F
Francesca Romana d’Ambrosio Alfano
Researcher at University of Salerno
Publications - 42
Citations - 1801
Francesca Romana d’Ambrosio Alfano is an academic researcher from University of Salerno. The author has contributed to research in topics: Thermal comfort & Mean radiant temperature. The author has an hindex of 21, co-authored 39 publications receiving 1497 citations. Previous affiliations of Francesca Romana d’Ambrosio Alfano include University of Naples Federico II & Dow Chemical Company.
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Journal ArticleDOI
Nonconventional catalysts for isotactic propene polymerization in solution developed by using high-throughput-screening technologies.
Thomas R. Boussie,Gary M. Diamond,Christopher Goh,Keith A. Hall,Anne M. LaPointe,Margarete K. Leclerc,Vince Murphy,James A. W. Shoemaker,Howard W. Turner,Robert K. Rosen,James C. Stevens,Francesca Romana d’Ambrosio Alfano,Vincenzo Busico,Roberta Cipullo,Giovanni Talarico +14 more
Journal ArticleDOI
U-value in situ measurement for energy diagnosis of existing buildings
Giorgio Ficco,Fabio Iannetta,Elvira Ianniello,Francesca Romana d’Ambrosio Alfano,Marco Dell'Isola +4 more
TL;DR: In this article, the authors present the results of an experimental campaign aimed both to assess the metrological performance of HFMs and to evaluate the influence of the ambient conditions on in situ U-value accuracy.
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Thermal comfort: Design and assessment for energy saving
TL;DR: In this paper, the main criteria for the design and assessment of thermal comfort are discussed in order to help building and HVAC systems designers and operators to navigate the complex and varied world of standards in the field of thermal environment for improving indoor environmental quality and energy saving.
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PMV–PPD and acceptability in naturally ventilated schools
TL;DR: In this article, an expectancy factor value for the Mediterranean climate is proposed by carrying out a combined subjective and objective investigation on about 200 Italian classrooms and more than 4000 students both in winter and in summer season.
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Thermal Environment Assessment Reliability Using Temperature —Humidity Indices
TL;DR: Results show that Humidex index very often leads to the underestimation of the workplace dangerousness and a poor reliability of comfort prediction when it is used in indoor situations.