MathCement Module 1 MathCement _2000 Volume-1 : Cement plant process calculations No of files Part -1 Process calculation of plant sections Book 200 MC_V1_B201_Quarry_TOC Quarry Section 6 MC_V1_B201_Quarry_1BIU Quarry Deposit Estimation MC_V1_B201_Quarry_1 Quarry Deposit Estimation MC_V1_B201_Quarry_2BIU Quarry - Excavator MC_V1_B201_Quarry_2 Quarry - Excavator MC_V1_B201_Quarry_3BIU_r3 Quarry - Dumper Calculations MC_V1_B201_Quarry_3_r3 Quarry - Dumper Calculations MC_V1_B202_Crushing_TOC Crushing Section 12 MC_V1_B202_Crushing_1BIU_ r5 Crusher and Auxiliaries Calculations MC_V1_B202_Crushing_1_r5 Crusher and Auxiliaries Calculations MC_V1_B202_Crushing_2BIU Single Rotor Hammer or Impact Crusher Calculations MC_V1_B202_Crushing_2 Single 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_5BIU Calculation of throughput for Roll Crusher MC_V1_B202_Crushing_5 Calculation of throughput for Roll Crusher MC_V1_B202_Crushing_6BIU Double Rotor Hammer or Impact Crusher Calculations MC_V1_B202_Crushing_6 Double Rotor Hammer or Impact Crusher Calculations MC_V1_B203_Pre- blending_TOC Pre-blending Section 8 MC_V1_B203_Preblending_1BI U Preblending and Stockpile Equipment - Calculations
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MathCement Module 1
MathCement _2000Volume-1 : Cement plant process calculations
No of files
Part -1Process calculation of plant sections Book 200
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_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_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_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