math cement package
TRANSCRIPT
MathCement Module 1
MathCement _2000Volume-1 : Cement plant process calculations
No of files
Part -1Process calculation of plant sections Book 200
MC_V1_B201_Quarry_TOC Quarry Section 6MC_V1_B201_Quarry_1BIU Quarry Deposit EstimationMC_V1_B201_Quarry_1 Quarry Deposit EstimationMC_V1_B201_Quarry_2BIU Quarry - Excavator MC_V1_B201_Quarry_2 Quarry - Excavator
MC_V1_B201_Quarry_3BIU_r3 Quarry - Dumper CalculationsMC_V1_B201_Quarry_3_r3 Quarry - Dumper Calculations
MC_V1_B202_Crushing_TOC Crushing Section 12MC_V1_B202_Crushing_1BIU_r5 Crusher and Auxiliaries Calculations
MC_V1_B202_Crushing_1_r5 Crusher and Auxiliaries Calculations
MC_V1_B202_Crushing_2BIUSingle Rotor Hammer or Impact Crusher Calculations
MC_V1_B202_Crushing_2Single Rotor Hammer or Impact Crusher Calculations
MC_V1_B202_Crushing_3BIU
Calculation of power for existing crusher at different capacities -application of Rittinger's law
MC_V1_B202_Crushing_3
Calculation of power for existing crusher at different capacities -application of Rittinger's law
MC_V1_B202_Crushing_4BIU
Calculation of power for existing crusher but to be used for different / changed material - application of Rittinger's law
MC_V1_B202_Crushing_4
Calculation of power for existing crusher but to be used for different / changed material - application of Rittinger's law
MC_V1_B202_Crushing_5BIUCalculation of throughput for Roll Crusher
MC_V1_B202_Crushing_5Calculation of throughput for Roll Crusher
MC_V1_B202_Crushing_6BIUDouble Rotor Hammer or Impact Crusher Calculations
MC_V1_B202_Crushing_6Double Rotor Hammer or Impact Crusher Calculations
MC_V1_B203_Pre-blending_TOC Pre-blending Section 8MC_V1_B203_Preblending_1BIU
Preblending and Stockpile Equipment - Calculations
MC_V1_B203_Preblending_1Preblending and Stockpile Equipment - Calculations
MC_V1_B203_Preblending_2BIU
Stockpile capacities-Longitudinal with trapizoidal cross section
MC_V1_B203_Preblending_2Stockpile capacities-Longitudinal with trapizoidal cross section
MC_V1_B203_Preblending_3BIU
Stockpile capacities-Longitudinal with triangular cross section
MC_V1_B203_Preblending_3Stockpile capacities-Longitudinal with triangular cross section
MC_V1_B203_Preblending_4BIU
Stockpile capacities-Kidney shaped windrows -triangular section
MC_V1_B203_Preblending_4BIU
Stockpile capacities-Kidney shaped windrows -triangular section
MC_V1_B204_Rawmill_TOC Raw Mill Section 49
MC_V1_B204_RawMill_1_r4
Bond Work Index of the various material based on bond test mill result dry basis
MC_V1_B204_RawMill_2BIU
Calculation of Power at Ball Mill Shaft for Raw Material,based on Bond's Work Index
MC_V1_B204_RawMill_2
Calculation of power at Ball Mill shaft for Raw material, based on Bond's work index
MC_V1_B204_RawMill_3BIURaw Mill and Auxiliary Equipment Capacity Calculations
MC_V1_B204_RawMill_3Raw Mill and Auxiliary Equipment Capacity Calculations
MC_V1_B204_RawMill_4BIU_r3
Raw Material Drying - Estimation of total moisture to be evaporated from feed
MC_V1_B204_RawMill_4_r3
Raw Material Drying - Estimation of total moisture to be evaporated from feed
MC_V1_B204_RawMill_5BIURaw Mill Heat Balance - Evaluation of Hot Gas Requirement for Drying
MC_V1_B204_RawMill_5
Raw Mill Heat Balance - Evaluation of Hot Gas Requirement for Drying
MC_V1_B204_RawMill_6BIUCalculation of Ball Mill Percentage Filling as per Measurement
MC_V1_B204_RawMill_6Calculation of Ball Mill Percentage Filling as per Measurement
MC_V1_B204_RawMill_7BIU Calculation of Grinding Ball SizeMC_V1_B204_RawMill_7 Calculation of Grinding Ball Size
MC_V1_B204_RawMill_8BIUSpecific Heat of Raw Material as a Function of Temperature
MC_V1_B204_RawMill_8Specific Heat of Raw Material as a Function of Temperature
MC_V1_B204_RawMill_9BIU
Estimation of specific power consumption, at mill shaft, based on the operating parameters of close circuit ball mill
MC_V1_B204_RawMill_9
Estimation of specific power consumption, at mill shaft, based on the operating parameters of close circuit ball mill
MC_V1_B204_RawMill_10BIU_r3
Calculation of mill power demand for desired output at specified feed and product sizes, based on Bond Index.
MC_V1_B204_RawMill_10_r4
Calculation of mill power demand for desired output at specified feed and product sizes, based on Bond Index.
MC_V1_B204_RawMill_10_1BIU
Calculation of mill output for different feed and product sizes
MC_V1_B204_RawMill_10_1Calculation of mill output for different feed and product sizes
MC_V1_B204_RawMill_11BIUCalculation of Efficiency of Dynamic Air Separator
MC_V1_B204_RawMill_11Calculation of Efficiency of Dynamic Air Separator
MC_V1_B204_RawMill_12BIUAverage Piece Weight of Grinding Media
MC_V1_B204_RawMill_12Average Piece Weight of Grinding Media
MC_V1_B204_RawMill_13BIUBall Mill Critical Speed and Ball Charge Calculations
MC_V1_B204_RawMill_13Ball Mill Critical Speed and Ball Charge Calculations
MC_V1_B204_RawMill_14BIU_r4
Vertical Roller Mill -- Calculation of Power
MC_V1_B204_RawMill_14_r4Vertical Roller Mill -- Calculation of Power
MC_V1_B204_RawMill_15BIU_r3
Radiation Loss in Raw Mill Heat Balance
MC_V1_B204_RawMill_15_r3Radiation Loss in Raw Mill Heat Balance
MC_V1_B204_RawMill_16BIUCalculation of false air coming into grinding mill system
MC_V1_B204_RawMill_16Calculation of false air coming into grinding mill system
MC_V1_B204_RawMill_17BIU
Calculation of water pressure at nozzle over material bed of Vertical Roller Mill with supply from overhead tank
MC_V1_B204_RawMill_17
Calculation of water pressure at nozzle over material bed of Vertical Roller Mill with supply from overhead tank
MC_V1_B204_RawMill_18BIUCalculation of retention time of material in a two compartment ball mill
MC_V1_B204_RawMill_18Calculation of retention time of material in a two compartment ball mill
MC_V1_B204_RawMill_19BIU_r1
Rosin-Rammler equation -calculation of predicted residue on sieve and variaton calculations
MC_V1_B204_RawMill_19_r1
Rosin-Rammler equation -calculation of predicted residue on sieve and variaton calculations
MC_V1_B204_RawMill_20BIUCalculation of mean diameter of fine ground particles
MC_V1_B204_RawMill_20Calculation of mean diameter of fine ground particles
MC_V1_B204_RawMill_21BIU_r1
Calculation of auxiliary drive rating of Ball Mill for raw grinding
MC_V1_B204_RawMill_21_r1Calculation of auxiliary drive rating of Ball Mill for raw grinding
MC_V1_B204_RawMill_22BIU_r2
Calculation of makeup charge or ball mills
MC_V1_B204_RawMill_22_r2Calculation of makeup charge or ball mills
MC_V1_B204_RawMill_23BIU_r1
Calculation of wear rate of grinding balls in ball mills
MC_V1_B204_RawMill_23_r1Calculation of wear rate of grinding balls in ball mills
MC_V1_B204_RawMill_24BIUCalculation of Recirculation Air in Raw Grinding Vertical Roller Mill
MC_V1_B204_RawMill_24Calculation of Recirculation Air in Raw Grinding Vertical Roller Mill
MC_V1_B205_Blending_TOC Blending and Storage Section 8
MC_V1_B205_Blending_1BIU
Calculation of Blending & Storage Silos and Auxiliary Equipment Capacity for Raw-meal preparation
MC_V1_B205_Blending_1
Calculation of Blending & Storage Silos and Auxiliary Equipment Capacity for Raw-meal preparation
MC_V1_B205_Blending_2BIU_r3
Calculation of Kiln Feed Raw-meal Systems
MC_V1_B205_Blending_2_r3Calculation of Kiln Feed Raw-meal Systems
MC_V1_B205_Blending_3BIUCalculation of Kiln Feed Raw-meal Quantity
MC_V1_B205_Blending_3Calculation of Kiln Feed Raw-meal Quantity
MC_V1_B205_Blending_4BIU_r2
Calculation of blending factor by methods of standard deviation
MC_V1_B205_Blending_4_r2Calculation of blending factor by methods of standard deviation
MC_V1_B206_Kilnfeed_TOC Kiln-feed Section 2MC_V1_B206_Kilnfeed_1BIU_r3
Locating feeding point of material into Preheater Gas ducts
MC_V1_B206_Kilnfeed_1_r3Locating feeding point of material into Preheater Gas ducts
MC_V1_B207_Clinker_TOC Clinkerisation (kiln,pre-heater)Section 49
MC_V1_B207_Clinker_1BIU_r3Calculation of Kiln and Auxiliary Equipment Capacities.
MC_V1_B207_Clinker_1_r3Calculation of Kiln and Auxiliary Equipment Capacities.
MC_V1_B207_Clinker_2BIU_r3 Leakages through Kiln Air SealsMC_V1_B207_Clinker_2_r3 Leakages through Kiln Air Seals
MC_V1_B207_Clinker_3BIUCalculation of Specific Heats of Clinker as a Function of Clinker Temperature
MC_V1_B207_Clinker_3Calculation of Specific Heats of Clinker as a Function of Clinker Temperature
MC_V1_B207_Clinker_4BIUKiln Retention Time and Related Parameters
MC_V1_B207_Clinker_4Kiln Retention Time and Related Parameters
MC_V1_B207_Clinker_5BIU_r3 Kiln sinter zone cooling fansMC_V1_B207_Clinker_5_r3 Kiln sinter zone cooling fans
MC_V1_B207_Clinker_6BIU_r3Calculation of nose ring cooling air for kiln inlet
MC_V1_B207_Clinker_6_r3Calculation of nose ring cooling air for kiln inlet
MC_V1_B207_Clinker_7BIU Kiln Tyre / Shell OvalityMC_V1_B207_Clinker_7 Kiln Tyre / Shell Ovality
MC_V1_B207_Clinker_8BIU_r4 Kiln Capacity checkMC_V1_B207_Clinker_8_r4 Kiln Capacity check
MC_V1_B207_Clinker_9BIUDegree of Decarbonation of Raw Meal -Definition and calculation
MC_V1_B207_Clinker_9Degree of Decarbonation of Raw Meal -Definition and calculation
MC_V1_B207_Clinker_10BIUDegree of Decarbonation of Raw Meal Calculation on Operating Data
MC_V1_B207_Clinker_10Degree of Decarbonation of Raw Meal Calculation on Operating Data
MC_V1_B207_Clinker_11BIUReaction Enthalpy -Decarbonation and Clinkerisation
MC_V1_B207_Clinker_11Reaction Enthalpy -Decarbonation and Clinkerisation
MC_V1_B207_Clinker_12BIUTheoretical Heat of Clinker Formation - Calculation
MC_V1_B207_Clinker_12Theoretical Heat of Clinker Formation - Calculation
MC_V1_B207_Clinker_13BIUCalculation of kiln mass under operating conditions
MC_V1_B207_Clinker_13Calculation of kiln mass under operating conditions
MC_V1_B207_Clinker_14BIUCalculation of Kiln Torque under Operating Conditions
MC_V1_B207_Clinker_14Calculation of Kiln Torque under Operating Conditions
MC_V1_B207_Clinker_15BIU_r3 Calculation for Kiln Hydraulic Thruster
MC_V1_B207_Clinker_15_r3 Calculation for Kiln Hydraulic Thruster
MC_V1_B207_Clinker_16TXT Kiln Hydraulic Thruster - A Note
MC_V1_B207_Clinker_17BIU Kiln Drive SpecificationMC_V1_B207_Clinker_17 Kiln Drive Specification
MC_V1_B207_Clinker_18BIUCalculation of expansion of Kiln in hot condition
MC_V1_B207_Clinker_18Calculation of expansion of Kiln in hot condition
MC_V1_B207_Clinker_19BIUCalculation of Temerature Profile of Kiln Shell in hot condition
MC_V1_B207_Clinker_19Calculation of Temerature Profile of Kiln Shell in hot condition
MC_V1_B207_Clinker_20BIU Calcination FunctionMC_V1_B207_Clinker_20 Calcination Function
MC_V1_B207_Clinker_21BIUCalculation of false air infiltration into kiln preheater system
MC_V1_B207_Clinker_21Calculation of false air infiltration into kiln preheater system
MC_V1_B207_Clinker_22BIU Calculation of Alkali Bypass System
MC_V1_B207_Clinker_22 Calculation of Alkali Bypass System
MC_V1_B207_Clinker_23BIU
Calculation of Range of Bypass Quantity of Gases from Kiln to Limit Alkali concentration in Clinker
MC_V1_B207_Clinker_23
Calculation of Range of Bypass Quantity of Gases from Kiln to Limit Alkali concentration in Clinker
MC_V1_B207_Clinker_24BIU
Correlation Between Central Chord Angle or Charge Angle and Degree of Filling of Kiln
MC_V1_B207_Clinker_24
Correlation Between Central Chord Angle or Charge Angle and Degree of Filling of Kiln
MC_V1_B207_Clinker_25BIU
Calculation of fresh cooling air and water to reduce the temperature of kiln (alkali) bypass gases before release to atmosphere
MC_V1_B207_Clinker_25
Calculation of fresh cooling air and water to reduce the temperature of kiln (alkali) bypass gases before release to atmosphere
MC_V1_B208_ClCooling_TOC Clinker Cooling Section 8
MC_V1_B208_ClCooling_2BIUCalculation of Grate Cooler Drive Power
MC_V1_B208_ClCooling_2Calculation of Grate Cooler Drive Power
MC_V1_B208_ClCooling_3BIU
Calculation of Grate Cooler Recuperation Efficiency -T.A. Duct Tapping from Cooler
MC_V1_B208_ClCooling_3
Calculation of Grate Cooler Recuperation Efficiency -T.A. Duct Tapping from Cooler
MC_V1_B208_ClCooling_4BIU
Calculation of Grate Cooler Recuperation Efficiency -T.A. Duct Tapping from Kiln Hood
MC_V1_B208_ClCooling_4
Calculation of Grate Cooler Recuperation Efficiency -T.A. Duct Tapping from Kiln Hood
MC_V1_B208_ClCooling_5BIUCalculation of Grate Cooler Offset from Kiln axis
MC_V1_B208_ClCooling_5Calculation of Grate Cooler Offset from Kiln axis
MC_V1_B209_Clstore_TOC Clinker Storage Section 2
MC_V1_B209_Clstore_1BIU
Calculation of Clinker Transport Equipment Capacity and Clinker Stockpile
MC_V1_B209_Clstore_1
Calculation of Clinker Transport Equipment Capacity and Clinker Stockpile
MC_V1_B210_Cement_TOC Cement Grinding Section 26
MC_V1_B210_Cement_1BIUCalculation of Cement Mill and Auxiliary Equipment
MC_V1_B210_Cement_1Calculation of Cement Mill and Auxiliary Equipment
MC_V1_B210_Cement_2BIUCalculation of Cement Grindability based on Ziesel Value
MC_V1_B210_Cement_2Calculation of Cement Grindability based on Ziesel Value
MC_V1_B210_Cement_3BIUCement Mill Heat Balance and Calculation of Hot Gas for Drying
MC_V1_B210_Cement_3Cement Mill Heat Balance and Calculation of Hot Gas for Drying
MC_V1_B210_Cement_4BIUCalculation of Cement Mill Output as a function of Grinding Media Load
MC_V1_B210_Cement_4Calculation of Cement Mill Output as a function of Grinding Media Load
MC_V1_B210_Cement_5BIUEstimation of grindability of Clinker based on the operating parameters
MC_V1_B210_Cement_5Estimation of grindability of Clinker based on the operating parameters
MC_V1_B210_Cement_6BIUCalculation of Water Spray in the Mill for Cooling
MC_V1_B210_Cement_6Calculation of Water Spray in the Mill for Cooling
MC_V1_B210_Cement_7BIU Sizing of Close Circuit Cement MillMC_V1_B210_Cement_7 Sizing of Close Circuit Cement Mill
MC_V1_B210_Cement_8BIUCement Mill Output at Different Finenesses
MC_V1_B210_Cement_8Cement Mill Output at Different Finenesses
MC_V1_B210_Cement_9BIU Cement Mill Cooling AirMC_V1_B210_Cement_9 Cement Mill Cooling Air
MC_V1_B210_Cement_10BIU Mill Radiation Loss
MC_V1_B210_Cement_10 Mill Radiation Loss
MC_V1_B210_Cement_11BIUCement Mill Grinding Performance as a Function of Surface Generated
MC_V1_B210_Cement_11Cement Mill Grinding Performance as a Function of Surface Generated
MC_V1_B210_Cement_12BIUExpected Power Draw of Cement Mill as a Function of Speed
MC_V1_B210_Cement_12Expected Power Draw of Cement Mill as a Function of Speed
MC_V1_B210_Cement_13BIU_r2
Clinker grinding mill - calculation of capacity and power
MC_V1_B210_Cement_13_r2Clinker grinding mill - calculation of capacity and power
MC_V1_B211_Cmtstore_TOC Cement Storage and Dispatch Section 4
MC_V1_B211_Cmtstore_1BIUCalculation of Cement Transport and Silo and Auxiliary Equipment
MC_V1_B211_Cmtstore_1Calculation of Cement Transport and Silo and Auxiliary Equipment
MC_V1_B211_Cmtstore_2BIUEvaluation of effect of weighing accuracy of packing m/c
MC_V1_B211_Cmtstore_2Evaluation of effect of weighing accuracy of packing m/c
MathCement Module 2MathCement 2000
Part -2Process design calculations - support systems Book 300
MC_V1_B301_Site_TOC Plant Site 2
MC_V1_B301_Site_1BIUThe Barometric pressure at site based on the altitude above mean sea level
MC_V1_B301_Site_1The Barometric pressure at site based on the altitude above mean sea level
MC_V1_B302_Dedust_TOC Dedusting Systems 42MC_V1_B302_Dedust_1 Estimation of Vent Air VolumeMC_V1_B302_Dedust_2TXT K - FactorsMC_V1_B302_Dedust_21 Sketches for K - factors -set1MC_V1_B302_Dedust_22 Sketches for K - factors -set2MC_V1_B302_Dedust_23 Sketches for K - factors -set3MC_V1_B302_Dedust_24 Sketches for K - factors -set4MC_V1_B302_Dedust_25 Sketches for K - factors -set5
MC_V1_B302_Dedust_3BIUCalculation of Pressure Losses in Ducting conveying powdery material
MC_V1_B302_Dedust_3Calculation of Pressure Losses in Ducting conveying powdery material
MC_V1_B302_Dedust_31BIUCalculation of Friction Losses in Ductings from Tables /Graphs
MC_V1_B302_Dedust_31Calculation of Friction Losses in Ductings from Tables /Graphs
MC_V1_B302_Dedust_4BIUDesign Parameters for Design of Duct Systems
MC_V1_B302_Dedust_4Design Parameters for Design of Duct Systems
MC_V1_B302_Dedust_5TXT Duct balancing
MC_V1_B302_Dedust_6BIUGlass Bag House -Calculation of Gas Volume as Function of temperature.
MC_V1_B302_Dedust_6Glass Bag House -Calculation of Gas Volume as Function of temperature.
MC_V1_B302_Dedust_7BIUGCT and ESP - Calculation of Gas Volume
MC_V1_B302_Dedust_7GCT and ESP - Calculation of Gas Volume
MC_V1_B302_Dedust_8BIU Sizing of Gas Conditioning TowerMC_V1_B302_Dedust_8 Sizing of Gas Conditioning Tower
MC_V1_B302_Dedust_9BIUElectrostatic Precipitator- Deutsch Efficiency Formula
MC_V1_B302_Dedust_9Electrostatic Precipitator- Deutsch Efficiency Formula
MC_V1_B302_Dedust_10BIUElectrostatic Precipitator- Specific Collection Area
MC_V1_B302_Dedust_10Electrostatic Precipitator- Specific Collection Area
MC_V1_B302_Dedust_11BIUElectrostatic Precipitator- Performance Evaluation
MC_V1_B302_Dedust_11Electrostatic Precipitator- Performance Evaluation
MC_V1_B302_Dedust_12BIUElectrostatic Precipitator- To calculate Migration Velocity
MC_V1_B302_Dedust_12Electrostatic Precipitator- To calculate Migration Velocity
MC_V1_B302_Dedust_13BIU_r3 Chimney design
MC_V1_B302_Dedust_13_r3 Chimney design
MC_V1_B302_Dedust_14BIUCalculation of flow through duct based on Pitot tube measurement
MC_V1_B302_Dedust_14Calculation of flow through duct based on Pitot tube measurement
MC_V1_B302_Dedust_15BIUCalculation of pressure loss in duct due to friction and bends
MC_V1_B302_Dedust_15Calculation of pressure loss in duct due to friction and bends
MC_V1_B302_Dedust_16BIU Velocity selection for ducting design
MC_V1_B302_Dedust_16 Velocity selection for ducting design
MC_V1_B302_Dedust_17BIU Calculation for air curtainMC_V1_B302_Dedust_17 Calculation for air curtain
MC_V1_B302_Dedust_18BIUCalculation of migration velocity of operating ESP
MC_V1_B302_Dedust_18Calculation of migration velocity of operating ESP
MC_V1_B302_Dedust_19BIU
Calculation of dedusting efficiency of a dust separator in terms of degrees of dust separation
MC_V1_B302_Dedust_20BIU
Calculation relating to conversion of industrial gases from standard volume to operating volume and vice-versa
MC_V1_B303_Lab_TOC Laboratory Investigations and Raw Mix Designs 60
MC_V1_B303_Lab_1BIU Loss on Ignition of Kiln Feed Raw Meal
MC_V1_B303_Lab_1 Loss on Ignition of Kiln Feed Raw Meal
MC_V1_B303_Lab_2BIUSilica Ratio and Requirement of Components
MC_V1_B303_Lab_2Silica Ratio and Requirement of Components
MC_V1_B303_Lab_3BIUAlumina Ratio and Requirement of Components
MC_V1_B303_Lab_3Alumina Ratio and Requirement of Components
MC_V1_B303_Lab_4BIU Lime Saturation Factor - Calculation
MC_V1_B303_Lab_4 Lime Saturation Factor - Calculation
MC_V1_B303_Lab_5BIUHydraulic Ratio of Kiln Feed Raw Meal - Calculation
MC_V1_B303_Lab_5Hydraulic Ratio of Kiln Feed Raw Meal - Calculation
MC_V1_B303_Lab_6BIUBurnability Factor of Kiln Feed Raw Meal - Calculation
MC_V1_B303_Lab_6Burnability Factor of Kiln Feed Raw Meal - Calculation
MC_V1_B303_Lab_7BIU
Complex Compounds of Cement Clinker - Calculation by Bogue's Formulae
MC_V1_B303_Lab_7
Complex Compounds of Cement Clinker - Calculation by Bogue's Formulae
MC_V1_B303_Lab_8BIUPercentage Liquid and Burnability Index Cement Clinker - Calculation
MC_V1_B303_Lab_8Percentage Liquid and Burnability Index Cement Clinker - Calculation
MC_V1_B303_Lab_9BIUTotal Carbonate Content in Kiln Feed Raw Meal- Calculation
MC_V1_B303_Lab_9Total Carbonate Content in Kiln Feed Raw Meal- Calculation
MC_V1_B303_Lab_10BIU
To Calculate Quantity of CaO Required to Attain Specific Value of Total Carbonate Content in Kiln Feed Raw Meal
MC_V1_B303_Lab_10
To Calculate Quantity of CaO Required to Attain Specific Value of Total Carbonate Content in Kiln Feed Raw Meal
MC_V1_B303_Lab_11BIU
Kiln Dust Loss in Terms of Kiln Feed Raw Meal-and Apparant Degree of Calcination
MC_V1_B303_Lab_11
Kiln Dust Loss in Terms of Kiln Feed Raw Meal-and Apparant Degree of Calcination
MC_V1_B303_Lab_12TXTQuantity of Raw Material Samples for Lab. Investigation
MC_V1_B303_Lab_13TXT Coal Samples -A Point of ViewMC_V1_B303_Lab_14TXT Purposes of Tests
MC_V1_B303_Lab_15TXT Tests Conducted at Physical LaboratoryMC_V1_B303_Lab_16TXT Chemical Tests at Chemical Lab.MC_V1_B303_Lab_17TXT Mineralogical InvestigationsMC_V1_B303_Lab_18TXT Fuel InvestgationMC_V1_B303_Lab_19TXT Raw Mix InvestgationMC_V1_B303_Lab_20TXT Burnability InvestigationMC_V1_B303_Lab_21TXT Separation of ESP and Filter DustMC_V1_B303_Lab_22BIU Volatility of alkaliesMC_V1_B303_Lab_22 Volatility of alkalies
Raw-mix Design
MC_V1_B303_Lab_23BIU Raw-mix Design for Two Components
MC_V1_B303_Lab_23 Raw-mix Design for Two Components
MC_V1_B303_Lab_24BIURaw-mix Design based on Hydraulic Module
MC_V1_B303_Lab_24Raw-mix Design based on Hydraulic Module
MC_V1_B303_Lab_25BIURaw-mix Design based on Lime Saturation Factor
MC_V1_B303_Lab_25Raw-mix Design based on Lime Saturation Factor
MC_V1_B303_Lab_26BIU
Three Component Raw-mix Design based on Lime Saturation Factor and Silica Ratio
MC_V1_B303_Lab_26
Three Component Raw-mix Design based on Lime Saturation Factor and Silica Ratio
MC_V1_B303_Lab_27BIU Calculation of Coal Ash AbsorptionMC_V1_B303_Lab_27 Calculation of Coal Ash Absorption
MC_V1_B303_Lab_29BIU
Raw-mix design calculation with two components to match desired potential clinker compounds
MC_V1_B303_Lab_29
Raw-mix design calculation with two components to match desired potential clinker compounds
MC_V1_B303_Lab_30BIUCalculation of Potential Clinker Composition
MC_V1_B303_Lab_30Calculation of Potential Clinker Composition
MC_V1_B303_Lab_31BIUCalculation of Effect of Coal Ash Absorption on Clinker Analysis
MC_V1_B303_Lab_31Calculation of Effect of Coal Ash Absorption on Clinker Analysis
MC_V1_B303_Lab_32BIU
Calculation of Two Component Raw Mix Design Considering Effect of Coal Ash Absorption
MC_V1_B303_Lab_32
Calculation of Two Component Raw Mix Design Considering Effect of Coal Ash Absorption
MC_V1_B303_Lab_33BIU
Raw-mix design calculation with three components to match desired potential clinker compounds
MC_V1_B303_Lab_33
Raw-mix design calculation with three components to match desired potential clinker compounds
MC_V1_B303_Lab_34BIUEvaluation of influence of coal ash on clinker composition
MC_V1_B303_Lab_34Evaluation of influence of coal ash on clinker composition Material Properties
MC_V1_B303_Lab_35BIUProperties of Bulk Solids - Bulk Density Determination
MC_V1_B303_Lab_35Properties of Bulk Solids - Bulk Density Determination
MC_V1_B303_Lab_36TXT
Properties of Bulk Solids - Characteristics Influencing Behaviour Pattern
MC_V1_B303_Lab_37BIUProperties of Bulk Materials - Methods of particle size analysis
MC_V1_B304_Fuel_TOC Fuels and Combustion 44
MC_V1_B304_Fuel_1BIU_r3Calculation of Capacities in Coal Preparation Section
MC_V1_B304_Fuel_1_r3Calculation of Capacities in Coal Preparation Section
MC_V1_B304_Fuel_2BIUCalculation of Coal Analysis and Heat Values Coal
MC_V1_B304_Fuel_2Calculation of Coal Analysis and Heat Values Coal
MC_V1_B304_Fuel_3BIU_r3Calculation of combustion air for burning of coal
MC_V1_B304_Fuel_3_r3Calculation of combustion air for burning of coal
MC_V1_B304_Fuel_4BIU
Calculation of theoretical air for combustion of coal and products of combustion
MC_V1_B304_Fuel_4
Calculation of theoretical air for combustion of coal and products of combustion
MC_V1_B304_Fuel_5BIU Calculation of Flame TemperatureMC_V1_B304_Fuel_5 Calculation of Flame Temperature
MC_V1_B304_Fuel_6TXTReactivity of Coal as a Function of Fineness
MC_V1_B304_Fuel_7BIUSpecific heats of gases as function of temp. T
MC_V1_B304_Fuel_7Specific heats of gases as function of temp. T
MC_V1_B304_Fuel_8TXT Coal Grinding-Process considerations
MC_V1_B304_Fuel_9TXTCoal Dosing and Firing-Process considerations
MC_V1_B304_Fuel_10TXT Coal Burner -Process considerations
MC_V1_B304_Fuel_11BIUCalculation of density of a mixture of dry and wet flue gases
MC_V1_B304_Fuel_11Calculation of density of a mixture of dry and wet flue gases
MC_V1_B304_Fuel_12BIUVertical Roller Mill for grinding coal- calculation of capacity and power
MC_V1_B304_Fuel_12Vertical Roller Mill for grinding coal- calculation of capacity and power
MC_V1_B304_Fuel_13BIUHot air for drying moisture in Vertical Roller Mill for grinding coal
MC_V1_B304_Fuel_13Hot air for drying moisture in Vertical Roller Mill for grinding coal
MC_V1_B304_Fuel_14BIUCalculation of combustion air for burning of fuel oil
MC_V1_B304_Fuel_14Calculation of combustion air for burning of fuel oil
MC_V1_B304_Fuel_15BIUCalculation of combustion air for burning of gaseous fuels
MC_V1_B304_Fuel_15Calculation of combustion air for burning of gaseous fuels
MC_V1_B304_Fuel_16BIUGaseous fuels - calculation of products of combustion
MC_V1_B304_Fuel_16Gaseous fuels - calculation of products of combustion
MC_V1_B304_Fuel_17BIUCombustion of fuel - calculation of chemical reactions
MC_V1_B304_Fuel_17Combustion of fuel - calculation of chemical reactions
MC_V1_B304_Fuel_18BIUOrsat analysis and calculation of air / fuel ratio as function of carbon burnout
MC_V1_B304_Fuel_18Orsat analysis and calculation of air / fuel ratio as function of carbon burnout
MC_V1_B304_Fuel_19BIUCombustion calculations for burning of fuel oil
MC_V1_B304_Fuel_19Combustion calculations for burning of fuel oil
MC_V1_B304_Fuel_20BIUGaseous fuels - combustion calculations
MC_V1_B304_Fuel_20Gaseous fuels - combustion calculations
MC_V1_B304_Fuel_21BIUCalculation of total heat loss due to moisture in coal fired to kiln / furnace
MC_V1_B304_Fuel_21Calculation of total heat loss due to moisture in coal fired to kiln / furnace
MC_V1_B304_Fuel_22BIUCalculations to Fix Locating Co-ordinates of Kiln Burner
MC_V1_B304_Fuel_22Calculations to Fix Locating Co-ordinates of Kiln Burner
MC_V1_B304_Fuel_23BIU_r1Determination of Fuel Oil Stock in a Cylindrical Horizontally Mounted Tank.
MC_V1_B304_Fuel_23_r1Determination of Fuel Oil Stock in a Cylindrical Horizontally Mounted Tank.
MC_V1_B304_Fuel_24TXT Basic constituents of CoalMC_V1_B304_Fuel_25TXT Heat values of fuels
MC_V1_B305_Convey_TOC Conveying Systems 26
MC_V1_B305_Convey_1BIU_r4Vertical bucket elevator (chain type) calculation of capacity and power
MC_V1_B305_Convey_1_r4Vertical bucket elevator (chain type) calculation of capacity and power
MC_V1_B305_Convey_2BIUDeep Bucket or Deep Pan type Conveyors -Power and Filling
MC_V1_B305_Convey_2Deep Bucket or Deep Pan type Conveyors -Power and Filling
MC_V1_B305_Convey_3BIU Screw ConveyorMC_V1_B305_Convey_3 Screw Conveyor
MC_V1_B305_Convey_4BIUBelt Conveyor -Length of Conveyor Belt in a Roll
MC_V1_B305_Convey_4Belt Conveyor -Length of Conveyor Belt in a Roll
MC_V1_B305_Convey_5BIUBelt Conveyor --Length of Belt and Speed
MC_V1_B305_Convey_5Belt Conveyor --Length of Belt and Speed
MC_V1_B305_Convey_6BIU_r3Rubber belt conveyor -calculation of belt width and capacity
MC_V1_B305_Convey_6_r3Rubber belt conveyor -calculation of belt width and capacity
MC_V1_B305_Convey_7BIUDesign of Fluidised Gravity Conveyor for raw meal or cement
MC_V1_B305_Convey_7Design of Fluidised Gravity Conveyor for raw meal or cement
MC_V1_B305_Convey_8BIUDesign of Fluidised Gravity Conveyor for raw mill return grits with fines
MC_V1_B305_Convey_8Design of Fluidised Gravity Conveyor for raw mill return grits with fines
MC_V1_B305_Convey_9BIUDesign of Fluidised Gravity Conveyor for cement mill return grits with fines
MC_V1_B305_Convey_9Design of Fluidised Gravity Conveyor for cement mill return grits with fines
MC_V1_B305_Convey_10BIUDesign of Fluidised Gravity Conveyor for raw mill return grits without fines
MC_V1_B305_Convey_10Design of Fluidised Gravity Conveyor for raw mill return grits without fines
MC_V1_B305_Convey_11BIUDesign of Fluidised Gravity Conveyor for cement mill grits without fines
MC_V1_B305_Convey_11Design of Fluidised Gravity Conveyor for cement mill grits without fines
MC_V1_B305_Convey_12BIUPower and tension calculations of rubber belt conveyor -
MC_V1_B305_Convey_12Power and tension calculations of rubber belt conveyor -
MC_V1_B305_Convey_13BIU
Various selection charts for power and tension calculations of rubber belt conveyor -
MC_V1_B305_Convey_13
Various selection charts for power and tension calculations of rubber belt conveyor -
MC_V1_B305_Convey_14BIUBelt conveyor drive arrangements and tensioning arrangements
MC_V1_B306_Fans_TOC Air and Gas Handling (Fans, Blowers & Compressors) 25
MC_V1_B306_Fans_1BIU Calculation of Fan Motor PowerMC_V1_B306_Fans_1 Calculation of Fan Motor Power
MC_V1_B306_Fans_2BIU Calculation of Fan Operating Volume
MC_V1_B306_Fans_2 Calculation of Fan Operating Volume
MC_V1_B306_Fans_3TXTDesign of Large Fans -Requirement of Motor Data
MC_V1_B306_Fans_4BIUCalculation of linear expansion of shafts -during hot running conditions
MC_V1_B306_Fans_4Calculation of linear expansion of shafts -during hot running conditions
MC_V1_B306_Fans_5BIUCalculation of Fan Pressure and Power Rating
MC_V1_B306_Fans_5Calculation of Fan Pressure and Power Rating
MC_V1_B306_Fans_6BIUCalculation of pressure development by fans and blowers
MC_V1_B306_Fans_6Calculation of pressure development by fans and blowers
MC_V1_B306_Fans_7BIU
Calculation of velocity pressure and pressure head development due to flow of air in a duct
MC_V1_B306_Fans_7
Calculation of velocity pressure and pressure head development due to flow of air in a duct
MC_V1_B306_Fans_8BIU
Calculation of system resistance in a ducting system and selecting an appropriate fan based on their characteristic curves
MC_V1_B306_Fans_8
Calculation of system resistance in a ducting system and selecting an appropriate fan based on their characteristic curves
MC_V1_B306_Fans_9BIU
Calculation and plotting of system resistance curves by introduction of change in system design in a ducting system
MC_V1_B306_Fans_9
Calculation and plotting of system resistance curves by introduction of change in system design in a ducting system
MC_V1_B306_Fans_10BIU
Calculation of fan pressure development as a function of gas temperature.
MC_V1_B306_Fans_10
Calculation of fan pressure development as a function of gas temperature.
MC_V1_B306_Fans_11BIU
Calculation of fan pressure development at a new location - considering change in barometric pressure
MC_V1_B306_Fans_11
Calculation of fan pressure development at a new location - considering change in barometric pressure
MC_V1_B306_Fans_12BIUCalculation of fan output data under test conditions.
MC_V1_B306_Fans_12Calculation of fan output data under test conditions.
MC_V1_B306_Fans_13BIUCalculation of fan output as a function of change in speed
MC_V1_B306_Fans_13Calculation of fan output as a function of change in speed
MC_V1_B307_Matrls_TOC Materials and Processing -General Folder 10
MC_V1_B307_Matrls_1BIUVentilation of Ball mills and cooling air calculation
MC_V1_B307_Matrls_1Ventilation of Ball mills and cooling air calculation
MC_V1_B307_Matrls_2BIUSolving with LMTD -heat transfer in cooler or dryer.
MC_V1_B307_Matrls_2Solving with LMTD -heat transfer in cooler or dryer.
MC_V1_B307_Matrls_3BIU Soil Properties CalculationsMC_V1_B307_Matrls_3 Soil Properties Calculations
MC_V1_B307_Matrls_4BIUEvaluation of hot gas utilisation factor in a drying system
MC_V1_B307_Matrls_4Evaluation of hot gas utilisation factor in a drying system
MC_V1_B307_Matrls_5BIUEstimation of cement requirement for building brick wall
MC_V1_B307_Matrls_5Estimation of cement requirement for building brick wall
MC_V1_B308_Hydraulics_TOC Plant Hydraulics 40
MC_V1_B308_Hydraulics_1BIU Quality of Plant Cooling WaterMC_V1_B308_Hydraulics_1 Quality of Plant Cooling Water
MC_V1_B308_Hydraulics_2BIUHydraulic jack -calculation of power requirement
MC_V1_B308_Hydraulics_2Hydraulic jack -calculation of power requirement
MC_V1_B308_Hydraulics_3BIU
Calculation of static pressure in a pipeline based on measurement by U-Tube Manometer
MC_V1_B308_Hydraulics_3
Calculation of static pressure in a pipeline based on measurement by U-Tube Manometer
MC_V1_B308_Hydraulics_4BIUWater jet calculation in cement grinding mill
MC_V1_B308_Hydraulics_4Water jet calculation in cement grinding mill
MC_V1_B308_Hydraulics_5BIUExternal water jet calculation in cement grinding mill
MC_V1_B308_Hydraulics_5External water jet calculation in cement grinding mill
MC_V1_B308_Hydraulics_6BIUEfficiency calculation of a centrifugal pump in operation
MC_V1_B308_Hydraulics_6Efficiency calculation of a centrifugal pump in operation
MC_V1_B308_Hydraulics_7BIUPressure and power calculation of a centrifugal pump to pump water
MC_V1_B308_Hydraulics_7Pressure and power calculation of a centrifugal pump to pump water
MC_V1_B308_Hydraulics_8BIUFluid flow - calculation of Raynold's number and friction factor
MC_V1_B308_Hydraulics_8Fluid flow - calculation of Raynold's number and friction factor
MC_V1_B308_Hydraulics_9BIU
Fluid flow - calculation of flow between three interconnected tanks in star formation
MC_V1_B308_Hydraulics_9
Fluid flow - calculation of flow between three interconnected tanks in star formation
MC_V1_B308_Hydraulics_10BIU
Fluid flow - calculation of work done by a pump to empty a sump and lift the water to over head tank
MC_V1_B308_Hydraulics_10
Fluid flow - calculation of work done by a pump to empty a sump and lift the water to over head tank
MC_V1_B308_Hydraulics_11BIU
Fluid flow - calculation of flow through pipeline with ventury meter
MC_V1_B308_Hydraulics_11Fluid flow - calculation of flow through pipeline with ventury meter
MC_V1_B308_Hydraulics_12BIU
Selection of pipeline in pumping system design
MC_V1_B308_Hydraulics_12Selection of pipeline in pumping system design
MC_V1_B308_Hydraulics_13BIU
Energy in liquids -an approach to Barnaulli's equation
MC_V1_B308_Hydraulics_13Energy in liquids -an approach to Barnaulli's equation
MC_V1_B308_Hydraulics_14BIU
Calculation of pressure, downstream in a pipeline
MC_V1_B308_Hydraulics_14Calculation of pressure, downstream in a pipeline
MC_V1_B308_Hydraulics_15BIU
Pressure loss in a pipeline due to fluid flow
MC_V1_B308_Hydraulics_15Pressure loss in a pipeline due to fluid flow
MC_V1_B308_Hydraulics_16BIU
Calculation of power required for a pump to deliver water through a pipeline system
MC_V1_B308_Hydraulics_16
Calculation of power required for a pump to deliver water through a pipeline system
MC_V1_B308_Hydraulics_17TXT Pumping terminologiesMC_V1_B308_Hydraulics_18BIU Pumping laws
MC_V1_B308_Hydraulics_18 Pumping lawsPump systems
MC_V1_B308_Hydraulics_20BIU
Calculation of Net Positive Suction Head (NPSH) for pumplocated above reservoir level.
MC_V1_B308_Hydraulics_20
Calculation of Net Positive Suction Head (NPSH) for pumplocated above reservoir level.
MC_V1_B308_Hydraulics_20BIUa
Calculation of Net Positive Suction Head (NPSH) for pumplocated above reservoir level.(Using Global variable)
MC_V1_B308_Hydraulics_21BIU
Calculation of Net Positive Suction Head (NPSH) for pump located below reservoir level.
MC_V1_B308_Hydraulics_21
Calculation of Net Positive Suction Head (NPSH) for pump located below reservoir level.
MC_V1_B309_Insulation_TOC Insulation 2
MC_V1_B309_Insulation_1BIUGeneral Specifications for Insulation in Cement Plant
MC_V1_B309_Insulation_1General Specifications for Insulation in Cement Plant
MathCement Module 3
MathCement_PYROVolume-4 : Simulation model for pyro-processing
Process calculation of plant sections Book 200
MC_V4_B201_KilnPH_TOC Kiln Preheater Section 25
MC_V4_B201_KilnPH_1BIU Preheater exhaust gases- calculation
MC_V4_B201_KilnPH_1 Preheater exhaust gases- calculation
MC_V4_B201_KilnPH_1aBIU Preheater Exhaust Gases -with oil firing
MC_V4_B201_KilnPH_1a Preheater Exhaust Gases -with oil firingMC_V4_B201_KilnPH_2BIU Pressure loss in kiln and preheaterMC_V4_B201_KilnPH_2 Pressure loss in kiln and preheaterMC_V4_B201_KilnPH_3BIU Preheater fan ratingMC_V4_B201_KilnPH_3 Preheater fan rating
MC_V4_B201_KilnPH_4BIU Tertiary air and ducting to precalciner
MC_V4_B201_KilnPH_4 Tertiary air and ducting to precalcinerMC_V4_B201_KilnPH_5BIU Primary air fan for coal firing in kilnMC_V4_B201_KilnPH_5 Primary air fan for coal firing in kiln
MC_V4_B201_KilnPH_6BIUMass balance in a single cyclone preheater stage
MC_V4_B201_KilnPH_6Mass balance in a single cyclone preheater stage
MC_V4_B201_KilnPH_7BIUMass balance in multiple preheater stages
MC_V4_B201_KilnPH_7Mass balance in multiple preheater stages
MC_V4_B201_KilnPH_8BIU Gas balance in preheaterMC_V4_B201_KilnPH_8 Gas balance in preheater
MC_V4_B201_KilnPH_9BIUInput data calculation for file B201_KilnPH_10BIU
MC_V4_B201_KilnPH_9Input data calculation for file B201_KilnPH_10
MC_V4_B201_KilnPH_10BIUHeat gas and mass balance in 5 stage preheater with precalciner
MC_V4_B201_KilnPH_10Heat gas and mass balance in 5 stage preheater with precalciner
MC_V4_B201_KilnPH_11BIU Radiation losses from kiln MC_V4_B201_KilnPH_11 Radiation losses from kiln
MC_V4_B201_KilnPH_12BIU Calculation of false air into the system
MC_V4_B201_KilnPH_13aBIU Kiln heat balance
MC_V4_B202_Cooler_TOC Clinker Cooler Section 4
MC_V4_B202_Cooler_1 Clinker cooler -cooling air calculation
MC_V4_B202_Cooler_2BIUClinker cooler gas balance and heat balance
MC_V4_B202_Cooler_2Clinker cooler gas balance and heat balance
MC_V4_B202_Cooler_3Calculation of grate area and bed height for clinker cooler
MC_V4_B203_Pyro_TOCPyro Processing ( Kiln, Preheater & Cooler ) Section 4
MC_V4_B203_Pyro_1BIU
Over all heat balance, gas balance and mass balance in the pyro section-4 stage preheater -64p
MC_V4_B203_Pyro_2BIU
Over all heat balance, gas balance and mass balance in the pyro section-5 stage preheater -69p
MC_V4_B203_Pyro_2
Over all heat balance, gas balance and mass balance in the pyro section-5 stage preheater -69p
MC_V4_B203_Pyro_3BIU
Over all heat balance, gas balance and mass balance in the pyro section-6 stage preheater -74p
Process design calculations - support systems Book 300
MC_V4_B302_Heat_TOC Heat & Combustion 3
MC_V4_B301_Heat_1BIUCombustion calculations for burning of fuel oil
MC_V4_B301_Heat_2BIU Gaseous fuels- combustion calculations
MC_V4_B301_Heat_3BIUCalculation of total heat required to evapoate moisture
MathCement Module 4MathCement_FluidPower Volume-5 : Fluid power
Air and Gas Handling Book 200
MC_V5_B201_Fans_TOC Pneumatics and compressed air systems 36
MC_V5_B201_Fans_1BIUCalculation of mass of gases stored in a vessel
MC_V5_B201_Fans_1Calculation of mass of gases stored in a vessel
MC_V5_B201_Fans_2BIUCompressed air pressure in a cylinder to deliver a desired clamping force
MC_V5_B201_Fans_2Compressed air pressure in a cylinder to deliver a desired clamping force
MC_V5_B201_Fans_3BIUCalculation of theoretical power to compress air polytropically
MC_V5_B201_Fans_3Calculation of theoretical power to compress air polytropically
MC_V5_B201_Fans_4BIUCalculation of theoretical power for isothermal compression of air
MC_V5_B201_Fans_4Calculation of theoretical power for isothermal compression of air
MC_V5_B201_Fans_5BIU
Calculation of inter-cooler pressure for minimum power for two stage compression of air
MC_V5_B201_Fans_5
Calculation of inter-cooler pressure for minimum power for two stage compression of air
MC_V5_B201_Fans_6BIUCalculation of pressure loss and flow through compressed air pipe lines
MC_V5_B201_Fans_6Calculation of pressure loss and flow through compressed air pipe lines
MC_V5_B201_Fans_7BIUCalculation of pipe diameter for flow through compressed air pipe lines
MC_V5_B201_Fans_7Calculation of pipe diameter for flow through compressed air pipe lines Production and distribution of compressed air
MC_V5_B201_Fans_8BIU
Calculation of frequency at which compressor would come on load as function of system demand.
MC_V5_B201_Fans_8
Calculation of frequency at which compressor would come on load as function of system demand.
MC_V5_B201_Fans_9BIU
Calculation of consumption of compressedair in operating a cylinder
MC_V5_B201_Fans_9
Calculation of consumption of compressedair in operating a cylinder
MC_V5_B201_Fans_10BIU
Calculation of reduction in consumption of compressed air in operating a cylinder with low pressure supply for retract stroke
MC_V5_B201_Fans_10
Calculation of reduction in consumption of compressed air in operating a cylinder with low pressure supply for retract stroke
MC_V5_B201_Fans_11BIU
Calculation of consumption of compressed air in operating a cylinder including effect of pressurising pipeline between valve and cylinder.
MC_V5_B201_Fans_11
Calculation of consumption of compressed air in operating a cylinder including effect of pressurising pipeline between valve and cylinder.
MC_V5_B201_Fans_12BIU
Calculation of capacity of receiver based on operational demand of compressed air
MC_V5_B201_Fans_12
Calculation of capacity of receiver based on operational demand of compressed air
MC_V5_B201_Fans_13BIU
Calculation of number of starts for compressor for given capacity of receiver based on operational demand of compressed air
MC_V5_B201_Fans_13
Calculation of number of starts for compressor for given capacity of receiver based on operational demand of compressed air
MC_V5_B201_Fans_14BIU
Calculation to find pressure range to control number of starts for compressor for given capacity of receiver based on operational demand of compressed air
MC_V5_B201_Fans_14
Calculation to find pressure range to control number of starts for compressor for given capacity of receiver based on operational demand of compressed air
MC_V5_B201_Fans_15BIU
Estimation of leakage of compressed air , based on fall in pressure in ring main when the plant is shut down.
MC_V5_B201_Fans_15
Estimation of leakage of compressed air , based on fall in pressure in ring main when the plant is shut down.
MC_V5_B201_Fans_16BIU
Calculating compressed air cylinder bore to be able to develop a desired clamping force
MC_V5_B201_Fans_16
Calculating compressed air cylinder bore to be able to develop a desired clamping force
MC_V5_B201_Fans_17BIU
Calculating cylinder bore and compressed air consumption to move a load up an incline.
MC_V5_B201_Fans_17
Calculating cylinder bore and compressed air consumption to move a load up an incline.
MC_V5_B201_Fans_18BIU
Calculating of extend stroke time for a cylinder as a function of load to be moved considering cushioning effects.
MC_V5_B201_Fans_18
Calculating of extend stroke time for a cylinder as a function of load to be moved considering cushioning effects.
MathCement Module 5
MathCement_BusinessVolume-22 : Business Mathematics
Funds and assets creation Book 200
MC_V22_B201_Interest_TOC Interest 12
MC_V22_B201_Interest_1BIU
Calculation of Effective Rate of Interest on an Investment when Nominal Rate of Interest is Known
MC_V22_B201_Interest_1
Calculation of Effective Rate of Interest on an Investment when Nominal Rate of Interest is Known
MC_V22_B201_Interest_2BIU
Calculation of Nominal Rate of Interest on an Investment when Effective Rate of Interest is Known
MC_V22_B201_Interest_2
Calculation of Nominal Rate of Interest on an Investment when Effective Rate of Interest is Known
MC_V22_B201_Interest_3BIU
Calculation of Rates of Interest on an Investment when Final Balance After the End of Deposit Period is Known
MC_V22_B201_Interest_3
Calculation of Rates of Interest on an Investment when Final Balance After the End of Deposit Period is Known
MC_V22_B201_Interest_4BIU
Calculation of Future Value of a Fixed Deposit or Investment and Recurring Deposit Separately or Together
MC_V22_B201_Interest_4
Calculation of Future Value of a Fixed Deposit or Investment and Recurring Deposit Separately or Together
MC_V22_B201_Interest_5BIU
Calculation of Rate of Nominal Interest per Year,to Reach a Certain Future Value on a Fixed Deposit or Investment and Recurring Deposit Separately or Together
MC_V22_B201_Interest_5
Calculation of Rate of Nominal Interest per Year,to Reach a Certain Future Value on a Fixed Deposit or Investment and Recurring Deposit Separately or Together
MC_V22_B201_Interest_6BIU
Calculation of Rate of Nominal Interest per Year to Reach a Certain Future Value on a Fixed Deposit or Investment and Amount of Recurring Deposit Separately to Achieve a Desired Total Future Value.
MC_V22_B201_Interest_6
Calculation of Rate of Nominal Interest per Year to Reach a Certain Future Value on a Fixed Deposit or Investment and Amount of Recurring Deposit Separately to Achieve a Desired Total Future Value.
MC_V22_B202_Annuities_TOC Annuities 10
MC_V22_B202_Annuities_1BIUCalculation of Payments for a Sinking Fund
MC_V22_B202_Annuities_1Calculation of Payments for a Sinking Fund
MC_V22_B202_Annuities_2BIUCalculation of Time Required for a Target Amount in Sinking Fund
MC_V22_B202_Annuities_2Calculation of Time Required for a Target Amount in Sinking Fund
MC_V22_B202_Annuities_3BIU
Calculation to find, how much money will be in the Sinking Fund after a certain period.
MC_V22_B202_Annuities_3
Calculation to find, how much money will be in the Sinking Fund after a certain period.
MC_V22_B202_Annuities_4BIUCalculation to find, present value of an annuity
MC_V22_B202_Annuities_4Calculation to find, present value of an annuity
MC_V22_B202_Annuities_5BIUCalculation to find, equated monthly instalment to repay a loan
MC_V22_B202_Annuities_5Calculation to find, equated monthly instalment to repay a loan
MC_V22_B203_Depreciation_TOC Depreciation 6MC_V22_B203_Depreciation_1TXT Introduction to DepreciationMC_V22_B203_Depreciation_2BIU
Depreciation Calculation of Assets by Straight-line Method
MC_V22_B203_Depreciation_2Depreciation Calculation of Assets by Straight-line Method
MC_V22_B203_Depreciation_4BIU
Depreciation Calculation of Assets by Reducing Balance Method
MC_V22_B203_Depreciation_5BIU
Depreciation Calculation of Assets by Sum-of-the-Years' -Digits Method
MC_V22_B203_Depreciation_6BIU
Depreciation Calculation by Units of Production Method
MathCement Module 6
MathCement_NewCalc Volume-23 : New Calculations
Miscellaneous Book 200
MC_V23_B201_Hopper_TOC Hopper design 8
MC_V23_B201_Hopper_1BIU
Calculation of valley angle of a hopper with square and rectangular cross section, given the wall angles and vertical height of the pyramidal part.
MC_V23_B201_Hopper_1
Calculation of valley angle of a hopper with square and rectangular cross section, given the wall angles and vertical height of the pyramidal part.
MC_V23_B201_Hopper_2BIU
Calculation of wall angles and valley angles of a hopper with square and rectangular cross section, given the opening dimensions and height of the pyramidal part.
MC_V23_B201_Hopper_2
Calculation of wall angles and valley angles of a hopper with square and rectangular cross section, given the opening dimensions and height of the pyramidal part.
MC_V23_B201_Hopper_3BIU
Calculation of lateral pressure on silo wall due to stored bulk material as function of filling height and checking the possibility of increasing capacity by increase of height.
MC_V23_B201_Hopper_3
Calculation of lateral pressure on silo wall due to stored bulk material as function of filling height and checking the possibility of increasing capacity by increase of height.
MC_V23_B201_Hopper_4BIU
Calculation of maximum filling height of a silo so that the lateral pressure does not exceed given safe value
MC_V23_B201_Hopper_4
Calculation of maximum filling height of a silo so that the lateral pressure does not exceed given safe value
MC_V23_B202_Refra_TOC Refractory design 2
MC_V23_B202_Refra_1BIU
Calculation to determine number of refractory bricks required for a kiln section
MC_V23_B202_Refra_1
Calculation to determine number of refractory bricks required for a kiln section
MC_V23_B203_Kiln_TOC Kiln 6
MC_V23_B203_Kiln_1BIUCalculation to determine the gap between tyre and supporting pads
MC_V23_B203_Kiln_1Calculation to determine the gap between tyre and supporting pads
MC_V23_B203_Kiln_2BIU
Calculation of heat of reaction of clinker based on laboratory analysis -based on VDZ procedure.
MC_V23_B203_Kiln_2
Calculation of heat of reaction of clinker based on laboratory analysis -based on VDZ procedure.
MC_V23_B203_Kiln_3BIU
Estimation of temperature of partially calcined raw meal entering kiln, as a function of percentage of fuel fired in Precalciner.
MC_V23_B203_Kiln_3
Estimation of temperature of partially calcined raw meal entering kiln, as a function of percentage of fuel fired in Precalciner.
MC_V23_B204_Fuels_TOC Fuels & combustion 5
MC_V23_B204_Fuels_1BIU
Determine percentage of excess air used in burning a fuel, in a furnace generating hot gas, when data for flue gas analysis by Orsat is available
MC_V23_B204_Fuels_2BIUBurner calculation - 3- channel coal firing burner
MC_V23_B204_Fuels_2Burner calculation - 3- channel coal firing burner
MC_V23_B204_Fuels_3BIUGaseous fuels - combustion calculations -expanded
MC_V23_B204_Fuels_3Gaseous fuels - combustion calculations -expanded
MC_V23_B205_Ducts_TOC Chutes & Ducts 2
MC_V23_B205_Ducts_1BIULoad analysis of a multi-support saddle mounted tertiary air duct
MC_V23_B205_Ducts_1Load analysis of a multi-support saddle mounted tertiary air duct
MC_V23_B206_Dedust_TOC Dedusting systems 6
MC_V23_B206_dedust_1BIU
Calculation to check suitability of existing Glass Bag House after proposed upgradation of kiln.
MC_V23_B206_dedust_1
Calculation to check suitability of existing Glass Bag House after proposed upgradation of kiln.
MC_V23_B206_dedust_2BIU
Calculate total pressure a fan must develop to move air in a dedusting duct fitted with suction hood, filter and nozzle at discharge end .
MC_V23_B206_dedust_2
Calculate total pressure a fan must develop to move air in a dedusting duct fitted with suction hood, filter and nozzle at discharge end .
MC_V23_B206_Dedust_3BIU
Calculation to find minimum filter cloth area while checking the design of Bag House / Bag Filter
MC_V23_B206_Dedust_3
Calculation to find minimum filter cloth area while checking the design of Bag House / Bag Filter
MC_V23_B207_Preblend_TOC Preblending systems 2
MC_V23_B207_Preblend_1BIUCalculation of longitudinal and linear blending beds .
MC_V23_B207_Preblend_1Calculation of longitudinal and linear blending beds .
MC_V23_B208_Matrl_TOC Materials properties 4
MC_V23_B208_Matrl_1BIUCalculation of specific heats of various materials as a function of temperature
MC_V23_B208_Matrl_1Calculation of specific heats of various materials as a function of temperature
MC_V23_B208_Matrl_2BIUCalculation of specific heats of various gases as a function of temperature
MC_V23_B208_Matrl_2Calculation of specific heats of various gases as a function of temperature
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