基本信息
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职业迁徙
个人简介
Research summary
Cliff’s research interests build on his experience in physical sciences, physics and materials science, and in data analysis. He has an active interest in applying the tools and techniques – measurement, experimental design, statistical methods etc – of these disciplines in the energy demand domain.
Cliff’s core interest is in the measurement of energy use, and parameters related to it, to characterise the performance of buildings, building elements and systems. A physicist, his research includes understanding ventilation, the thermal performance of buildings and heating/cooling systems, combining physical principles with statistical analysis, including frequentist and probabilistic methods. He leads the Physical Characterisation of Buildings team, who undertake monitoring campaigns, develop physically informed models, undertake analysis and relate the outcomes to the complex socio-technical factors that affect building performance, and policies and practices that may support reductions in carbon emissions. Topics include:
characterising the thermal performance of occupied dwellings from in situ data;
the development of a novel technique to characterise the thermal performance of building elements utilising Bayesian analysis;
investigation into the distribution of airtightness test results for new UK dwellings, and how they relate to targets set for compliance purposes;
investigation of the thermal performance of floors and walls, and the unintended consequences of retrofitting;
estimation of the efficiency improvement associated with the replacement of conventional with condensing boilers in the building stock from national datasets.
Cliff’s research interests build on his experience in physical sciences, physics and materials science, and in data analysis. He has an active interest in applying the tools and techniques – measurement, experimental design, statistical methods etc – of these disciplines in the energy demand domain.
Cliff’s core interest is in the measurement of energy use, and parameters related to it, to characterise the performance of buildings, building elements and systems. A physicist, his research includes understanding ventilation, the thermal performance of buildings and heating/cooling systems, combining physical principles with statistical analysis, including frequentist and probabilistic methods. He leads the Physical Characterisation of Buildings team, who undertake monitoring campaigns, develop physically informed models, undertake analysis and relate the outcomes to the complex socio-technical factors that affect building performance, and policies and practices that may support reductions in carbon emissions. Topics include:
characterising the thermal performance of occupied dwellings from in situ data;
the development of a novel technique to characterise the thermal performance of building elements utilising Bayesian analysis;
investigation into the distribution of airtightness test results for new UK dwellings, and how they relate to targets set for compliance purposes;
investigation of the thermal performance of floors and walls, and the unintended consequences of retrofitting;
estimation of the efficiency improvement associated with the replacement of conventional with condensing boilers in the building stock from national datasets.
研究兴趣
论文共 40 篇作者统计合作学者相似作者
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时间
引用量
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期刊级别
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BUILDINGS & CITIESno. 1 (2024): 16-34
Buildings & citiesno. 1 (2024): 182-198
INDOOR ENVIRONMENTAL QUALITY PERFORMANCE APPROACHES (IAQ 2020), PT 1 (2021)
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E3S web of conferences (2020): 01005-01005
12TH NORDIC SYMPOSIUM ON BUILDING PHYSICS (NSB 2020) (2020)
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作者统计
#Papers: 40
#Citation: 549
H-Index: 13
G-Index: 23
Sociability: 4
Diversity: 0
Activity: 0
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