000 01864nam a2200181Ia 4500
008 110103s9999||||xx |||||||||||||| ||und||
082 _aMBEP TH-0065
_bDIV
100 _aDivya Mullick (PBE20109)
_991706
245 0 _aHygrothermal performance of lime and cement plastered space at five climate zones in India (Softcopy is also available)
260 _c2022
300 _avii,51p.
505 _aCONTENTS ABSTRACT iii ACKNOWLEDGMENT iv LIST OF FIGURES vi LIST OF TABLES vi NOMENCLATURE vii 1. INTRODUCTION 1 1.2 Background 1 1.3 Purpose statement 2 1.4 Research question/s 3 1.5 Research objectives 3 1.6 Significance of the study 3 2. LITERATURE REVIEW 5 2.1 EnergyPlus 9.4.0: Conduction Transfer Function (CTF) 8 2.2 EnergyPlus 9.4: Effective Moisture Penetration Depth (EMPD) 8 2.3 EnergyPlus 9.4: Heat and Moisture Transfer (HAMT) 9 3. RESEARCH METHODOLOGY 11 3.1 Data Gathering 11 3.2 Model Applicability 12 3.3 Parametric Analysis 12 4. MODEL APPLICABILITY 14 5. PARAMETRIC ANALYSIS 19 5.1 Free-floating – no indoor set-points 19 5.2 Air-Conditioning – IMAC set-points 24 6. CONCLUSION 30 7. LIMITATIONS 31 8. FUTURE SCOPE OF WORK 31 9. REFERENCES i 10. ANNEXURE v 10.1 Annexure 01: Timeline v 10.2 Annexure 02: Numerical calculation for simulations vi 10.3 Annexure 03: Numerical model input and output variables x 10.4 Annexure 04: Rainfall modeling assessment xii 10.5 Annexure 05: Mathematical model applicability xiv 10.6 Annexure 06: Parametric Analysis xvi
700 _aDamle, Rashmin (Guide)
890 _aIndia
891 _a2020 Batch
891 _aFT-PG
891 _aMasters of Technology in Building Energy Performance
999 _c70234
_d70234