Open Access. Powered by Scholars. Published by Universities.®
Physical Sciences and Mathematics Commons™
Open Access. Powered by Scholars. Published by Universities.®
- Discipline
-
- Computer Sciences (2979)
- Environmental Sciences (2249)
- Physics (1891)
- Engineering (1858)
- Chemistry (1789)
-
- Mathematics (1781)
- Life Sciences (1746)
- Social and Behavioral Sciences (1580)
- Earth Sciences (1320)
- Oceanography and Atmospheric Sciences and Meteorology (1193)
- Natural Resources and Conservation (776)
- Statistics and Probability (678)
- Medicine and Health Sciences (633)
- Computer Engineering (629)
- Education (626)
- Ecology and Evolutionary Biology (590)
- Marine Biology (580)
- Electrical and Computer Engineering (560)
- Business (513)
- Astrophysics and Astronomy (498)
- Arts and Humanities (494)
- Fresh Water Studies (494)
- Geology (489)
- Terrestrial and Aquatic Ecology (474)
- Psychology (439)
- Applied Mathematics (407)
- Databases and Information Systems (367)
- Law (352)
- Sustainability (351)
- Institution
-
- Selected Works (775)
- TÜBİTAK (751)
- University of Nebraska - Lincoln (572)
- Western Washington University (487)
- Singapore Management University (449)
-
- University of Kentucky (360)
- Utah State University (347)
- Syracuse University (305)
- Old Dominion University (267)
- City University of New York (CUNY) (255)
- Chulalongkorn University (242)
- Portland State University (229)
- University of South Florida (213)
- University of Wollongong (207)
- University of Nevada, Las Vegas (184)
- Western University (184)
- California State University, Monterey Bay (180)
- Missouri University of Science and Technology (170)
- University of Texas at El Paso (158)
- University of New Mexico (148)
- Technological University Dublin (144)
- Embry-Riddle Aeronautical University (143)
- University of South Carolina (136)
- William & Mary (135)
- University of Arkansas, Fayetteville (129)
- Ministry of Higher and Secondary Specialized Education of the Republic of Uzbekistan (127)
- Louisiana State University (126)
- Nova Southeastern University (126)
- San Jose State University (121)
- Air Force Institute of Technology (119)
- Keyword
-
- Agriculture (194)
- Natural resources (165)
- California Ranchos (161)
- Early California maps (161)
- Historical resources (161)
-
- Monterey County surveys (161)
- Climate change (106)
- Physics (105)
- Machine learning (98)
- Chemistry (91)
- Machine Learning (66)
- Mathematics (65)
- Statistics (65)
- Climate (60)
- Sustainability (59)
- Deep learning (56)
- Classification (47)
- Security (46)
- Remote sensing (45)
- GIS (42)
- Optimization (42)
- Groundwater (41)
- Water quality (41)
- Climate Solutions (40)
- Technology (39)
- Computer Science (38)
- Cybersecurity (38)
- Management (38)
- Restoration (38)
- United States (38)
- Publication
-
- Theses and Dissertations (459)
- Salish Sea Ecosystem Conference (429)
- Research Collection School Of Computing and Information Systems (414)
- Daryl Bagley (374)
- Electronic Theses and Dissertations (293)
-
- Turkish Journal of Electrical Engineering and Computer Sciences (268)
- International Building Physics Conference 2018 (255)
- Turkish Journal of Mathematics (254)
- Chulalongkorn University Theses and Dissertations (Chula ETD) (203)
- Australian Institute for Innovative Materials - Papers (197)
- Faculty Publications (185)
- Township and Range Surveys - BLM (162)
- Turkish Journal of Chemistry (133)
- USF Tampa Graduate Theses and Dissertations (133)
- Electronic Thesis and Dissertation Repository (125)
- Honors Theses (109)
- Dissertations (107)
- Physics Faculty Publications (105)
- Physics and Astronomy Faculty Publications (96)
- Publications and Research (95)
- Graduate Theses and Dissertations (89)
- Walden Dissertations and Doctoral Studies (88)
- Journal of Electrochemistry (86)
- Departmental Technical Reports (CS) (85)
- Open Educational Resources (85)
- School of Natural Resources: Faculty Publications (83)
- Articles (78)
- Applications and Applied Mathematics: An International Journal (AAM) (75)
- Faculty & Staff Scholarship (73)
- Open Access Theses & Dissertations (73)
- Publication Type
Articles 2371 - 2400 of 13646
Full-Text Articles in Physical Sciences and Mathematics
Use Of Calibrated Building Simulation To Investigate Comfort Conditions In A Healthcare Facility, Luca Zaniboni, Giovanni Pernigotto, Matthias Schuß, Kristina Kiesel, Andrea Gasparella, Ardeshir Mahdavi
Use Of Calibrated Building Simulation To Investigate Comfort Conditions In A Healthcare Facility, Luca Zaniboni, Giovanni Pernigotto, Matthias Schuß, Kristina Kiesel, Andrea Gasparella, Ardeshir Mahdavi
International Building Physics Conference 2018
Design activity regarding healthcare buildings must not only address the energy efficiency aspects but also account for the indoor thermal comfort conditions. Indeed, the occupants of this category of buildings are affected by different kinds of health issues. Thus, particular efforts are required in order to ensure conditions adequate for therapies and medical treatments. Simulation can be a helpful tool in designing new buildings, particularly in case of complex clinics and hospitals. When analyzing existing facilities, a proper calibration is a necessary step to reduce discrepancies between simulated and measured performance. This improves the reliability of the model itself and …
Neural Networks To Predict The Hygrothermal Response Of Building Components In A Probabilistic Framework, Astrid Tijskens, Staf Roels, Hans Janssen
Neural Networks To Predict The Hygrothermal Response Of Building Components In A Probabilistic Framework, Astrid Tijskens, Staf Roels, Hans Janssen
International Building Physics Conference 2018
In recent years, probabilistic assessment of hygrothermal performance of building components has received increasing attention. Given the many uncertainties involved in the hygrothermal behaviour of building components, a probabilistic assessment enables to assess the damage risk more reliably. However, this typically involves thousands of simulations, which easily becomes computationally inhibitive. To overcome this time-efficiency issue, this paper proposes the use of much faster metamodels. This paper focusses on neural networks, as they have proven to be successful in other non-linear and non-stationary research applications. Two types of networks are considered: the traditional multilayer perceptron (with and without a time window) …
Utilization Of Heat Recovery Ventilation: Steady-State Two-Zone Heat Loss Analysis And Field Studies, Arnold Janssens, Wolf Bracke, Marc Delghust, Eline Himpe, Silke Verbruggen, Jelle Laverge
Utilization Of Heat Recovery Ventilation: Steady-State Two-Zone Heat Loss Analysis And Field Studies, Arnold Janssens, Wolf Bracke, Marc Delghust, Eline Himpe, Silke Verbruggen, Jelle Laverge
International Building Physics Conference 2018
In new houses in Europe the share of mechanical ventilation with heat recovery is increasing as a result of more severe energy performance requirements and of energy labelling for residential ventilation units. The methods used to assess the influence of heat recovery ventilation on the heating energy use in energy labelling and certification are typically based on single zone energy balance equations, although heating behaviour and set-points differ in different rooms of a dwelling. As a result of this the energy savings of heat recovery ventilation as assessed with single zone methods may be larger than when the spatial variations …
Fate Of Particles Released By A Puff–Dispersion With Different Air Distributions, Shichao Liu, Atila Novoselac
Fate Of Particles Released By A Puff–Dispersion With Different Air Distributions, Shichao Liu, Atila Novoselac
International Building Physics Conference 2018
Well-mixed assumption normally has flaws in the space with continuous-releasing particle sources. For transient point or puff sources, however, particle concentration might vary differently among locations during emission periods and afterwards. This study measures whether and how rapidly ventilation systems can distribute particles emitted from puff-like sources in an indoor space. The impact of ventilation pattern (over-head mixing ventilation and displacement ventilation), particle size (0.77, 2.5 and 7 μm) and source location are also examined. The results show that particles with sizes of 0.77 μm and 2.5 μm can be distributed uniformly by both mixing ventilation and displace ventilation shortly …
Using Advanced Urban Canopy Models To Investigate The Potential Of Thermochromic Materials As Urban Heat Island Mitigation Strategies, Claudia Fabiani, Anna Laura Pisello, Elie Bou-Zeid, Jiachuan Yang
Using Advanced Urban Canopy Models To Investigate The Potential Of Thermochromic Materials As Urban Heat Island Mitigation Strategies, Claudia Fabiani, Anna Laura Pisello, Elie Bou-Zeid, Jiachuan Yang
International Building Physics Conference 2018
Recent trends in urbanization processes are causing serious threats at both local and global environmental scale. Greenhouse gas emissions, heat waves, and the heat island effect are constantly growing in intensity and produce increasing discomfort and health impacts in urban populations. In this context, the building sector is currently developing advanced and adaptive materials for building envelope and paving surface applications characterized by high energy performance and low embodied energy. Most of these innovative materials are firstly analysed at the component scale by means of laboratory investigations, while their effect on the built environment is generally assessed at a later …
The Effects Of Production Technologies On The Air Permeability Properties Of Cross Laminated Timber, Villu Kukk, Targo Kalamees, Jaan Kers
The Effects Of Production Technologies On The Air Permeability Properties Of Cross Laminated Timber, Villu Kukk, Targo Kalamees, Jaan Kers
International Building Physics Conference 2018
In building envelope, the cross laminated timber (CLT) is often used as air barrier layer. The objective of this study was to evaluate the impact of production technologies such as edge bonding, different initial moisture content (MC) of lamination, and number of lamination layers (3 and 5) on the air-permeability properties of cross laminated timber. Air leakage and crack growth in CLT panels were measured after the panels were conditioned in environments with different relative humidity (RH) in progressive steps from humid to dry environments (RH 70%→ RH 50%→ RH 30%→ RH 10%). The test results showed that the most …
Effect Of Urban Texture On Building Energy Performance, Suzi Dilara Mangan, Irem Sozen, Gul Koclar Oral, Idil Erdemir Kocagil
Effect Of Urban Texture On Building Energy Performance, Suzi Dilara Mangan, Irem Sozen, Gul Koclar Oral, Idil Erdemir Kocagil
International Building Physics Conference 2018
Today, ongoing discussions on climate change, depletion of fossil fuels and energy efficiency emphasize the need for a more sustainable built environment and thus the need to reduce energy consumption in buildings and urban textures and reduce greenhouse gas emissions. Therefore the evaluation of building energy performance with a holistic approach, taking the effect of urban textures and microclimates into consideration has become very significant in the recent years. Urban texture is a commonly accepted expression including the form and height of buildings, the width of streets, their orientation, spatial configuration and arrangement in space intersection, vegetation and so on. …
Rapid Cooling Of Urban Surfaces During Rainfall: Physical Basis, Dominant Energy Fluxes, And Sensitivity To Pavement And Rainfall Properties, Hamidreza Omidvar, Elie Bou-Zeid
Rapid Cooling Of Urban Surfaces During Rainfall: Physical Basis, Dominant Energy Fluxes, And Sensitivity To Pavement And Rainfall Properties, Hamidreza Omidvar, Elie Bou-Zeid
International Building Physics Conference 2018
Using model for the heat transfer between pavements and runoff during rainfall, we investigate the importance of different pavement and rainfall properties, as well as crucial energy budget terms that drive the cooling processes. The results indicate that the pavement and runoff temperature and energy fluxes are very sensitive to the rain temperature. In addition, pavement albedo has a significant effect on the simulated temperature since it modifies the initial pavement temperature before the rain starts. The results also indicated that among the different energy budget terms, evaporation and long wave radiation are the main cooling terms, while the shortwave …
Inter-Activehouse: Users-Driven Building Performances For Nearly Zero Energy Buildings In Mediterranean Climates, Arianna Brambilla, Federica Brunone, Alberto Sangiorgio, Marco Imperadori
Inter-Activehouse: Users-Driven Building Performances For Nearly Zero Energy Buildings In Mediterranean Climates, Arianna Brambilla, Federica Brunone, Alberto Sangiorgio, Marco Imperadori
International Building Physics Conference 2018
Building simulations rely on fixed assumptions and mathematical models to describe a specific building scenario, overlooking the building occupants’ component. Almost 40% of in-home energy use is due occupants interacts with the building systems. The goal of this paper is to understand the magnitude of the performance gap when applied to two case studies in a Mediterranean climate. A set of scenarios are simulated assuming both a typical building usage and possible variations given by the users’ interactions with shading, ventilation and cooling systems. Results show that the magnitude of the effects with a negative impact is bigger if compared …
The Influence Of Window Opening Habits On The Residential Energy Use In Nearly Zero Energy Buildings, Silke Verbruggen, Marc Delghust, Jelle Laverge, Arnold Janssens
The Influence Of Window Opening Habits On The Residential Energy Use In Nearly Zero Energy Buildings, Silke Verbruggen, Marc Delghust, Jelle Laverge, Arnold Janssens
International Building Physics Conference 2018
In this paper, we discuss the presence of habits in the window opening behaviour of social housing tenants in a nearly zero-energy development in Belgium. A window opening habit can be defined as an action with a window that is repeated daily around the same time independently of the prevailing weather conditions. A carbon neutral social housing estate (106 apartments and 90 single family dwellings) was used as a test case. Questionnaires, window opening logging with a building monitoring system and cross-sectional surveys were used to collect window opening data. A method to identify window opening habits is determined. Up …
Analysis Of Dynamic Variation Characteristics And Influential Factors Of Pm2.5 On Subway Platforms Under Air-Conditioning Condition And Ventilation Condition, Lihui Wang, Jihua Zhang, Tianwei Hu, Meng Kong, Jensen Zhang, Jie Song, Yi Zheng
Analysis Of Dynamic Variation Characteristics And Influential Factors Of Pm2.5 On Subway Platforms Under Air-Conditioning Condition And Ventilation Condition, Lihui Wang, Jihua Zhang, Tianwei Hu, Meng Kong, Jensen Zhang, Jie Song, Yi Zheng
International Building Physics Conference 2018
The purpose of this study is to investigate the main influential factors of the subway Particulate Matter (PM) pollutants under the air-conditioning condition and ventilation condition, by an on-site field measurement in a subway station in Shanghai. It is found that the dust accumulation at fresh air shaft was the secondary dusting action under the influence of fresh air flow, leading to a higher concentration of the PM in the subway station than in the outdoor air even when the outdoor air quality was good. In addition, in the morning rush hour the PM 2.5 value near the platform screen …
Assessing The Performance Of Photocatalytic Oxidation Of Volatile Organic Compounds In Three Different Scaled Set-Ups, Zahra Shayegan, Chang-Seo Lee, Ali Bahloul, Fariborz Haghighat
Assessing The Performance Of Photocatalytic Oxidation Of Volatile Organic Compounds In Three Different Scaled Set-Ups, Zahra Shayegan, Chang-Seo Lee, Ali Bahloul, Fariborz Haghighat
International Building Physics Conference 2018
Volatile organic compounds (VOCs) are considered a major group of indoor air contaminants with several proven adverse health effects. Ultraviolet photocatalytic oxidation process (UVPCO) is a promising technology for the removal of VOC contaminants in indoor air environments. In addition, adequate efficiency of PCO has been proven in laboratory conditions. However, when PCO is scaled up and applied in real conditions, there are some limitations that need to be addressed. Several factors are involved in the efficiency of the PCO process such as humidity, flow rate (residence time), inlet of contaminant concentration, light source, etc. To the best of our …
Radon Levels In Rented Accommodation, Torben Valdbjørn Rasmussen
Radon Levels In Rented Accommodation, Torben Valdbjørn Rasmussen
International Building Physics Conference 2018
Indoor radon levels were measured in 221 homes located in 53 buildings, including 28 multioccupant houses and 25 single-family terraced houses. The homes consisted of rented accommodation located in buildings recorded as being constructed before 2010 and after the year 1850. In addition, the radon level was measured in the basement in 9 of the buildings. The mean year value of the indoor radon level was 30.7 (1–250) Bq/m3. The indoor radon level exceeded 100 Bq/m3 in 5.9% of the homes, all located in single-family terraced houses. The variable single-family terraced houses explained 5.9% of the variation in indoor radon …
Comparison Of Lattice Boltzmann Method And Finite Volume Method With Large Eddy Simulation In Isothermal Room Flow, Mengtao Han, Ryozo Ooka, Hideki Kikumoto
Comparison Of Lattice Boltzmann Method And Finite Volume Method With Large Eddy Simulation In Isothermal Room Flow, Mengtao Han, Ryozo Ooka, Hideki Kikumoto
International Building Physics Conference 2018
Lattice Boltzmann method (LBM), as a new computational fluid simulation method, has aroused widespread attention in recent decades within engineering practice. LBM with large eddy simulation (LBM-LES) model is commonly used in predicting high Reynolds flow, and is considered to have a prediction accuracy similar to traditional finite volume method (FVMLES). Nonetheless, a systematic discussion on the accuracy of LBM-LES, and its consistency with FVM-LES, in indoor turbulent flow situations, is still insufficient. In this study, simulations of an indoor isothermal forced convection benchmark case (from IEA Annex 20) are implemented by using both LBM-LES and FVM-LES, with the aim …
Development Of A Supermarket Prototype Building Model, Piljae Im, Brian A. Fricke, Joshua R. New, Mark B. Adams
Development Of A Supermarket Prototype Building Model, Piljae Im, Brian A. Fricke, Joshua R. New, Mark B. Adams
International Building Physics Conference 2018
The U.S. Department of Energy supports the development of commercial building energy codes and standards by participating in industry reviews, update processes, and providing technical analyses to support both published model codes and potential changes. In support of ANSI/ASHRAE/IES Standard 90.1 and the International Energy Conservation Code, 16 commercial prototype building models were developed that cover 80% of the commercial building floor area in the United States for new construction, including both commercial buildings and mid- to high-rise residential buildings, across all U.S. climate zones. However, the current set of commercial prototype building models does not include a supermarket building …
Streamlined Cfd Simulation Framework To Generate Wind-Pressure Coefficients On Building Facades For Airflow Network Simulations, Timur Dogan, Patrick Kastner
Streamlined Cfd Simulation Framework To Generate Wind-Pressure Coefficients On Building Facades For Airflow Network Simulations, Timur Dogan, Patrick Kastner
International Building Physics Conference 2018
Energy modeling packages such as EnergyPlus and TRNSYS come with capable airflow network solvers for natural ventilation evaluation in multi-zone building energy models. These approaches rely on pressure coefficient arrays of different wind directions based on simple boxshaped buildings without contextual obstructions. For specific sites, however, further attention is needed to avoid geometric oversimplification. In this study, we present an automated and easy-to-use simulation workflow for exterior airflow simulation based on OpenFOAM to generate pressure coefficient arrays for arbitrary building shapes and contextual situations. The workflow is compared to other methods commonly used to obtain pressure coefficients for natural ventilation …
Unsteady-State Exergy Analysis On Two Types Of Building Envelopes Under Time-Varying Boundary Condition, Wonjun Choi, Ryozo Ooka, Masanori Shukuya
Unsteady-State Exergy Analysis On Two Types Of Building Envelopes Under Time-Varying Boundary Condition, Wonjun Choi, Ryozo Ooka, Masanori Shukuya
International Building Physics Conference 2018
In the built environment, the thermal exergy behavior is very sensitive to the change of environmental temperature, because the temperature difference between the reservoir and a system of interest is small. Moreover, the transient characteristics become very important for the building envelope, which is primarily affected by the environmental temperature changes and has a relatively large heat capacity. Most of the exergy analyses have been performed under steady-state assumption. However, it may miss some important details of the transient process. Thus, when the transient transfer process becomes important, the unsteady-state exergy analysis should be conducted. In this study, we propose …
Optimization Of Night Cooling Of Commercial Premises Using Genetic Algorithms And Neural Networks, Emmy Dahlström, Linus Rönn, Angela Sasic Kalagasidis
Optimization Of Night Cooling Of Commercial Premises Using Genetic Algorithms And Neural Networks, Emmy Dahlström, Linus Rönn, Angela Sasic Kalagasidis
International Building Physics Conference 2018
This paper investigates if it is possible to optimize night cooling control setpoints and ventilation schedule regarding energy consumption and indoor climate. A retail store, located in Gothenburg, was used as a case study. The investigation was done by numerical modelling and simulations. It started with development and calibration of a building energy model for the store with data collected from the field. Afterwards, the calibrated model was used in the optimization of the night cooling. Initially, a genetic algorithm was applied to find the global minimum of the problem and further refined with a local search algorithm. The optimization …
Determination Of Lead Dust Fall Rates During Deconstruction Of Wood Frame Buildings In An Urban Region In The Northeastern United States, Paul Crovella, Marc Delaney, Melisa Kohan
Determination Of Lead Dust Fall Rates During Deconstruction Of Wood Frame Buildings In An Urban Region In The Northeastern United States, Paul Crovella, Marc Delaney, Melisa Kohan
International Building Physics Conference 2018
Title: Lead dust fall deposition rates during deconstruction of wood frame buildings in an urban region in the Northeastern United States. Objectives: Determine the lead dust fall deposition rate due to hybrid deconstruction (separation and removal of building components) of wood-frame structures, and compare that to the lead dust fall deposition rate from demolition (compression and collapse of building components). Scope: A city block with a total of 11 wood-frame structures was selected as the location for the deconstruction leadfall testing. Testing was done during the deconstruction of 7 of the 11 pre-1950 homes (mean construction year 1928, mean floor …
Hygrothermal Performance Of A Hygroscopic And Permeable Wall Assembly: Impact Of A Vented Wall Cavity, Diane Bastien, Martin Winther-Gaasvig
Hygrothermal Performance Of A Hygroscopic And Permeable Wall Assembly: Impact Of A Vented Wall Cavity, Diane Bastien, Martin Winther-Gaasvig
International Building Physics Conference 2018
Building envelopes that are hygroscopic and permeable to water vapour can contribute to improve the Indoor Environmental Quality (IEQ) in buildings by reducing indoor humidity fluctuations and the concentration of some contaminants like CO2. However, risks of interstitial condensation and mold growth need to be assessed to ensure the durability of such building envelopes. The objective of this paper is to perform hygrothermal simulations of a case study house designed with a Hygroscopic and Permeable Building Envelope (HPBE) and to assess the impact of having a vented cavity compared to a face-sealed wall. This contribution presents hygrothermal simulations of a …
Improving Durability Of Wooden Beam Bearings In Inside Insulated Walls By Tempering The Beam’S Heads, Paul Wegerer, Thomas Bednar
Improving Durability Of Wooden Beam Bearings In Inside Insulated Walls By Tempering The Beam’S Heads, Paul Wegerer, Thomas Bednar
International Building Physics Conference 2018
Improving durability of wooden beam bearings after a thermal renovation via interior insulation is highly demanding for planners. Because of an isolated thermal bridge in the area of the wooden beam head the risk of condensation water forming in this area increases after installing interior insulation. The problem with wooden beam ends has been analysed increasingly in the last few years by many research institutions as wooden ceiling constructions are common in existing buildings. Furthermore, thermal renovation makes a vital contribution regarding improving the energy-efficiency of existing buildings. In this paper a method to temper wooden beam ends is introduced. …
Sorption Hysteresis In Wood And Its Coupling To Swelling: A New Modelling Approach, Jan Carmeliet, Mingyang Chen, Dominique Derome
Sorption Hysteresis In Wood And Its Coupling To Swelling: A New Modelling Approach, Jan Carmeliet, Mingyang Chen, Dominique Derome
International Building Physics Conference 2018
Sorption hysteresis of amorphous cellulose is studied. Cellulose, as a renewable organic biopolymer, is an essential component of various natural composites such as wood. A coupling process between sorption and deformation leads to the hysteresis as observed in sorption and swelling, both experimental and simulated for cellulose and wood in general.
Understanding Swelling Of Wood Through Multiscale Modeling, Dominique Derome, Chi Zhang, Mingyang Chen, Jan Carmeliet
Understanding Swelling Of Wood Through Multiscale Modeling, Dominique Derome, Chi Zhang, Mingyang Chen, Jan Carmeliet
International Building Physics Conference 2018
Wood is a well-used building material where the capacity of wood to absorb water leads to swelling and reduced mechanical properties, and also to questions of durability. The origin of the hygroscopic behavior of wood lies at the nanoscale material that composes its cell walls. Using atomistic modeling, we study the hygromechanical behavior of the different polymeric components of wood, separately and in aggregate configurations. We report the coupled effects of water sorption on the hygric and mechanical properties of the S2 cell wall layer and we upscale the findings using a poromechanical framework.
Topological Vector Spaces, Chunqing Li
Topological Vector Spaces, Chunqing Li
Major Papers
This major paper is a report on author’s study of some topics on topological vector spaces. We prove a well-known Hahn-Banach theorem and some important consequences, including several separation and extension theorems. We study the weak topology on a topological vector space X and the weak-star topology on the dual space X* of X. We also prove the Banach-Alaoglu theorem. Consequently, we characterize the closed convex hull and the closed linear span for sets in X and X* , identify the dual of a subspace of X with the quotient of its annihilator, and obtain the Goldstine theorem as well …
Greening Rooftops To Reduce Heat Islands: How Large Is Large Enough?, Jiachuan Yang, Elie Bou-Zeid
Greening Rooftops To Reduce Heat Islands: How Large Is Large Enough?, Jiachuan Yang, Elie Bou-Zeid
International Building Physics Conference 2018
Green roofs, with adequate water supply, have been proven as effective measures to reduce urban environmental temperature. The benefits of large-scale deployment of green roofs have been studied mainly through numerical simulations with unrealistic high penetration scenarios, where all rooftops across the entire metropolis is assumed to be retrofitted. In this study, the scale dependence of the cooling effect of green roofs is investigated with a coverage of 25% over buildings at local, city, or regional scales. We compared results at 6 major U.S. cities to assess the response of the scale dependence to geoclimatic conditions. High-resolution weather simulations reveal …
Thermal Performance Of A Green Roof Based On Champs Model And Experimental Data During Cold Climatic Weather, Yige Yang, Cliff I. Davidson
Thermal Performance Of A Green Roof Based On Champs Model And Experimental Data During Cold Climatic Weather, Yige Yang, Cliff I. Davidson
International Building Physics Conference 2018
Green roofs are increasingly implemented in cities around the world. They have the potential to improve thermal performance of building systems through evapotranspiration, thermal mass, insulation and shading. Several studies have analyzed the heat flow impact of green roofs in hot weather, but few studies have examined the thermal performance during cold conditions. Roof membranes are known to fail in cold climates due to stress caused by large temperature fluctuations. A green roof can reduce the daily membrane temperature fluctuations (Tmax - Tmin) by an average of 7◦C. This study presents an experimental investigation of a large extensive green roof …
The Impact Of Ventilation Strategy On Overheating Resilience And Energy Performance Of Schools Against Climate Change: The Evidence From Two Uk Secondary Schools, Esfand Burman, Dejan Mumovic
The Impact Of Ventilation Strategy On Overheating Resilience And Energy Performance Of Schools Against Climate Change: The Evidence From Two Uk Secondary Schools, Esfand Burman, Dejan Mumovic
International Building Physics Conference 2018
The indoor environmental quality and energy performance of two modern secondary schools in the UK which have fundamentally different environmental strategies were investigated during building performance evaluations. The performances of these buildings against the projected weather data for future were also analysed. The results point to significant risk of future overheating as a result of climate change in the naturally ventilated building with passive measures that go well beyond the existing guidelines for schools. The other school with mechanical ventilation shows resilience to future overheating. However, shortcomings in building procurement and operation have severely compromised its energy performance. It is …
A Novel Approach To Near-Real Time Monitoring Of Ventilation Rate And Indoor Air Quality In Residential Houses, Achalu Tirfe, Jianshun Zhang
A Novel Approach To Near-Real Time Monitoring Of Ventilation Rate And Indoor Air Quality In Residential Houses, Achalu Tirfe, Jianshun Zhang
International Building Physics Conference 2018
Physics-based infiltration models, like Lawrence Berkeley Laboratory (LBL) and Alberta Infiltration Model (AIM-2), have been used to predict infiltration rate in near-real time. These models are derived from the driving forces of wind and temperature difference across the building enclosure system, both of which cause pressure differences across the enclosure system for infiltration. The model incorporates other major factors like building leakage characteristics, distributions of openings, microenvironment conditions around the building enclosure as affected by building shields, topography and building shape. The accuracy of the models dependents on getting these factors right. However, these factors are specific for individual buildings …
Experimental Study On The Stomatal Resistance Of Green Roof Vegetation Of Semiarid Climates For Building Energy Simulations, Ursula Steinfort, Rocío Arriola-Cepeda, Sergio Vera, Francisco Albornoz
Experimental Study On The Stomatal Resistance Of Green Roof Vegetation Of Semiarid Climates For Building Energy Simulations, Ursula Steinfort, Rocío Arriola-Cepeda, Sergio Vera, Francisco Albornoz
International Building Physics Conference 2018
Current modelling approaches for energy simulations in green roofs use a range of values for parameters such as stomatal resistance (rs) of the vegetation. rs reflects the capability of a plant to transpire, thus it has a direct relation to the cooling potential of green roofs in buildings. Therefore, rs values need to be revised based on differences among species and contrasting environmental conditions, considering anatomical and physiological characteristics among species and their changes throughout the day. In order to provide real data on species commonly used for green roofs in semiarid climates, this paper aims to evaluate the stomatal …
The Use Of A Large, Extensive Green Roof For Multiple Research Objectives, Cliff I. Davidson, Carli D. Flynn, Charitha Gunawardana, Alexander J. Johnson, Mallory N. Squier, Lucie L. Worthen, Yige Yang
The Use Of A Large, Extensive Green Roof For Multiple Research Objectives, Cliff I. Davidson, Carli D. Flynn, Charitha Gunawardana, Alexander J. Johnson, Mallory N. Squier, Lucie L. Worthen, Yige Yang
International Building Physics Conference 2018
The Green Roof on the Onondaga County Convention Center in Syracuse, NY is planted with several varieties of sedum over an area of 0.56 hectares. The roof was constructed in 2011, and has been instrumented with sensors to enable research and education over an extended period. The purpose of the current work on this roof is to quantify its performance with respect to water storage and energy transfer, and to identify chemical constituents in the runoff that might be contributed by the growth medium. The scope of the project also includes a number of measurements on traditional roofs in the …