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Totara Bank project 2008 Energy Postgraduate Conference Léa Sigot - Sylvain Lamige Supervisor: Attilio Pigneri.

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Presentation on theme: "Totara Bank project 2008 Energy Postgraduate Conference Léa Sigot - Sylvain Lamige Supervisor: Attilio Pigneri."— Presentation transcript:

1 Totara Bank project 2008 Energy Postgraduate Conference Léa Sigot - Sylvain Lamige Supervisor: Attilio Pigneri

2 Presentation overview Context Totara Bank project outlines Previous work On-site visit Thermal analysis of building design and siting options  Objectives  Waitakere NOW Home®  Software review: ALF3  Data collection: Climate data Techno-economic analysis of distributed generation options from renewable energy sources and grid-interaction scenarios  Objectives  Methodology  Software review: HOMER ViPOR  Data collection Resource data Technological data Electrical demand data

3 Context of our research project within our studies Our school:  National Institute of Applied Sciences (INSA) of Lyon Our department:  Energy & Environment Engineering Our research project:  A five-month research project during our fourth year

4 Totara Bank project outlines A sustainable land development, with: Energy efficient houses, based on solar principle design On-site electricity generation from renewable sources Life in community

5 On-site visit Site location Plot contours Common facilities

6 Wairarapa district Location 8 km south of Masterton

7 Totara Bank site  7 hectares  8 lots

8 Common facilities Pole connection Common house Road access Coppicing trees

9 Previous work Land layout Whole solar access planning Optimized eaves shade angles Site thermal self-sufficiency

10 Land layout 7 hectares:  8 individual lots (1200-2100 m²)  6 hectare common land Soil-adapted tree plantation  An optimized land layout Previous work

11 Previous work: Land layout

12 Land layout 7 hectares:  8 individual lots (1200-2100 m²)  6 hectare common land Soil-adapted tree plantation  An optimized land layout Previous work

13 Previous work: Land layout

14 Land layout 7 hectares:  8 individual lots (1200-2100 m²)  6 hectare common land Soil-adapted tree plantation  An optimized land layout Previous work

15 Previous work: Land layout

16 Whole solar access planning 85 % solar energy capture  Solar obstruction contours Previous work

17 Previous work: Solar obstruction contours

18 Optimized eaves shade angles Avoid summer over-heating and winter under-heating  Site-suited angles Previous work Optimized Traditional

19 Site thermal self-sufficiency Dwelling minimal thermal efficiency, based on:  Building Performance Index (BPI)  Floor area On-site fuel resource:  0.6 ha of coppicing trees Previous work

20 Thermal analysis of building design and siting options Objectives Waitakere NOW Home® Software review: ALF3 Data collection

21 Objectives Model energy performance of a baseline house  How much heating energy is required?  Is the site resource sufficient?  What can be done to improve the site thermal self-sufficiency? Thermal analysis of buildings

22 Designed, built and monitored by Beacon Pathway Ltd Efficient building best practices Suit an average family Affordable Thermal analysis of buildings: Data collection – Dwelling characteristics Waitakere NOW Home®

23 Software review: ALF3 Thermal analysis of buildings Description Modelling capabilities Input requirements

24 Description Annual Loss Factor Method Developed by the Building Research Association of New Zealand (BRANZ) Determine the heating energy required Thermal analysis of buildings: Software review – ALF3

25 Modelling capabilities Heating energy required [kWh/year] Building Performance Index (BPI) [kWh/(DegreeDay.m²)] Design option comparison Thermal analysis of buildings: Software review – ALF3

26 ALF flow chart

27 Modelling capabilities Heating energy required [kWh/year] Building Performance Index (BPI) [kWh/(DegreeDay.m²)] Design option comparison Thermal analysis of buildings: Software review – ALF3

28 ALF sample design comparison

29 Input requirements Dwelling characteristics Occupancy behaviour Climate region Thermal analysis of buildings: Software review – ALF3

30 ALF flow chart

31 Input requirements Dwelling characteristics Occupancy behaviour Climate region Thermal analysis of buildings: Software review – ALF3

32 ALF flow chart

33 Input requirements Dwelling characteristics Occupancy behaviour Climate region Thermal analysis of buildings: Software review – ALF3

34 ALF flow chart

35 Climate data Meteorological station location Long-term average monthly temperature  ALF-value calculation Long-term average monthly sunshine hours  AGF-value calculation Thermal analysis of buildings: Data collection – Climate

36

37 Climate data Meteorological station location Long-term average monthly temperature  ALF-value calculation Long-term average monthly sunshine hours  AGF-value calculation Thermal analysis of buildings: Data collection – Climate

38

39 Average WaitakereAverage Totara Bank Average difference: 3.2 °C

40 Climate data Meteorological station location Long-term average monthly temperature  ALF-value calculation Long-term average monthly sunshine hours  AGF-value calculation Thermal analysis of buildings: Data collection – Climate

41

42

43 Climate data Meteorological station location Long-term average monthly temperature  ALF-value calculation Long-term average monthly sunshine hours  AGF-value calculation Thermal analysis of buildings: Data collection – Climate

44 Evening Morning/evening All day24 h Heating schedule

45 Thermal analysis of building design and siting options To be continued…  Model template for Waitakere NOW Home® in Totara Bank site  Heating energy required for the whole Totara Bank site  Part provided by the coppicing area

46 Techno-economic analysis of distributed generation options from renewable energy sources and grid-interaction scenarios Objectives Methodology Software review:  HOMER  ViPOR Data collection:  Resource data  Technological data  Electrical demand data

47 Objectives Techno-economic analysis of distributed generation options from renewable energy sources and grid-interaction scenarios  What type of generation mix?  Trade-of between electrical requirements and on- site generation costs  What electrical self-sufficiency level can be achieved? Electrical generation system analysis

48 Methodology Using HOMER:  Determine the optimal generation system Using ViPOR:  Draw the local network map Electrical generation system analysis

49 Software review: HOMER Description Modelling capabilities Input requirements Already done projects Electrical generation system analysis

50 Description Developed by the American National Renewable Energy Laboratory (NREL) Hybrid Optimization Model for Energy Renewables Electrical generation system analysis: Software review – HOMER

51 Modelling capabilities Generation system simulation  Energy balance Optimisation  Ranked by cost Sensitivity analysis Electrical generation system analysis: Software review – HOMER

52 Input requirements Resources Technologies Electrical demand Electrical generation system analysis: Software review – HOMER

53 Already done projects Sicud project: Small village in Philippines Wind, solar and fuel resource  Methodology Impact of wind speed and fuel price  Usefulness of sensitivity analysis Electrical generation system analysis: Software review – HOMER

54 Software review: ViPOR Electrical generation system analysis: Software review – ViPOR Description Modelling capabilities Input requirements

55 Description Developed by the American National Renewable Energy Laboratory The Village Power Optimization Model for Renewable In association with HOMER Electrical generation system analysis: Software review – ViPOR

56 Modelling capabilities Intern grid design  Wire length  Load kind Grid-interaction scenarios  Electricity price Electrical generation system analysis: Software review – ViPOR

57 Spatial inputs Non-spatial inputs Electrical generation system analysis: Software review – ViPOR Input requirements

58 Available data Hourly wind speed and direction Hourly global solar radiation Profile development Wind resource:  Long-term average hourly profile  Wind speed frequency distribution curve  Wind rose Solar resource  Long-term average hourly profile  Daily profile per month Electrical generation system analysis: Data collection Resource data

59 Electrical generation system analysis: Data collection – Resource

60 Available data Hourly wind speed and direction Hourly global solar radiation Profile development Wind resource:  Long-term average hourly profile  Wind speed frequency distribution curve  Wind rose Solar resource  Long-term average hourly profile  Daily profile per month Electrical generation system analysis: Data collection Resource data

61 Average wind speed: 3,2 m/s Electrical generation system analysis: Data collection – Resource

62 Available data Hourly wind speed and direction Hourly global solar radiation Profile development Wind resource:  Long-term average hourly profile  Wind speed frequency distribution curve  Wind rose Solar resource  Long-term average hourly profile  Daily profile per month Electrical generation system analysis: Data collection Resource data

63 55 % of wind speed < 3 m/s Electrical generation system analysis: Data collection – Resource

64 Available data Hourly wind speed and direction Hourly global solar radiation Profile development Wind resource:  Long-term average hourly profile  Wind speed frequency distribution curve  Wind rose Solar resource  Long-term average hourly profile  Daily profile per month Electrical generation system analysis: Data collection Resource data

65 Electrical generation system analysis: Data collection – Resource

66

67 Available data Hourly wind speed and direction Hourly global solar radiation Profile development Wind resource:  Long-term average hourly profile  Wind speed frequency distribution curve  Wind rose Solar resource  Long-term average hourly profile  Daily profile per month Electrical generation system analysis: Data collection Resource data

68 Electrical generation system analysis: Data collection – Resource

69 Available data Hourly wind speed and direction Hourly global solar radiation Profile development Wind resource:  Long-term average hourly profile  Wind speed frequency distribution curve  Wind rose Solar resource  Long-term average hourly profile  Daily profile per month Electrical generation system analysis: Data collection Resource data

70 Electrical generation system analysis: Data collection – Resource

71 Next steps Technological data  Database  Cost estimation Electrical demand data  Hourly electrical demand record Electrical generation system analysis: Data collection

72 Totara Bank project 2008 Energy Postgraduate Conference Léa Sigot - Sylvain Lamige Supervisor: Attilio Pigneri

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