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The book begins with an investigation of improved diesel generator flexibility and coordination via low-load diesel applications. Case studies for Australia and Hawaii are presented to conclude that low-load diesel is a natural precursor to storage due to its accessibility and also benefits low and high-penetration isolated power systems. The book continues with Structural Equation Modelling of building occupants attitude, knowledge and behaviour to propose the inclusion of motivational factors in a Building Occupant Environmental Behaviour model for sustainable building energy performance. The following section presents an analysis of different levels of renewable energy integration and energy storage to suggest the most suitable in terms of the reduction of CO2 emissions and expected earnings from a lower LCOE. Further on, a proof-of-concept heat pipe technology for passive cooling to improve the performance of photovoltaic panels in the hot climate of Oman is presented using computational fluid dynamics (CFD). The application of an uncontrolled diode rectifier-high voltage direct current transmission system for the Jeju Island power system with an off-shore new wind farm is simulated to demonstrate cost reduction and increased reliability and stability. The book concludes with view factor computations of bifacial solar photovoltaic based on the finite element method using two programming languages to demonstrate that Python offers a better platform than Microsoft Excel-Visual Basic for Applications where computation time is a significant modelling challenge.
Research & information: general --- building energy exchange --- view factor --- Python programming language --- bifacial solar photovoltaic (PV) --- diode rectifier --- HVDC --- Jeju Island power system --- offshore wind farm --- CFD --- heat pipe --- temperature --- photovoltaic --- spanwise --- wind energy --- storage --- islanded systems --- energy consumption --- Structural Equation Modelling (SEM), occupant environmental attitude --- Knowledge and Behaviour --- battery storage --- hybrid power system --- low-load diesel --- microgrid --- remote area
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The book begins with an investigation of improved diesel generator flexibility and coordination via low-load diesel applications. Case studies for Australia and Hawaii are presented to conclude that low-load diesel is a natural precursor to storage due to its accessibility and also benefits low and high-penetration isolated power systems. The book continues with Structural Equation Modelling of building occupants attitude, knowledge and behaviour to propose the inclusion of motivational factors in a Building Occupant Environmental Behaviour model for sustainable building energy performance. The following section presents an analysis of different levels of renewable energy integration and energy storage to suggest the most suitable in terms of the reduction of CO2 emissions and expected earnings from a lower LCOE. Further on, a proof-of-concept heat pipe technology for passive cooling to improve the performance of photovoltaic panels in the hot climate of Oman is presented using computational fluid dynamics (CFD). The application of an uncontrolled diode rectifier-high voltage direct current transmission system for the Jeju Island power system with an off-shore new wind farm is simulated to demonstrate cost reduction and increased reliability and stability. The book concludes with view factor computations of bifacial solar photovoltaic based on the finite element method using two programming languages to demonstrate that Python offers a better platform than Microsoft Excel-Visual Basic for Applications where computation time is a significant modelling challenge.
building energy exchange --- view factor --- Python programming language --- bifacial solar photovoltaic (PV) --- diode rectifier --- HVDC --- Jeju Island power system --- offshore wind farm --- CFD --- heat pipe --- temperature --- photovoltaic --- spanwise --- wind energy --- storage --- islanded systems --- energy consumption --- Structural Equation Modelling (SEM), occupant environmental attitude --- Knowledge and Behaviour --- battery storage --- hybrid power system --- low-load diesel --- microgrid --- remote area
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The breakup of the Space Shuttle Columbia as it reentered Earth's atmosphere on February 1, 2003, reminded the public--and NASA--of the grave risks posed to spacecraft by everything from insulating foam to space debris. Here, Alan Tribble presents a singular, up-to-date account of a wide range of less conspicuous but no less consequential environmental effects that can damage or cause poor performance of orbiting spacecraft. Conveying a wealth of insight into the nature of the space environment and how spacecraft interact with it, he covers design modifications aimed at eliminating or reducing such environmental effects as solar absorptance increases caused by self-contamination, materials erosion by atomic oxygen, electrical discharges due to spacecraft charging, degradation of electrical circuits by radiation, and bombardment by micrometeorites. This book is unique in that it bridges the gap between studies of the space environment as performed by space physicists and spacecraft design engineering as practiced by aerospace engineers.
Space vehicles --- Space environment. --- Medi ambient espacial --- Vehicles espacials --- Compton effect. --- Debye length. --- Earth shielding. --- activation energy. --- alpha radiation. --- burnout. --- coronal mass ejection. --- displacement damage. --- electrical ground. --- galactic cosmic ray. --- gravitational focusing. --- hydrazine. --- ideal gas law. --- impact cratering. --- latchup. --- launch facility. --- magnetopause. --- magnetosphere. --- mass density. --- nuclear weapons. --- obscuration. --- outgassing. --- pair production. --- reaction efficiency (RE). --- residence time. --- scale height. --- snapover. --- thermosphere. --- view factor. --- Design and construction. --- Disseny i construcció --- Compton effect. --- Debye length. --- Earth shielding. --- activation energy. --- alpha radiation. --- burnout. --- coronal mass ejection. --- displacement damage. --- electrical ground. --- galactic cosmic ray. --- gravitational focusing. --- hydrazine. --- ideal gas law. --- impact cratering. --- latchup. --- launch facility. --- magnetopause. --- magnetosphere. --- mass density. --- nuclear weapons. --- obscuration. --- outgassing. --- pair production. --- reaction efficiency (RE). --- residence time. --- scale height. --- snapover. --- thermosphere. --- view factor.
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The book begins with an investigation of improved diesel generator flexibility and coordination via low-load diesel applications. Case studies for Australia and Hawaii are presented to conclude that low-load diesel is a natural precursor to storage due to its accessibility and also benefits low and high-penetration isolated power systems. The book continues with Structural Equation Modelling of building occupants attitude, knowledge and behaviour to propose the inclusion of motivational factors in a Building Occupant Environmental Behaviour model for sustainable building energy performance. The following section presents an analysis of different levels of renewable energy integration and energy storage to suggest the most suitable in terms of the reduction of CO2 emissions and expected earnings from a lower LCOE. Further on, a proof-of-concept heat pipe technology for passive cooling to improve the performance of photovoltaic panels in the hot climate of Oman is presented using computational fluid dynamics (CFD). The application of an uncontrolled diode rectifier-high voltage direct current transmission system for the Jeju Island power system with an off-shore new wind farm is simulated to demonstrate cost reduction and increased reliability and stability. The book concludes with view factor computations of bifacial solar photovoltaic based on the finite element method using two programming languages to demonstrate that Python offers a better platform than Microsoft Excel-Visual Basic for Applications where computation time is a significant modelling challenge.
Research & information: general --- building energy exchange --- view factor --- Python programming language --- bifacial solar photovoltaic (PV) --- diode rectifier --- HVDC --- Jeju Island power system --- offshore wind farm --- CFD --- heat pipe --- temperature --- photovoltaic --- spanwise --- wind energy --- storage --- islanded systems --- energy consumption --- Structural Equation Modelling (SEM), occupant environmental attitude --- Knowledge and Behaviour --- battery storage --- hybrid power system --- low-load diesel --- microgrid --- remote area --- building energy exchange --- view factor --- Python programming language --- bifacial solar photovoltaic (PV) --- diode rectifier --- HVDC --- Jeju Island power system --- offshore wind farm --- CFD --- heat pipe --- temperature --- photovoltaic --- spanwise --- wind energy --- storage --- islanded systems --- energy consumption --- Structural Equation Modelling (SEM), occupant environmental attitude --- Knowledge and Behaviour --- battery storage --- hybrid power system --- low-load diesel --- microgrid --- remote area
Choose an application
The breakup of the Space Shuttle Columbia as it reentered Earth's atmosphere on February 1, 2003, reminded the public--and NASA--of the grave risks posed to spacecraft by everything from insulating foam to space debris. Here, Alan Tribble presents a singular, up-to-date account of a wide range of less conspicuous but no less consequential environmental effects that can damage or cause poor performance of orbiting spacecraft. Conveying a wealth of insight into the nature of the space environment and how spacecraft interact with it, he covers design modifications aimed at eliminating or reducing such environmental effects as solar absorptance increases caused by self-contamination, materials erosion by atomic oxygen, electrical discharges due to spacecraft charging, degradation of electrical circuits by radiation, and bombardment by micrometeorites. This book is unique in that it bridges the gap between studies of the space environment as performed by space physicists and spacecraft design engineering as practiced by aerospace engineers.
Space vehicles --- Space environment. --- Environment, Space --- Extraterrestrial environment --- Space weather --- Extreme environments --- Design and construction. --- Compton effect. --- Debye length. --- Earth shielding. --- activation energy. --- alpha radiation. --- burnout. --- coronal mass ejection. --- displacement damage. --- electrical ground. --- galactic cosmic ray. --- gravitational focusing. --- hydrazine. --- ideal gas law. --- impact cratering. --- latchup. --- launch facility. --- magnetopause. --- magnetosphere. --- mass density. --- nuclear weapons. --- obscuration. --- outgassing. --- pair production. --- reaction efficiency (RE). --- residence time. --- scale height. --- snapover. --- thermosphere. --- view factor.
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The combination of global warming and urban sprawl is the origin of the most hazardous climate change effect detected at urban level: Urban Heat Island, representing the urban overheating respect to the countryside surrounding the city. This book includes 18 papers representing the state of the art of detection, assessment mitigation and adaption to urban overheating. Advanced methods, strategies and technologies are here analyzed including relevant issues as: the role of urban materials and fabrics on urban climate and their potential mitigation, the impact of greenery and vegetation to reduce urban temperatures and improve the thermal comfort, the role the urban geometry in the air temperature rise, the use of satellite and ground data to assess and quantify the urban overheating and develop mitigation solutions, calculation methods and application to predict and assess mitigation scenarios. The outcomes of the book are thus relevant for a wide multidisciplinary audience, including: environmental scientists and engineers, architect and urban planners, policy makers and students.
emissivity --- mobile temperature observations --- urban heat island --- urban vegetation --- urban overheating --- spectral analysis --- Beirut --- urban heat island index --- land surface temperature --- ENVI-met --- air quality --- albedo --- climatic perception --- overheating --- urbanization --- road surface --- “cold spots” --- Weather Research and Forecasting model (WRF) --- urban remote sensing --- local climate zone --- cooling technologies --- Weather Research and Forecasting model --- cool surfaces --- outdoor thermal comfort --- energy savings --- air temperature --- measurement --- urbanized WRF --- mitigation measures --- Euramet --- heat health --- surface cool island effect --- urban-climate archipelago --- sky view factor --- urban climate archipelago --- open science --- cool roofs --- urban energy balance --- road lighting --- urban climatology --- material characterization --- urban climate --- thermal comfort --- air and surface temperature measurements --- cool pavements --- multi-objective optimization --- empirical line method --- calculation --- urban cooling --- multifractal analysis --- urban heat mitigation --- genetic algorithm --- heat stress --- “hot spots” --- subtropical climate --- EMPIR 16NRM02 --- building energy performance --- multiple linear regression --- built-up area --- thermal emittance --- urban morphology --- cost-optimal analysis --- building retrofit --- sustainability --- mitigation strategies --- luminance coefficient --- office buildings --- GIS --- structure functions analysis --- solar reflectance --- park cool island --- solar reflectance index --- urban open space --- building scale --- meteorological modeling --- shading --- surface albedo --- summer heat stress --- cool materials --- land cover fraction --- micro-climate simulations --- energy simulation --- urban microclimate --- urban development --- Physiologically Equivalent Temperature --- cool facades --- green area --- ageing --- MODIS downscaling --- spectral reflectance --- fine-resolution meteorological modeling --- urban areas --- morphological indicator --- lifecycle analysis --- non-constructible parcels --- WRF-Chem --- emissivity --- mobile temperature observations --- urban heat island --- urban vegetation --- urban overheating --- spectral analysis --- Beirut --- urban heat island index --- land surface temperature --- ENVI-met --- air quality --- albedo --- climatic perception --- overheating --- urbanization --- road surface --- “cold spots” --- Weather Research and Forecasting model (WRF) --- urban remote sensing --- local climate zone --- cooling technologies --- Weather Research and Forecasting model --- cool surfaces --- outdoor thermal comfort --- energy savings --- air temperature --- measurement --- urbanized WRF --- mitigation measures --- Euramet --- heat health --- surface cool island effect --- urban-climate archipelago --- sky view factor --- urban climate archipelago --- open science --- cool roofs --- urban energy balance --- road lighting --- urban climatology --- material characterization --- urban climate --- thermal comfort --- air and surface temperature measurements --- cool pavements --- multi-objective optimization --- empirical line method --- calculation --- urban cooling --- multifractal analysis --- urban heat mitigation --- genetic algorithm --- heat stress --- “hot spots” --- subtropical climate --- EMPIR 16NRM02 --- building energy performance --- multiple linear regression --- built-up area --- thermal emittance --- urban morphology --- cost-optimal analysis --- building retrofit --- sustainability --- mitigation strategies --- luminance coefficient --- office buildings --- GIS --- structure functions analysis --- solar reflectance --- park cool island --- solar reflectance index --- urban open space --- building scale --- meteorological modeling --- shading --- surface albedo --- summer heat stress --- cool materials --- land cover fraction --- micro-climate simulations --- energy simulation --- urban microclimate --- urban development --- Physiologically Equivalent Temperature --- cool facades --- green area --- ageing --- MODIS downscaling --- spectral reflectance --- fine-resolution meteorological modeling --- urban areas --- morphological indicator --- lifecycle analysis --- non-constructible parcels --- WRF-Chem
Choose an application
The combination of global warming and urban sprawl is the origin of the most hazardous climate change effect detected at urban level: Urban Heat Island, representing the urban overheating respect to the countryside surrounding the city. This book includes 18 papers representing the state of the art of detection, assessment mitigation and adaption to urban overheating. Advanced methods, strategies and technologies are here analyzed including relevant issues as: the role of urban materials and fabrics on urban climate and their potential mitigation, the impact of greenery and vegetation to reduce urban temperatures and improve the thermal comfort, the role the urban geometry in the air temperature rise, the use of satellite and ground data to assess and quantify the urban overheating and develop mitigation solutions, calculation methods and application to predict and assess mitigation scenarios. The outcomes of the book are thus relevant for a wide multidisciplinary audience, including: environmental scientists and engineers, architect and urban planners, policy makers and students.
emissivity --- mobile temperature observations --- urban heat island --- urban vegetation --- urban overheating --- spectral analysis --- Beirut --- urban heat island index --- land surface temperature --- ENVI-met --- air quality --- albedo --- climatic perception --- overheating --- urbanization --- road surface --- “cold spots” --- Weather Research and Forecasting model (WRF) --- urban remote sensing --- local climate zone --- cooling technologies --- Weather Research and Forecasting model --- cool surfaces --- outdoor thermal comfort --- energy savings --- air temperature --- measurement --- urbanized WRF --- mitigation measures --- Euramet --- heat health --- surface cool island effect --- urban-climate archipelago --- sky view factor --- urban climate archipelago --- open science --- cool roofs --- urban energy balance --- road lighting --- urban climatology --- material characterization --- urban climate --- thermal comfort --- air and surface temperature measurements --- cool pavements --- multi-objective optimization --- empirical line method --- calculation --- urban cooling --- multifractal analysis --- urban heat mitigation --- genetic algorithm --- heat stress --- “hot spots” --- subtropical climate --- EMPIR 16NRM02 --- building energy performance --- multiple linear regression --- built-up area --- thermal emittance --- urban morphology --- cost-optimal analysis --- building retrofit --- sustainability --- mitigation strategies --- luminance coefficient --- office buildings --- GIS --- structure functions analysis --- solar reflectance --- park cool island --- solar reflectance index --- urban open space --- building scale --- meteorological modeling --- shading --- surface albedo --- summer heat stress --- cool materials --- land cover fraction --- micro-climate simulations --- energy simulation --- urban microclimate --- urban development --- Physiologically Equivalent Temperature --- cool facades --- green area --- ageing --- MODIS downscaling --- spectral reflectance --- fine-resolution meteorological modeling --- urban areas --- morphological indicator --- lifecycle analysis --- non-constructible parcels --- WRF-Chem
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