Hygrothermal performance of lime and cement plastered space at five climate zones in India (Softcopy is also available)
Divya Mullick (PBE20109)
Hygrothermal performance of lime and cement plastered space at five climate zones in India (Softcopy is also available) - 2022 - vii,51p.
CONTENTS
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
MBEP TH-0065 / DIV
Hygrothermal performance of lime and cement plastered space at five climate zones in India (Softcopy is also available) - 2022 - vii,51p.
CONTENTS
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
MBEP TH-0065 / DIV