Solved Paper: Bee Energy Auditor/Energy Manager Exam Paper 2
Published 5/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 819.82 MB | Duration: 1h 53m
Published 5/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 819.82 MB | Duration: 1h 53m
OSS Academy Guide to your sustainable learnings
What you'll learn
Solved Question Paper on BEE Energy Auditor/Energy Manager Exam Paper 2
Understanding of Paper Pattern of BEE Paper 2: Energy Efficiency in Thermal Utilities
Examples on Fuels and Combustion
Examples on Boilers
Examples on Steam System
Examples on Furnaces
Examples on Insulation and Refractories
Examples on FBC Boilers
Examples on Cogeneration
Examples on Waste Heat Recovery
Examples on Heat Exchangers
50 MCQ Questions on BEE Paper 2: Energy Efficiency in Thermal Utilities
Short Descriptive questions on BEE Paper 2: Energy Efficiency in Thermal Utilities
Long Descriptive questions on BEE Paper 2: Energy Efficiency in Thermal Utilities
Requirements
No Prior experience is needed. You will learn everything about BEE Paper 2: Energy Efficiency in Thermal Utilities Paper Pattern and technique of questions solving in this course
Description
In this Course you will learn following points in details:Solved Question Paper on BEE Energy Auditor/Energy Manager Exam Paper 2Understanding of Paper Pattern of BEE Paper 2: Energy Efficiency in Thermal UtilitiesExamples on Fuels and CombustionExamples on BoilersExamples on Steam SystemExamples on FurnacesExamples on Insulation and RefractoriesExamples on FBC BoilersExamples on CogenerationExamples on Waste Heat RecoveryExamples on Heat Exchangers50 MCQ Questions on BEE Paper 2: Energy Efficiency in Thermal UtilitiesShort Descriptive questions on BEE Paper 2: Energy Efficiency in Thermal UtilitiesLong Descriptive questions on BEE Paper 2: Energy Efficiency in Thermal UtilitiesSyllabus of the Paper 2: Energy Efficiency in Thermal UtilitiesUnit No. 01: Fuels and CombustionUnit No. 02: BoilersUnit No. 03: Steam System Unit No. 04: Furnaces Unit No. 05: Insulation and RefractoriesUnit No. 06: FBC BoilersUnit No. 7: Cogeneration Unit No. 08: Waste Heat RecoveryUnit No. 09: Heat ExchangersProperties of Solid and Liquid Fuels3 T’s of Combustion BoilersBoiler Types and ClassificationsFluidized Bed CombustionPerformance Evaluation of BoilersDirect and Indirect Method of Calculation of Boiler efficiencyExample on Calculation of Boiler efficiencyBlowdown calculationsBoiler Water TreatmentEnergy Conservation Opportunities in BoilersSteam System Properties of Steam Formation of Steam at Constant PressureTypes of Steam TrapsInstallation of Steam Traps Performance Assessment Methods for Steam TrapsEnergy Saving Opportunities in Steam SystemCalculations of Flash SteamExample on Heat to Power ratioFurnaces Types and Classification of Different FurnacesTypes of Continuous Reheating FurnacePerformance Evaluation of a Typical FurnaceGeneral Fuel Economy Measures in FurnacesExample on Heat loss in furnaceInsulation and RefractoriesInsulation Materials used in industrySimplified formula for heat loss calculationGeneral requirements of a refractory material Classification of RefractoriesTypical Refractories in Industrial Use Selection of RefractoriesExample on Reheating FurnaceFBC BoilersMechanism of Fluidized Bed Combustion Advantages of Fluidized Bed Combustion BoilersExample on FBC BoilersCogeneration Technical Options for CogenerationSteam turbine cogeneration systemsGas turbine cogeneration systemsReciprocating engine cogeneration systemsFactors Influencing Cogeneration ChoiceImportant Technical Parameters for Cogeneration Example on Cogeneration SystemWaste Heat RecoveryClassification and ApplicationCommercial Waste Heat Recovery DevicesRecuperatorsMetallic Radiation Recuperator Convective RecuperatorConvective Radiative RecuperatorRegeneratorHeat WheelsHeat PipeExample on Waster Heat Recovery BoilersHeat ExchangersTypes of Heat ExchangersEconomizerShell and Tube Heat ExchangerPlate heat exchangerWaste Heat BoilersDirect Contact Heat ExchangerParallel Flow and Counter Flow Heat ExchangersExample on Parallel Flow and Counter Flow Heat ExchangersExample on Calculation of LMTD and Area of Heat Exchangers
Overview
Section 1: Paper 2 Section 1: Solved MCQ Questions
Lecture 1 Section 1 Lesson 1
Lecture 2 Section 1 Lesson 2
Lecture 3 Section 1 Lesson 3
Lecture 4 Section 1 Lesson 4
Lecture 5 Section 1 Lesson 5
Lecture 6 Section 1 Lesson 6
Lecture 7 Section 1 Lesson 7
Lecture 8 Section 1 Lesson 8
Lecture 9 Section 1 Lesson 9
Lecture 10 Section 1 Lesson 10
Section 2: Paper 2 Section 2: Solved Short Descriptive Question
Lecture 11 Section 2 Lesson 1
Lecture 12 Section 2 Lesson 2
Lecture 13 Section 2 Lesson 3
Lecture 14 Section 2 Lesson 4
Lecture 15 Section 2 Lesson 5
Lecture 16 Section 2 Lesson 6
Lecture 17 Section 2 Lesson 7
Lecture 18 Section 2 Lesson 8
Section 3: Paper 1 Section 3: Solved Long Descriptive Questions
Lecture 19 Section 3 Lesson 1
Lecture 20 Section 3 Lesson 2
Lecture 21 Section 3 Lesson 3
Lecture 22 Section 3 Lesson 4
Lecture 23 Section 3 Lesson 5
Lecture 24 Section 3 Lesson 6
Lecture 25 Section 3 Lesson 7
Lecture 26 Section 3 Lesson 8
Exam aspirants of Bureau of Energy Efficiency Energy Auditor,Exam aspirants of Bureau of Energy Efficiency Energy Manager,Mechanical Engineers,Civil Engineers,ExTC Engineers,Electrical Engineers,Energy Engineers,Energy Consultants