math cement package

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


Stockpile capacities-Longitudinal with triangular cross section

MC_V1_B203_Preblending_3Stockpile capacities-Longitudinal with triangular cross section


Stockpile capacities-Kidney shaped windrows -triangular section


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


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


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


Estimation of specific power consumption, at mill shaft, based on the operating parameters of close circuit ball mill


Estimation of specific power consumption, at mill shaft, based on the operating parameters of close circuit ball mill


Calculation of mill power demand for desired output at specified feed and product sizes, based on Bond Index.


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


Vertical Roller Mill -- Calculation of Power

MC_V1_B204_RawMill_14_r4Vertical Roller Mill -- Calculation of Power


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


Calculation of water pressure at nozzle over material bed of Vertical Roller Mill with supply from overhead tank


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


Rosin-Rammler equation -calculation of predicted residue on sieve and variaton calculations


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


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


Calculation of makeup charge or ball mills

MC_V1_B204_RawMill_22_r2Calculation of makeup charge or ball mills


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


Correlation Between Central Chord Angle or Charge Angle and Degree of Filling of Kiln


Correlation Between Central Chord Angle or Charge Angle and Degree of Filling of Kiln


Calculation of fresh cooling air and water to reduce the temperature of kiln (alkali) bypass gases before release to atmosphere


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


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


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


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


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


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


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


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


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


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.


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


Fluid flow - calculation of flow between three interconnected tanks in star formation


Fluid flow - calculation of flow between three interconnected tanks in star formation


Fluid flow - calculation of work done by a pump to empty a sump and lift the water to over head tank


Fluid flow - calculation of work done by a pump to empty a sump and lift the water to over head tank


Fluid flow - calculation of flow through pipeline with ventury meter

MC_V1_B308_Hydraulics_11Fluid flow - calculation of flow through pipeline with ventury meter


Selection of pipeline in pumping system design

MC_V1_B308_Hydraulics_12Selection of pipeline in pumping system design


Energy in liquids -an approach to Barnaulli's equation

MC_V1_B308_Hydraulics_13Energy in liquids -an approach to Barnaulli's equation


Calculation of pressure, downstream in a pipeline

MC_V1_B308_Hydraulics_14Calculation of pressure, downstream in a pipeline


Pressure loss in a pipeline due to fluid flow

MC_V1_B308_Hydraulics_15Pressure loss in a pipeline due to fluid flow


Calculation of power required for a pump to deliver water through a pipeline system


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


Calculation of Net Positive Suction Head (NPSH) for pumplocated above reservoir level.


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)


Calculation of Net Positive Suction Head (NPSH) for pump located below reservoir level.


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_2




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


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


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.


Calculation of consumption of compressedair in operating a cylinder

MC_V5_B201_Fans_9

Calculation of consumption of compressedair in operating a cylinder


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


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.


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


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


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


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.


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


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.


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


Calculation of Nominal Rate of Interest on an Investment when Effective Rate of Interest is Known


Calculation of Nominal Rate of Interest on an Investment when Effective Rate of Interest is Known


Calculation of Rates of Interest on an Investment when Final Balance After the End of Deposit Period is Known


Calculation of Rates of Interest on an Investment when Final Balance After the End of Deposit Period is Known


Calculation of Future Value of a Fixed Deposit or Investment and Recurring Deposit Separately or Together


Calculation of Future Value of a Fixed Deposit or Investment and Recurring Deposit Separately or Together


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


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


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.


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


Depreciation Calculation of Assets by Sum-of-the-Years' -Digits Method


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.


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.


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.


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.


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.


Calculation of maximum filling height of a silo so that the lateral pressure does not exceed given safe value


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 .


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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math cement package

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