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bmw r 1100s owners manualBooks Audiobooks Magazines Podcasts Sheet Music Documents (selected) Snapshots Enjoy thousands of titles when you subscribe Read free for 30 days 500 MW Volume 1 Uploaded by friendbce 100 (7) 100 found this document useful (7 votes) 6K views 395 pages Document Information click to expand document information Description: NTPC is going ahead with the commissioning of 660MW units at our Sipat Project. NTPC management firmly believes that skill and expertise up-gradation is a continuous process. The operation manual on 500MW plant provide the information comprehensively covering all the aspects of Power Plant Operation which can be useful for fresh as well as experienced engineers. Report this Document Download now Save Save 500 MW VOLUME 1 For Later 500 MW Volume 1 Original Title: 500 MW VOLUME 1 Uploaded by friendbce 100 (7) 100 found this document useful (7 votes) 6K views 395 pages NTPC is going ahead with the commissioning of 660MW units at our Sipat Project. More Save Save 500 MW VOLUME 1 For Later 100 100 found this document useful, Mark this document as useful 0 0 found this document not useful, Mark this document as not useful Embed Share Print Download now Jump to Page You are on page 1 of 395 Search inside document. It is a tangentially fired boiler with tilting burners. Controlled circulation system is the most features of this boilers (compared with existing210 MW boilers operated by M.S.E.B.) Due to the sub critical operating pressure of 500 MWBoilers, difference in density of Water and Steam is very low and hence natural circulation isnot possible. Hence three pumps are provided in the downcomers of 500 MW Boilers for circulationof water through Water walls. Tubes are rifled bore as against smooth bore tubes used in Boilersoperating on Natural Circulation Due to swirling and highly turbulent flow in rifled bore tubes,boundary layer thickness of the fluid flowing through tubes is very small, thus enhancing theconvective heat transfer rate.http://www.klimaschule.at/file/emerson-fm4-manual.xml

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The disadvantage is high frictional resistance offered to fluid. Important Auxiliaries of the Boiler are: 500 MW BOILER OF CHANDRAPUR T. P. S.- SALIENT FEATURES Auxiliary Important Data Motor Rating Nos. These two lines joinat a Tee connection out side boiler front and runs as a single line to turbine Hall. Similarly onesingle line is used for CRH steam and HRH steam from boiler to turbine. Superheaters:It is in three stages, composed of 1) finishing pendant platen 2) Divisional Panel and 3) Low temperature super heater. Total Heat Transfer surfacearea is 1458 M. The divisional panel is having H.S. Area of 1362 M. It is located in the furnace betweenfront wall and Pendant Platan section. Finishing section is located above furnace arch and consists of 46 Nos. of 54mm O.D. tubes. The front and sideradiant wall sections are composed of 60.3 mm O.D. tubes spaced on 63.5 mm centers acrossfurnace width. Furnace wall:It is composed of 51-mm O.D tubes spaced on 63.5 mm centers. The space between the tubes is fusion welded to form gas tight seals. Circulating Water Pumps:Hayward Taylor Circulating Water Pumps are glandless pumps and consists of a single stage centrifugal pump, 3.3 KV wet stator induction motor, which are mounted within commonpressure vessel. Motor is suspended beneath the pump casing and is filled with boiler drumwater to the drum pressure. No seal exist between pump and motor. Motor is thermally isolatedfrom pump by: a) Thermal Conduction: The pump temperature is very high (340 C) and motor temperatureshould not exceed 54 C. To prevent heat conduction from pump to motor, a restriction in theform of Neck is provided.A baffle ring restricts entry of solids from boilerwater in to the motor casing.Separate pumps, installed at Boiler zero elevation, supply the ACWwater to the cooler. An overhead ACW tank isinstalled at 72- meter elevation, which supplies cooling water to these coolers in case of non-availability of the cooling water pumps for 45 minutes.http://gtstv.ru/images/userfiles/emerson-floboss-s600-manual.xmlThe water for purging isobtained from B. F. P. Discharge or Boiler Fill Pump discharge. A separate cooler is provided tocool the purge water. Gas distribution at outlet U shaped thin sheets, located with 600mm pitch No. The high pressure water-steam loop. If you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.If you continue browsing the site, you agree to the use of cookies on this website. See our Privacy Policy and User Agreement for details.You can change your ad preferences anytime. OnFor The Award of the DegreeSri. B.V.MURALI PRASAD. Dr. NTTPSWe render our thanks to Chairman, Mr.P.USHA KIRAN KUMAR. M.Tech who encourage in doing this project. We are indebted to our beloved Principal, Prof. V. CHINNIAH, Ph.d forWe found immense pleasure in expressing our gratitude to. SRI.G.VENKAT, M.Tech HEAD OF THE DEPARTMENT, department ofWe would like to express our sincere thanks and heart full gratitude toWe feel extremely proud to thank all the staff members for their stunningFinally, We thank one and all who directly and indirectly helped us toIN 500MW THERMAL POWER PLANT” Is done by us, submitted in partial fulfillment ofElectronics Engineering Jawaharlal Nehru Technological University Hyderabad.List of the tables iii. Abstract iv. Introduction v. About Dr.NTTPS vi. The Process of Power Generation viiFigure: 1.2 Cross Sectional View of Four Major Part Form A Power Plant 3. Figure:2.1 WagonTripler 8. Figure: 4.1 Typical Dry Electrostatic Precipitator 15. Figure:5.1 Furnace 22. Figure:5.2 PulverizedFuel System 23. Figure:5.3 Steam Drum 24. Figure:5.4 Economizer 26. Figure:5.6 Pressure Parts 30. Figure:5.7 De-aerator 32. Figure:6.1 Steam Turbine 37. Figure:6.2 Sectional Arrangement of 500mw Turbine Set 41. Figure:7.1 Cross section of Generator 42. Figure:7.2 Stator Frame 43. Figure:7.2 Rotor 44. Figure:8.1 Cooling Tower 47. Figure:10.1 Transformer 50. Figure:10.2 Ideal Transformer. 51Figure:10.3 Mutual Induction 52. Figure:11.1 Single Line Diagram 57. Figure:11.2 Wave trap 60. Figure:11.3 SF6 Circuit Breakers. 63. Figure:11.4 Line DiagramofCT 64. Figure:11.5 Line DiagramofPT 65. Figure:11.6 Capacitor Voltage Transformer 67In a thermal power plant, the energy fromTo meet the variation of fluctuating demands of different consumers from time toThe study of turbine operation and performance plays a vital role for different workingThe source stem must be effectively delivered by the boiler to obtainThe main the me of this project is to study the operation, maintenance and protectionThe power generated by generator is synchronized to grid through generatorSo, it is mostly the terminal form of energy for transmission andThe basic energy conservation cycle in Thermal Plant is as follows:Any thermal powerThe processAny thermal power plant has three apparatus: Boiler, Turbine, and generator. ItsThe basic rawThe major reasons for the losses in power generation by thermal power plant are mainlyIn the thermal powerABOUT Dr.NTTPS. In these modern world electrical power plays an important and vital role for developmentIn Andhra Pradesh there are different power stations under the management of. APGENCO. The important power stations are as follows:Among all such types of power stations, the most reliable and uninterrupted power supplyDr.NTTPS is located 16Km away from Vijayawada on the bank of river Krishna at. Ibrahimpatnam village. Dr.NTTPS now has a installed capacity of 1760MW at GeneratedThe excitation and protection of such huge capacity drive is veryIt consists of turbine on the front side of asDr.NTTPS has become a prestigious power station in the country and bagged many awards andThe hard water isAfter LPH the water enters intoThe main fuel in thermal power stations is the coal. The coal from the mines (majorRailway wagons and the conveyor belt to the main plant and stored in the bunkers. TheThe temperedInjection of the fuel to the furnace is tangentialBy burning of coal in the furnace the flue gases are evolved due to combustion. TheseThe heated water enters into the drum from there it flowsThere the water is evaporated and forms the wetThe boiler drum is made up of carbon steel SA210. Grade C. The boiler drum contains water at the bottom portion and steam will be in the upperThat’s the reasonIn this turbine the steam expands after work done, the exhausted steam from this turbineSuch a steam again reheated in re-heaters like LTRHThe main steam thus obtained has a temperature of 5400. C and at a pressure of 150This reheated steam is supplied to the intermediate pressure turbine and to low pressureWhile super heated steam. This expands continuously by the expansion of steam, theSo the turbine wheel getsSince the turbine shaft is coupled to the generator, by the rotation of generator shaft,Such a power is supplied to national grid from there it wasThe existed steam from the turbine is cooled in condenser, byThis raw water heats up; such heated water is cooled in theSteam is producedFigure: 1.1 Layout of 500MW PowerPlantThe Narla Tata Rao Thermal Power Station is divided into four main circuits:Fuel from the storage is fed to the boiler through fuel handling device. The fuel usedThe quantity ofThis ash is collected at the back ofThe flue gas gases are first pass around theThen its goes toFrom deaerator it goes to boiler feed pump which increases theFrom the BFP it passes through the high pressure heaters. AThis water is called the make up water. Thereafter, feed waterIn boiler tubes water circulatesThe wet steam passes through superheated. From superheated it goes into the HP turbineThe low pressure steam called the cold reheat steamFrom reheater it goes to IP turbine and then to the LPThe water is drawn from reservoir and afterFigure: 1.2 Cross Sectional View of Four Major Part Form A Power PlantBoiler drums. Primary air line (header). De-aerator. Furnace.Steam at mains super heater inlet and outlet. High pressure bypass steam. Auxiliary steam (header). Feed water at economizer inlet point. Water at condenser inlet. Air pre-heaters. Primary and secondary air. Flue gas super heater. Flue gas re-heater. Bearings of turbine and generator.Bearings of FD, ID Fans, and Boiler feedHigh pressure steam. Feed water inlet. Condensate. Heaters drain lines. Primary and secondary air.Boiler drum. Condensate tanks. De-aerators. Heaters (water line). Bearings and shafts of ID, FD, PA Fans, Boiler. Feed pumps, condensate pumps.Heated lines.Conductivity saturated and main line steam. Silica of main steam.Sodium at super heater inlet.Conductivity of makeup water, feed water atSilica in feed water at economizer inlet, boilerSodium in condensate, makeup water. Dematerializes unit outlet. PH of feed water at Economizer, Boiler drum. Dissolved oxygen at condensate pump inlet andTurbidity of condenser outlet. Hydrazine at economizer.Oxygen in flue gas duct between economizerCO2 at air heaters inlet and outlet. CO at stack. SO2 at stack. Nitrogen oxides at stack. Dust concentration at stack (SPM).The coal is brought to the NTTPS through rails there are fourteenEveryday 6 to 7 trains of coal areIt costs approximateThe coal is firstlyTheir the coal is crushed to a size ofThe whole transportation of coal is through conveyorIn the pulverized the coal is crushed into fine power and the coal power is supplied to boilerThe coal handling plant can broadly be divided into three sectionsThe hopper, which is made of IronIt is a mechanical system having two rollers eachThe rollers roll with the help of a rope moving on pulley operated by a slip ringFigure:2.1 Wagon Tripler. Rated Output.:71 KW. Rated Voltage.: 415 V. Rated Current.:14.22Amp. Rated Speed.: 975 rpm. No. of phases.: 3. Frequency.:50 Hz. No. of Wagon Tripler: 6. The four rollers place themselves respectively behind the first and the last pair ofOn the Wagon table a limit is specified in whichIt consists of crushers which are used to crush the coal to 50 mm. size. There are 2. Coal Crushers houses (each crusher house consisting of four crushers) in N.T.T.P.S. TheBasically there are four ways to reduce material size: impact attrition, Shearing and. Compression. Most of the crushers employ a combination of three crushing methods. Ring granulators crush by compressing accompanied by impact and shearing.The uniqueTPH for input size of 250 mm.The crusher is coupled with motorMain parts of granulator like break plates, cages, crushingThe rotor consists of four rows of crushing rings each set having 20 Nos. of toothedCrushers of this type employ the centrifugal force of swinging rings stroking theThe coal is admitted at the top and the rings stroke theThe stacker re-claimer unit can stack the material on to the pile and reclaim theWhile stacking material is beingBelt width.: 1400 mm. Schedule of motor: All 3-O induction motors. Bucket wheel motor: 90 KW. Boom Conveyor motor: 70KW. Intermediate Conveyor Motor: 90 KW. Boom Housing Motor: 22 KW. Slewing assembly.: 10 KW. Travel Motor: 7.5 KW. Vibrating Feeder.: 2x6 KW. Total installed power.: 360 KW.Air from atmosphere is supplied to combustion chamber of boiler through the actionThe pre heating of primary air causes improved andThe flue gases formed due to combustion of coal first passes round the boiler tubesIn re-heater theIn economizer theFinally the flue gases after passingNTTPS has dry bottom furnace. Ash Handling Plant consists of especially designedThe system for all units is identical andTwo slurry pumps are provided which is common to the units. Dry free fly ash is collected into number of 72 fly ash hoppers which are handledThe ash is removed from fly ash hoppers in dry stateIt's not a problem isolated to a few industries, but pervasiveThat's why the U.S. Environmental Protection AgencyPrecipitators (ESPs) are one of the more frequently used. They can handle large gas volumesThey can collect a wide range of particle sizes, and they can collect particles in dry and wetESPs aren'tLet's see how this law of physics works in an ESP.These are either small-diameter metal wires that hang vertically (in the electro- staticDischarge electrodes create a strong electrical fieldThese are collect charged particles. Collection electrodes are either flat plates or tubesIt provides the electric field between the discharge and collection electrodes used toThese are impart a vibration, or shock, to the electrodes, removing the collected dust. Rappers remove dust that has accumulated on both collection electrodes and dischargeThese are located at the bottom of the precipitator. Hoppers are used to collect andLet's supposeThen suppose we set up aWhat would happen? The negatively chargedThe particles wouldThe dust layer would accumulate until weYou can mentally divide this field into three regions. The field isFigure: 4.1typical Dry Electrostatic PrecipitatorSeveral things happen very rapidly (in a matter of a millisecond) in the small areaThe applied voltage is increased until it produces a coronaSo, this is the first thing that happensAll this activity occurs very close toThis process continues, creating more and more free electrons andThe electrons bump into gas molecules and create additional ionized molecules. TheThe molecules are hundreds of times bigger than the tiny electrons and move slowly, but theyThis is calledWe still have positive ionsAs the electrons leave the strong electrical field area around the discharge electrode,Now they're in the inter-electrode area where they are still repulsedThere are also gas molecules in the inter-This imparts a negative charge to the gas molecules, creatingNow we have ionization of gas moleculesThese negative gas ions play a key role in capturing dust particles. Before the dustThis is when and where itActually, what really happens is that the particles get in the way ofThe gas ions stick to the particles, imparting a negativeSmall particles (lessLarge particles (greater than 10 mm) can. Eventually, there are so many ions stuck to the particles,When this happens, the negative fieldNow the negatively-charged particles are feeling the inescapableBigger particles have a higher saturation charge (moreRegardless of size, the particles encounter theLet's stop here and survey the picture. Gas molecules around the discharge electrodeFree electrons are racing as fast as they can away from the strongThe electrons are captured by gasNegative gas ionsThe net result isThey travel toward theParticles are charged by negative gas ions moving toward the collection plate by oneIn field charging (theDiffusion charging, as its name implies, depends on theIn field charging, as particles enter the electric field, they cause a local dislocation ofThe ions will continue to bombard a particle until theThis prevents newWhen a particle no longer receives an ionSaturated charged particles then migrate to the collectionDiffusion charging is associated with the random Brownian motion of the negativeNegative gas ions collide with the particlesBecause theThus, diffusion charging is the only mechanism by which these veryThe charged particles then migrate to the collectionEach of these two charging mechanisms occurs to some extent, with one dominatingDiffusion chargingIncreasing theSpark over refers to internal sparking between the discharge andIt is a sudden rush of localized electric current through the gas layerSparking causes an immediate short-term collapse of the electricWhen a charged particle reaches the grounded collection electrode, the charge on theThe charge is slowly leaked to the grounded collectionAdhesive forces cause the particles toNewly arrived particlesDust that has accumulated to a certain thickness on the collection electrode isAs describedTubes are usually cleaned by water sprays, whileRapping is a process whereby deposited, dry particles are dislodged from thePrecipitatorPlates are rapped when theInstallations where theDislodged dust falls from the plates into the hopper. The hopper is a single collectionDust should be removed as soon as possible to avoidMost hoppers are emptied by someIn a precipitator using liquid sprays to remove accumulated liquid or dust, the sludgeThe sludge is then sent to settlingIt is one of the major components of a thermal power plant. A boilerThis is transferred to the boiler by all the three modes of heat transfer i.e. conduction,Heat transfer in theThere are two types of boiler based upon the construction and the number of theIn a tower type boiler the steam parts are mounted inside a single boiler vessel oneIn a two pass boiler the steam is allowed in two passes it gains a lot of pressure byGenerally a boiler is made up of thousands of tubes calledThe plant efficiency dependsThe thermal efficiency of the boiler is defined as the of the heat input that isIn this type the products of combustion pass through the tubes which areB)Water tube boiler. In this type of boiler water flows inside the tubes and hot gases flow outside theIn NTTPS, Natural circulation, tangentially fired, over hanged type, Water tubePulverized coal is directly fedThe pressure inside boiler is -ve so as. For ensuring safe operation of boilers, furnace safe guard supervisory system (FSSS)This equipmentThe UV flame scannersTurbine - boilerFurnace is primary part of the boiler where the chemical energy available in theFurnace is designed forMajor factors that assist for efficient combustionFigure:5.2 Pulverized Fuel System. The crushed coal from the coal crusher is transferred into the unit coalbunkers whereThe rotary feedersThen coal burners are employed to fire theThese burners are placed in the cornersThis system provides efficientThe fuel burning system shouldThe Fuel air (secondary air) provided FD fan, surrounds the fuel nozzles. Since thisDampers are providedCoal burners distribute the fuel and air evenly inIgnition takes place when the flammable furnace input is heated above the ignitionIgnition energy is usually supplied in the form of heat. This ignition energy is provided byIts function is to separate water and steam from. It provides water storage forIt also houses the equipment needed for purification ofThe drum internals reduceThe top half and bottom half are heated in a plate heating furnace at a veryThe top andBoiler drum is located at a height of 70m from ground. The drum is providedManhole is used for facilitating the maintenanceFigure:5.3 Steam DrumThe drum form the part of boiler circulating system i.e. movement of fluid from theFeed water is supplied to the drumWater from the drum goes to water wallsMain parts of boiler drum are:-Theoretically balancedIt ensures that there is no egress of airIn doing this it overcomes resistance to flow byThe following fans arePulverized coal is directly fed from coal mills to the burners at the four corners ofUsually sized for 1500 RPM due to high pressure.The combustion process in the furnace can take place only when it receives a steadyThus FD fan takes air from atmosphere at. Its speed varies from 600-The flue gases coming out of the boiler carry lot of heat. An economizer extracts aIn an economizer, a large number of small diameterFeed water enters the tubes through theEarlier the economizers are introduced mainly toIn the modern boilers used for power generation feedThese tubes areWhile water passesAlmost all modern power boilers are equipped with water walls. In large boilers,Water walls serves as the only means of heatingWater wallsThis raises theCooling of flue gases by 20 raises the plant efficiency by 1.Figure:5.5 Air Pre-Heater. In NTTPS regenerative type of pre heater is used. They use a cylindrical rotorThe rotor is placed in a drum which is divided into twoTo avoid leakage from one compartmentThe rotor is fixed on an electrical shaft rotating at a speed of 2 to 4 rpm. AsA super heater is a device which removes the last traces of moisture from theThe steam is superheated to the highest economical temperature not only toThis is done so that the steam remains dryA re-heater can also be convection,From economizer the water enters the drum and thus joins the circulation systemIn water wall tubes a part of the water isIn the drum,After the super heater when the steam temperature becomes high and pressure upto 175Figure:5.6 Pressure PartsSlowly and slowly the fine ash particles are collected on the tube surface and from a layerThere are mainly three types of soot blower are used in NTTPSSafety valve of the boiler is supposed to close after certain pressure drop. If it is notIf the safety valve is allowed toIt is a puffing type valve.Boilers are high pressure and temperature systems used for generating steam to driveIf due to any reason of malfunction in one of theIt consists of a pressure vessel in which the water and steam areWhen this occurs the all non-condensable dissolved gases areA de-aerator protects the feed pumps, piping, boiler and any other piece of equipmentFigure:5.7 De-aeratorFC 28.7, VM 28.3, M 9, Ash34, S0.5. Ash fusion Temperature: 1400oc. Grindability 52 HGIType Tilting tangential low NOx XRP 1003. Speed 600RPM. Disposition corners corners system: cold PAWidth: 18034mm. Depth: 15797mm. Volume: 14272m3Super Heater Outlet: 540 Deg cStage 2: SH Division Panellette (tube projected) 1319. Stage3: SH Finish Platen (tube projected) 1330No. of Stages: Single. Medium of spray: Feed waterRear pendant spaced. Total H.S Area m2: 6298. Control: Burner tilt and Excess airTotal H.S Area m2: 19050. No. of blocks: 2Total H.S area m2: 86000. No’s: 2. Motor KW: 18.5FAF pitch. PA Fan Axial 2 156 1320 50 motor 1490 2650 BladePAF pitch. ID Fan NDZV 47 2 526 1420 150 motor 580 3000 Inlet. S DOR DamperFurnace: Wall blowers 88 steam. SH panel: Long retractable 40 steam. SH platen LTSH: Soot blowers. Flue Gas Flow: 519.7Nm3. Combined Efficiency: 99.82 (one field out of service)Moisture 4.00. Ash 42.40. Volatile matter 29.40. Fixed Carbon 24.20. Ultimate analysis-as fired basis. Carbon in fuel 34.60. Hydrogen in fuel 2.60. Sulphur in fuel 0.40. Nitrogen in fuel 0.80. Oxygen in fuel 11.00. Moisture in fuel 4.00. Mineral matter 46.60It converts the potential or kinetic energy of the working substance into mechanical power byWhen the working substance is steam it isFigure:6.1 Steam TurbineThe rapidly moving particles of steam, enter the moving partThis constitutes the driving force of the machine. TheThe passage of steam throughSuch a turbine isOn the other hand the pressure of the steam at outlet fromEnergy in the steam after it leaves the boiler is converted into rotational energy as itThe turbine normally consists of several stages with each stageStationary blades convertThe rotating blades convert the kinetic energy intoThe turbineThe majority of the steam turbine have, therefore two important elements, or. Sets of such elements. These are (1) the nozzle in which the system expands from highThe blade or deflector, in which the steam particles changes its directions and henceThe blades are attach to the rotating elements are attached to theAlthough the fundamental principles on which all steam turbine operate the same, yetThe individualThe HP cylinder has a throttleThe steam coming fromThe HP casing is a barrel type casing without axial joint. Because of its rotationDue to this reason barrelThe IP part of turbine is of double flow construction. The casing of IP turbine is splitThe double flow inner casing is supportedThe steam from HP turbine after reheating enters the innerThe centre flows compensates theThe pressure in outer casing relieves the joint of inner casing soThe IP turbine consists of 20 reaction stages per flow. The moving and stationaryThe casing of double flow type LP turbine is of three shell design. The shells areThe outer casing consist of the front andThe outer casing is supported by the ends of longitudinal beams on the base plates ofSteam admitted to. LP turbine from IP turbine flows into the inner casing from both sides through steam inletTurbine driven BFP uses a turbine of 14 stage connected to condenser Turbine isBetween turbine and booster pump gear assembly is present. InTDBFPs have a big. LCP (Local control panel) having facility for all operations of TDBFP from local. MotorA generator forces electrons in the windings to flow through theGenerators produce almost all of the electricity used by people. They supply the electrical power that runs machines in factories, provide lighting and operateThe source of the mechanical energy may be aFigure:7.1 Cross section of GeneratorThe rotor houses the field winding to whichWhen the rotor is rotated, the lines of magnetic flux cut through the stator windings. This induces an electromagnetic force (e.m.f) in the stator windings. The magnitude of theThe main parts of a turbo generator are STATOR and ROTORThe stator frame is a welded steel frame construction, which gives sufficient andHeavy end shields enclose the ends of the frame and form mounting of generator bearing andFigure:7.2 Stator FrameB)Stator coreHydrogen.C)Stator WindingMolybdenum and Vanadium steel.Figure:7.2 Rotor. A)Field WindingsB)Terminal bushingCold water from the river, waterBecause the water has aFor this reason it is the largest and most important of the heatBoth the condensers are supported on springs to allow for expansion along the height.