Arash Rasooli
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View article: Automated in-situ determination of buildings’ global thermo-physical characteristics and air change rates through inverse modelling of smart meter and air temperature data
Automated in-situ determination of buildings’ global thermo-physical characteristics and air change rates through inverse modelling of smart meter and air temperature data Open
The advancement of smart metering and sensor technologies has opened the door to performing extensive in-situ measurements in buildings and a tendency to carry-out detailed energy and indoor climate monitoring, leading to the availability …
View article: A+BE | Architecture and the Built Environment, No. 07 (2020): In-Situ Determination of Buildings’ Thermo-Physical Characteristics
A+BE | Architecture and the Built Environment, No. 07 (2020): In-Situ Determination of Buildings’ Thermo-Physical Characteristics Open
Accurate determination of building’s critical thermo-physical characteristics such as the walls’ thermal resistance, thermal conductivity, and volumetric heat capacity is essential to indicate effective and efficient energy conservation st…
View article: In-Situ Determination of Buildings’ Thermo- Physical Characteristics
In-Situ Determination of Buildings’ Thermo- Physical Characteristics Open
Ever since the introduction of energy conversion systems in the built environment, buildings have become responsible for a considerable share of global energy consumption. Many countries have therefore aimed to invest on buildings’ energy …
View article: In-Situ Determination of Buildings’ Thermo- Physical Characteristics
In-Situ Determination of Buildings’ Thermo- Physical Characteristics Open
Ever since the introduction of energy conversion systems in the built environment, buildings have become responsible for a considerable share of global energy consumption. Many countries have therefore aimed to invest on buildings’ energy …
View article: In-situ rapid determination of walls’ thermal conductivity, volumetric heat capacity, and thermal resistance, using response factors
In-situ rapid determination of walls’ thermal conductivity, volumetric heat capacity, and thermal resistance, using response factors Open
Accurate determination of walls' thermo-physical characteristics is a necessity for execution of energy conservation strategies in existing buildings. In practice, such data is not available because the current determination methods are ti…
View article: Quicker Measurement of Walls’ Thermal Resistance Following an Extension to ISO 9869 Average Method
Quicker Measurement of Walls’ Thermal Resistance Following an Extension to ISO 9869 Average Method Open
Determination of the thermo-physical characteristics of the buildings’ components is crucial to illustrate their thermal behavior and therefore their energy consumption. Along the same line, accurate determination of the thermal resistance…
View article: Properties of the Triangular Excitation Pulse and the 3D Heat Transfer Effects in the Excitation Pulse Method
Properties of the Triangular Excitation Pulse and the 3D Heat Transfer Effects in the Excitation Pulse Method Open
Concerning the high levels of energy consumption in the existing building stock, the necessity for characterization of the building envelop is a well-known issue. Accordingly, numerous methods and practices have been developed and studied …
View article: In-situ characterization of walls’ thermal resistance: An extension to the ISO 9869 standard method
In-situ characterization of walls’ thermal resistance: An extension to the ISO 9869 standard method Open
Accurate and reliable in-situ characterization of buildings’ thermal envelope is of high significance to determine actual energy use and thermal comfort. In this context, walls’ thermal resistance is one of the most critical properties to …
View article: A response factor-based method for the rapid in-situ determination of wall’s thermal resistance in existing buildings
A response factor-based method for the rapid in-situ determination of wall’s thermal resistance in existing buildings Open
The in-situ estimation of the thermal resistance (Rc-value) of walls in buildings is of major significance to determine their energy performance. The exact construction of walls is generally unknown, especially in older buildings, making t…
View article: Development of improved models for the accurate pre-diction of energy consumption in dwellings
Development of improved models for the accurate pre-diction of energy consumption in dwellings Open
This report presents the results of the second part of the Monicair project1, which aim was to explore in how far the better determination of a number of parameters, which up to now were measured on-ly seldom, could support the development…
View article: Introduction to an in-situ method for rapid measurement of the walls’ thermal resistance in existing buildings
Introduction to an in-situ method for rapid measurement of the walls’ thermal resistance in existing buildings Open
Large deviations observed between the actual and theoretical gas consumption in Dutch dwellings, cast a shadow of doubt on the accuracy of the energy labeling method. In this sense, the accuracy of the calculation methods as well as the in…