0.3Green FactorOpen Space ProvisionGreen FactorOpen Space Provision1.1261%Trees2,094Trees68,263 m236,942 m2Green SpacesGreen RoofGreen SpacesGreen Roof75.78 T / YrCO2 UptakeCO2 Uptake1,160.44 kg / YrAir Quality ImprovementAir Quality ImprovementDetention VolumeRückhaltevolumenDetention VolumeRückhaltevolumen102%11,097 m3Peak Run-Off CoefficientPeak Run-Off Coefficient0.66Natural Water BalanceEvapotranspirationVerdunstung70%28%0,24InfiltrationVersickerung22%0,25Run-OffRegenwasserbehandlungStormwater TreatmentGreen FactorRun-Off50%69%0%Open Space ProvisionRegenwasserbehandlungStormwater TreatmentTreesStorage Volume/Potable Water SavingsTrinkwassereinsparungGreen SpacesHeat & MicroclimateGreen RoofPaved Surface ReductionTrinkwassereinsparungStorage Volume/Potable Water Savings0 m3 / Jahr7,505 m356%CO2 Uptake0.25AlbedoAlbedoAir Quality ImprovementDetention VolumeRückhaltevolumenPeak Run-Off CoefficientNatural Water BalanceEvapotranspirationVerdunstungInfiltrationVersickerungRun-OffRegenwasserbehandlungStormwater TreatmentTrinkwassereinsparungStorage Volume/Potable Water SavingsAlbedo0.231.0559%1,934TreesGreen SpacesGreen RoofGreen Factor73,847 m236,942 m235.83 T / YrOpen Space ProvisionCO2 UptakeAir Quality Improvement1,073.85 kg / YrTreesGreen SpacesWaterGreen RoofStormwater Service LevelÜberflutungssicherheit16%1,847 m3CO2 UptakeBaseline Design Option BDetention VolumeRückhaltevolumenAir Quality Improvement0.71Peak Run-Off Coefficient71%26%0,24Natural Water Balance0.326%0,251.1248%61%58%0%Green FactorPeak Run-Off CoefficientRun-OffNatural Water BalanceOpen Space ProvisionRegenwasserbehandlungStormwater TreatmentTrees28%0,24Storage Volume/Potable Water Savings9,961 m3Trinkwassereinsparung0 m3 / Jahr73,847 m2Infiltration22%Green SpacesVersickerung0,25Heat & Microclimate36,942 m2Green RoofRun-OffPaved Surface Reduction2,0940 m3 0 m3 / JahrEvapotranspirationVerdunstung68,263 m236,942 m275.78 T / Yr55%RegenwasserbehandlungStormwater TreatmentCO2 Uptake1,160.44 kg / Yr0.26AlbedoTrinkwassereinsparungStorage Volume/Potable Water SavingsAir Quality Improvement102%11,097 m3AlbedoDetention VolumeRückhaltevolumen0.66Peak Run-Off Coefficient70%28%0,24Natural Water BalanceEvapotranspirationVerdunstungHenning LarsenInfiltrationVersickerung22%0,2550%69%0%Run-OffRegenwasserbehandlungStormwater Treatment0 m3 / Jahr7,505 m3Storage Volume/Potable Water SavingsTrinkwassereinsparung56%Albedo0.250.260.9649%Green FactorOpen Space Provision1,527Trees0.353.309 m21.1236,667 m261%Green FactorGreen Roof66.87 T / Yr2,094Open Space ProvisionCO2 UptakeTreesAir Quality ImprovementGreen SpacesWaterGreen RoofStormwater Service LevelÜberflutungssicherheitCO2 UptakeOptimised Design Option ADetention VolumeRückhaltevolumenAir Quality Improvement773.96 kg / Yr68,263 m236,942 m275.78 T / Yr4,841 m340%1,160.44 kg / Yr0.73Peak Run-Off Coefficient62%25%0,24102%11,097 m30.2318%0,25InfiltrationVersickerungGreen FactorPeak Run-Off Coefficient0.661.0558%Run-Off70%59%24%0%Natural Water BalanceOpen Space ProvisionRegenwasserbehandlungStormwater TreatmentEvapotranspirationVerdunstungTrinkwassereinsparungStorage Volume/Potable Water SavingsInfiltrationVersickerungHeat & MicroclimateRun-OffPaved Surface ReductionCO2 UptakeAlbedoAir Quality Improvement1,934Trees50%Green SpacesGreen Roof48%35.83 T / Yr69%0%RegenwasserbehandlungStormwater Treatment1,073.85 kg / Yr0 m3 / Jahr7,505 m30.24Storage Volume/Potable Water SavingsTrinkwassereinsparungClimate Adaptation Analysis for Kamakura FukasawaAlbedoDetention VolumeRückhaltevolumen16%56%1,847 m30.25Peak Run-Off Coefficient0.71Natural Water BalanceEvapotranspirationVerdunstung71%26%0,24InfiltrationVersickerung26%0,25Run-OffRegenwasserbehandlungStormwater Treatment48%58%0%0 m3 0 m3 / JahrStorage Volume/Potable Water Savings9,961 m3Trinkwassereinsparung0 m3 / Jahr55%Albedo0.260.140.4833%1,3760.2351,776 m20 m21.05Green Factor59%37.90 T / YrOpen Space Provision693.01 kg / Yr73,847 m236,942 m2Green SpacesTrees1,93453.309 m236,667 m2Green Roof18%35.83 T / Yr2,644 m3CO2 UptakeBaseline Design Option AAir Quality Improvement66.87 T / Yr1,073.85 kg / Yr773.96 kg / Yr0.8756%16%24%0,240.2612%0,250.9664%49%10%0%1,5270 m3 0 m3 / Jahr53.309 m236,667 m227%66.87 T / Yr0.190 m3 0 m3 / Jahr773.96 kg / Yr1,847 m34,841 m30.140.7171%Green FactorPeak Run-Off CoefficientOpen Space ProvisionNatural Water Balance26%0,24EvapotranspirationTreesVerdunstung48%26%0,25InfiltrationGreen SpacesVersickerungGreen RoofRun-Off51,776 m218%0,250 m258%58%0%CO2 UptakeRegenwasserbehandlungStormwater Treatment37.90 T / Yr24%0%Storage Volume/Potable Water Savings9,961 m3Trinkwassereinsparung0 m3 / JahrAir Quality Improvement693.01 kg / Yr40%814,841 m3Detention VolumeRückhaltevolumenAlbedo0.2655%Peak Run-Off Coefficient0.73Natural Water Balance62%25%0,24EvapotranspirationVerdunstung18%0,25InfiltrationVersickerungClimate Adaptation Analysis for Kamakura Fukasawa58%24%0%Run-OffRegenwasserbehandlungStormwater TreatmentTrinkwassereinsparungStorage Volume/Potable Water Savings48%Albedo0.240.260.96Green Factor0.140.4849%Open Space Provision33%1,527TreesGreen Spaces1,37651,776 m20 m2Green RoofCO2 Uptake37.90 T / YrAir Quality Improvement693.01 kg / Yr40%18%Detention VolumeRückhaltevolumen2,644 m3Peak Run-Off CoefficientNatural Water Balance0.480.7333%62%0.8756%EvapotranspirationVerdunstung25%1,3760,2424%0,24InfiltrationVersickerungRun-Off12%0,2564%RegenwasserbehandlungStormwater Treatment10%0%TrinkwassereinsparungStorage Volume/Potable Water Savings0 m3 0 m3 / Jahr18%48%2,644 m30.24Albedo27%0.190.8756%24%0,2412%0,2564%10%0%0 m3 0 m3 / Jahr27%0.1981543 索引抑制降雨径流的透水性铺装的修建绿色固定CO2并形成绿荫的行道树和树林引入有利于生态系统的本地原生种温热环境Optimised Design Option B微气候绿色环境开放空间&水环境水Benchmark Basis / TargetArrow indicates scenario performance relative to benchmarkBenchmark Basis / TargetArrow indicates scenario performance Natural Water Balancerelative to benchmarkHenning LarsenConclusions and RecommendationsConclusions and RecommendationsBaseline Design Option BOpen Space and GreenBiotope Area FactorOpen Space and GreenBiotope Area FactorWaterStormwater Service LevelÜberflutungssicherheitWaterStormwater Service LevelÜberflutungssicherheitOptimised Design Option BOpen Space and GreenEvapotranspirationVerdunstungBiotope Area FactorInfiltrationVersickerungHeat & MicroclimatePaved Surface ReductionWaterStormwater Service LevelÜberflutungssicherheitHeat & MicroclimatePaved Surface ReductionOptimised Design Option AOpen Space and GreenBiotope Area FactorBenchmark Basis / TargetGreen FactorArrow indicates scenario performance Open Space Provisionrelative to benchmarkOptimised Design Option BOpen Space and GreenBiotope Area FactorWaterOpen Space and GreenStormwater Service LevelÜberflutungssicherheitEvapotranspirationVerdunstungBiotope Area FactorDetention VolumeRückhaltevolumenInfiltrationVersickerungWaterHeat & MicroclimateStormwater Service LevelÜberflutungssicherheitPaved Surface ReductionHeat & MicroclimatePaved Surface ReductionBaseline Design Option AOpen Space and GreenBiotope Area FactorBaseline Design Option BOpen Space and GreenBiotope Area FactorGreen SpacesWaterNatural Water BalanceOpen Space and GreenStormwater Service LevelÜberflutungssicherheitEvapotranspirationVerdunstungBiotope Area FactorDetention VolumeRückhaltevolumenWaterHeat & Microclimate使用“微气候”、“绿色环境”、“水环境”3项分类指标,Stormwater Service LevelÜberflutungssicherheitPaved Surface Reduction对未纳入指导原则的配置方案进行的模拟示例。(橙色线为“选项B改善方案”的数值)Heat & MicroclimatePaved Surface ReductionOptimised Design Option AOpen Space and GreenBiotope Area FactorWaterOpen Space and GreenStormwater Service LevelÜberflutungssicherheitBiotope Area FactorDetention VolumeRückhaltevolumenWaterHeat & MicroclimateStormwater Service LevelÜberflutungssicherheitPaved Surface ReductionHeat & MicroclimatePaved Surface ReductionBaseline Design Option AOpen Space and GreenBiotope Area FactorWaterStormwater Service LevelÜberflutungssicherheitHeat & MicroclimatePaved Surface Reduction选项A导则中的环境模拟运用镰仓深泽地区社区营造导则3项分类指标Conclusions and RecommendationsComparisons (relative to Optimised Design Option B)Comparisons (relative to Optimised Design Option B)Comparisons (relative to Optimised Design Option B)
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