Rectangular sedimentation tanks may use either chain and flight solids collectors or travelling bridge type collectors. The solids settling in the tank are scraped solids hoppers in small tanks and transfers troughs in large tanks. In every long unit two collection mechanisms can be used to scrape solids to collection points near the middle of the tank length. Where possible, it is desirable to locate solids pumping facilities close to the collection hoppers. 4.4.2 SEDIMENTATION TANK PERFORMANCE The efficiency of sedimentation basins with respect to removal of BOD and TSS is reduced by 1. Eddy currents formed by inertia of incoming fluid 2. Wind induced circulation cells formed in uncovered tanks 3. Thermal convection currents BOD AND TSS REMOVAL R= Where R expected removal efficiency t- detention time a, b empirical constants 4.4.3 DETENTION TIME The bulk of finely divided solids reaching primary sedimentation tanks is incompletely flocculated but is susceptible to flocculation. Flocculation is aided by eddying motion of the fluid within tanks and proceeds through the coalescence of fine particles at a rate that is a function of their concentration and of the natural ability of the particles to coalesce upon collision. Coalescence of a suspension of solids becomes more complete as time elapses, thus detention time is a consideration in the design of sedimentation tank. Normally primary sedimentation tanks are designed, to provide 1.5-2.5hrs of detention based on the average rate of waste water. Sahradaya College Of Engineering Technology, Kodakara 14 Design Of Wastewater Treatment Plant 4.4.4 SCOUR VELOCITY To avoid the resuspension or stirring of resuspended particles horizontal velocity through the tank should be kept considerably low. The following equation gives critical velocity. ( ) VH=[ ] Where VH Horizontal velocity that will just produce scour, LT-1 (m/s) K Constant that depends on type of material being scoured s Specific Gravit

The Dystopia of William Gibsons Neuromancer Essay -- Neuromancer Essa

The Dystopia of the Neuromancer The Neuromancer is a world of darkness, where the society is slowly becoming corrupted. There is violence, excessive drug use, and lack of individuality, which portray this world as a disturbed and inhumaine society. The Neuromancer is an experiment to see how the society would react if the world was taken over by computers, and everyone were only concerned about themselves and their survival. Unfortunately, it is only a test, which ended up blowing up in their faces. The dystopia of the Neuromancer casts a dark shadow, which destroys the living. The violence in the Neuromancer is insaine. Constantly, there is someone dead, injured, or running away from someone else. Survival is the key element in living in this type of society. No one has time to think about others, because they are running for their own life. This is the worst society to be involved with. There are guns, knives, blood everywhere, and people crying out for help. The Neuromancer is a world of poverty, and where there is poverty, crime usually occurs. For instance, Case spend the night in a "Cheap Hotel"(19), which he implied was "the most expensive place he ever stayed in. When poverty gets to the point where something cheap is luxury, there is a problem. Case had to sleep in a coffin, a dead man's bed. It is as if he is dying inside that the society around him has gotten to this point of destruction. The "black clinic",(14) where surgery was performed to prolong the lives of humans by means of computers, litterally ripped out the human soul and replaced it w ith a machine. The human being has died, and only a machine was left to live. That is the reason Case sleeps in a coffin. His soul has died and computers have... ...o critically think. The same with this artificial intelligence. These people do their duty and move on. When the society becomes this passionless, it becomes dark and dystopic. Toward the end of the novel, the dystopia has increased. While performing surgery, the doctor took away his ability to get high off of drugs, in order to help him work better. However, now he has no escape method, because the one thing that helped him get his mind off of what is going on has been taken away from him. This artificial intelligence agency has gone too far. They control every aspect of his life. This is where dystopia is at its peak! When a world becomes the slave to cyberspace, there is a problem. No computer has the right to control human mind. Whether it is for work reason or social reasons, humans must be left to decide on their own rather than computers deciding for them.

Application of Motivation Theories in Organizations

Once Inside the website, your first task Is to click on your neighborhood, clearly Indicated on a large Interactive flash map. For Example, If you vive in Kamala or Heliports, you would click the corresponding section on the map. Every conceivable restaurant chain and independent eatery is present on Total. Com like ( KEF, Pizza Hut, McDonald's, Hardness, Chili†s , AIBO El Side, Cook Door, Pedicures, Manikin and much more even El-Table El-Idiomatic & Arrack) you will find them on Total. Com this Is Like fifteen or twenty food courts put together!Detailed menus are posted, complete with Images, descriptions and prices. Items from efferent restaurants can be placed simultaneously in one order, via a user-friendly ordering engine, and the best thing about that you don't have to put your credit card number, you will pay on delivery without any extra fee. The advantage of total. Com: 1 . You can save your favorite order so that you can order them In ONE click the next order 3. You c an set a delivery time for your order to receive it in a later time 4. You can easily find your preferred restaurants' updated menus. 5.You don't have to memorize all your preferred restaurants' phone numbers 6. You eliminate any possibility of being put on hold or redialing after a busy signal 7. Avoid errors done by restaurants' operators. 8. Unlike phone calls you get the chance of winning prizes on your orders. The disadvantage of total. Com: 1 . Sometimes the order can be cancelled 2. Some items were missing or not as the ones you requested 3. Sometimes take a long time to receive the order 4. Not all areas are available as not all areas are included in the delivery services of the restaurants' listed on Total. Com.

Graded Assignments Essay

You will learn how to match common risks or threats within the seven domains of a typical IT infrastructure with solutions and preventative actions. Assignment Requirements This is a matching activity. You will receive the Match Risks/Threats to Solutions worksheet, which contains a numbered list of common risks and threats found in a typical IT infrastructure. You must enter the letter for the correct solution or preventative action in the blank to the right of each risk or threat. Instructions: You are presented with a list of some risks and threats associated with the seven domains of a typical IT infrastructure. Below the list, the solutions or preventive actions to manage those risks and threats are listed. Write the letter of the correct solution or preventative action in the blank to the right of each risk or threat. Risks or threats: 1. Violation of a security policy by a user c ________ 2. Disgruntled employee sabotage i ________ 3. Download of non-business videos using the a ________ Internet to an employer-owned computer 4. Malware infection of a user’s laptop l ________ 5. Unauthorized physical access to the LAN n ________ 6. LAN server operating system vulnerabilities f ________ 7. Download of unknown file types from unknown sources by local users b ________ 8. Errors and weaknesses of network router, firewall, and network h ________ appliance configuration file m ________ 9. WAN eavesdropping 10. WAN Denial of Service (DoS) or Distributed Denial of d ________ Service (DDoS) attacks 11. Confidential data compromised remotely k ________ 12. Mobile worker token stolen g ________ 13. Corrupt or lost data e ________ 14. Downtime of customer database j ________  © ITT Educational Services, Inc. All Rights Reserved. -2- 02/12/2012 NT2580 Introduction to Information Security STUDENT COPY: Graded Assignment Requirements Solutions or preventative actions: A. Enable content filtering and antivirus scanning at the entry and exit points of the Internet. Enable workstation auto-scans and auto-quarantine  for unknown file types. B. Apply file transfer monitoring, scanning, and alarming for unknown file types and sources. C. Place employee on probation, review acceptable use policy (AUP) and employee manual, and discuss status during performance reviews. D. Apply filters on exterior Internet Protocol (IP) stateful firewalls and IP router WAN interfaces. E. Implement daily data backups and off-site data storage for monthly data archiving. Define data recovery procedures based on defined Recovery Time Objectives (RTOs). F. Define vulnerability window policies, standards, procedures, and guidelines. Conduct LAN domain vulnerability assessments. G. Apply real-time lockout procedures. H. Define a strict zero-day vulnerability window definition. Update devices with security fixes and software patches right away. I. Track and monitor abnormal employee behavior, erratic job performance, and use of IT infrastructure during off-hours. Begin IT access control lockout procedures based on AUP monitoring and compliance. J. Develop a disaster recovery plan (DRP) specific to the recovery of mission-critical applications and data to maintain operations. K. Encrypt all confidential data in the database or hard drive. L. Use workstation antivirus and malicious code policies, standards, procedures, and guidelines. Enable an automated antivirus protection solution that scans and updates individual workstations with proper protection. M. Use encryption and virtual private network (VPN) tunneling for secure IP communications. N. Make sure wiring closets, data centers, and computer rooms are secure. Provide no access without proper credentials. Assignment Requirements You are a networking intern at Richman Investments, a mid-level financial investment and consulting firm. Your supervisor has asked you to draft a brief report that describes the â€Å"Internal Use Only† data classification standard of Richman Investments. Write this report addressing which IT infrastructure domains are affected by the standard and how they are affected. In your report, mention at least three IT infrastructure domains affected by the â€Å"Internal Use Only† data classification standard. Your report will become part of an executive summary to senior management. User Domain is where only one user will have access to it. This can be configured to internal use only. By default, the IT department tries to maintain a certain level of Security for this, so that nobody can access  from the outside, only the IT Department can grant access privilege for Remote Access Point. The User Domain will enforce an acceptable use policy (AUP) to define what each user can and cannot do with any company data that he or she has access to. Also, every user on the company is responsible for the security of the environment. Workstation Domain is where all the users work. Before a user can log into the machine, he/she will need to be verified in order to gain access. At Richman Investments, we provide very secure access for the employee workstations with a username and password. A security protocol requires the password to be changed every 30 days. All computers maintain regular updates and continuous antivirus protection for monitoring. Additionally, no personal devices are allowed on the network. The Local Area Network (LAN) Domain is a group of computers all connected to a single LAN domain. The LAN Domain is a collection of computers connected to one another or to a common medium. All LAN domains include data closets, physical elements of the LAN, as well as logical elements as designated by authorized personnel. It requires strong security and access controls. This domain can access company-wide systems, applications, and data from anywhere within the LAN. The LAN support group is in charge maintaining and securing this domain. The biggest threat to the LAN domain is Un-authorized access to anything (the LAN, the systems, & the data) on the network. One thing we can do is requiring strict security protocols for this domain, such as disabling all external access ports for the workstation. This would prevent any user within the company from bringing an external jump drive, and connecting it to the workstations. This way, we can control company intellectual property, and prevent viruses on the LAN network.