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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Sortimentssichtung Beet- und Balkonpflanzen

Kollatz, Beate 29 January 2014 (has links) (PDF)
Der Bericht fasst die Ergebnisse der Beet- und Balkonpflanzensichtungen des LfULG im Zeitraum 2010 bis 2012 zusammen. Für ausgewählte Sorten von Pelargonien, Argyranthemum, Scaevola, Calibrachoa, Verbena und Begonia liegen nun Daten zur Anzucht sowie zu Blühstärke und Wuchsverhalten über die Sommermonate unter sächsischen Bedingungen vor. Weiterhin wurden umfangreiche neue Sortimente von Ipomoea batatas, Portulaca grandiflora und Nemesia Cultivars im Freiland gesichtet. Sortimentszusammenstellungen gelb blühender Bodendecker, kompakt wachsender Mandevilla-Sorten sowie »Kombi-Jungpflanzen« und Mischbepflanzungen wurden im Beet bzw. im Kasten bewertet.
12

Sortimentssichtung Beet- und Balkonpflanzen

Kollatz, Beate 29 January 2014 (has links)
Der Bericht fasst die Ergebnisse der Beet- und Balkonpflanzensichtungen des LfULG im Zeitraum 2010 bis 2012 zusammen. Für ausgewählte Sorten von Pelargonien, Argyranthemum, Scaevola, Calibrachoa, Verbena und Begonia liegen nun Daten zur Anzucht sowie zu Blühstärke und Wuchsverhalten über die Sommermonate unter sächsischen Bedingungen vor. Weiterhin wurden umfangreiche neue Sortimente von Ipomoea batatas, Portulaca grandiflora und Nemesia Cultivars im Freiland gesichtet. Sortimentszusammenstellungen gelb blühender Bodendecker, kompakt wachsender Mandevilla-Sorten sowie »Kombi-Jungpflanzen« und Mischbepflanzungen wurden im Beet bzw. im Kasten bewertet.
13

Undersökning av köldbryggor i balkonginfästningar / Study of thermal bridges concerning balcony connectors

Huynh, Hien, Chung, Nick Sun January 2022 (has links)
Köldbryggor innebär att en del av klimatskalet har en högre värmegenomgång än övriga delar av skalet, vilket är ett problem som ingenjörerna stöter på i varje projekt. Värmeläckage kan minimeras med hjälp av ett isolerande skikt mellan betongplattan och bjälklaget. Idag beräknas inte köldbryggan som orsakas av balkonganslutningen, utan ingår i ett påslag på 30% av den totala transmissionsförlust av byggnaden. Detta leder oss till arbetets syfte som är att undersöka varför det inte är en norm att beräkna köldbryggorna som förekommer vid balkonganslutningar.  En empirisk undersökning genomfördes med byggföretagen i Sverige, främst Skåne. Intervjun riktades till konstruktörer, energispecialister, platschefer och arbetsledare, totalt deltagande av intervjuer blev 9 varav ett företag svarade genom enkät. Utifrån intervjuerna framgick det att de två mest använda balkong typerna är den traditionella metoden där balkongen fäst genom betongklackar och balkonger som fäst genom köldbryggebrytande isolering modul.  Med hjälp av olika datorprogram kommer ovannämnda balkongtyper användas som referensobjekt där köldbryggor beräknas för att undersöka vilka faktorer och svårigheter som finns vid sådana beräkningar. Balkonger med betongklackar beräknades att ha ett värde mellan 0.4 W/mK till 1.0 W/mK medan balkonger med isoleringsmoduler beräknades till 0.023 W/mK - 0.067 W/mK, detta betyder att den traditionella klack-metoden inte håller värme lika bra som balkonger som är fästa med hjälp av isoleringsmoduler. Under beräkningar visade sig att det finns många faktorer som påverkar köldbryggor med avseende på balkonganslutningen. Exempelvis väggens innehåll, antal fönster, placering av fönster och balkongdörrar, balkongens utformning och i vissa fall är armeringensmängden okänd under planeringsfasen. Alla dessa faktorer varierar från projekt till projekt och gör det väldigt komplicerat att skapa en standardlösning som passar till varje enstaka fall. Utöver dessa faktorer så har det varit bristfälliga anvisningar på hur köldbryggor ska beräknas, detta påvisades genom att många företag som intervjuades utförde sina beräkningar på olika sätt.  Slutsatsen är att på grund av alla faktorer och svårigheter samt lågt krav på redovisning av köldbryggor i byggnader, så finns det ingen riktig anledning till att utföra så tidskrävande beräkningar under förutsättning att projektet inte syftar till forskning. Däremot tror vi att detta kommer att förändras med tiden eftersom miljön blir allt viktigare med tiden, troligtvis kommer detta leda till striktare krav gällande redovisning av köldbryggor. / Thermal bridging is the movement of heat across an object that is more conductive than other surrounding materials, which is a common problem that engineers encounter in every project. The heat leakage can be reduced by using insulation between the concrete slab and the joist. Today, the thermal bridging caused by the balcony connectors is not calculated but is included in a 30% lump sum of the total transmission losses of the building. This leads us to the purpose of the work, which is to investigate why it is not a norm to calculate the thermal bridges that occur at balcony connectors. To investigate this, an empirical survey was carried out with construction companies in Sweden, mainly Skåne. The interview was directed to engineers, energy specialists, site managers and supervisors. In total there were nine participants in the interviews and one that responded to the survey. Based on the interviews, it emerged that the two most used balcony types are the traditional method where the balcony is attached through concrete slab and joist and balconies which are attached through an insulated balcony connector. With the help of various software, thermal bridge calculations are performed to investigate factors and difficulties with the balcony connectors. Balconies with concrete slabs were calculated to have a value between 0.4 W/mK to 1.0 W/mK while balconies with insulation modules were calculated to be 0.023 W/mK to 0.067 W/mK, this means that the traditional slab method does not retain heat as well as balconies connectors with insulation modules.  The conclusion is that there is little to no reason to calculate such time-demanding calculations due to all the factors and complications. Though we believe that this will change in the future with time as the environment becomes increasingly important over time, this will probably lead to stricter requirements regarding the report of thermal bridges from Boverket.
14

A CFD Investigation of Balcony Spill Plumes

McCartney, Cameron John January 2006 (has links)
A series of numerical modeling studies were conducted to characterize the mass flow rates in balcony spill plumes (BSP), a type of buoyant fire plume occurring in atria. The variation of BSP mass flow rate as a function of elevation, fire size and fire compartment geometry was examined both numerically and experimentally. A new method for estimation of BSP mass flow rates, appropriate for design of smoke management systems in high-elevation atria, was developed based on simulations of BSP mass flow rate. An experimental program conducted in a 12 m high atrium measured BSP mass flow rates as well as temperatures in the fire compartment and atrium. This data was used to evaluate CFD models of the fire compartment and atrium in the experimental facility. These were implemented using the Fire Dynamics Simulator (FDS) software. The models were extended to investigate BSP behaviour at elevations up to 50 m. The removal of atrium walls in the model to allow free development of the BSP is a unique approach among published numerical modeling studies of BSP behaviour. The high-elevation CFD model was used to perform a parametric study of BSP mass flow rate as a function of elevation, fire size and fire compartment geometry. Predictions of BSP mass flow rate from this study extend to 50 m above the atrium floor, extending the range of elevations represented in the published experimental data (<= 9 m). Data from the parametric study was used to develop a new method for estimation of BSP mass flow rates at high elevations. BSP mass flow rates estimated using the new method are shown to be bounded by values estimated using existing methods based on low-elevation experimental data.
15

A CFD Investigation of Balcony Spill Plumes

McCartney, Cameron John January 2006 (has links)
A series of numerical modeling studies were conducted to characterize the mass flow rates in balcony spill plumes (BSP), a type of buoyant fire plume occurring in atria. The variation of BSP mass flow rate as a function of elevation, fire size and fire compartment geometry was examined both numerically and experimentally. A new method for estimation of BSP mass flow rates, appropriate for design of smoke management systems in high-elevation atria, was developed based on simulations of BSP mass flow rate. An experimental program conducted in a 12 m high atrium measured BSP mass flow rates as well as temperatures in the fire compartment and atrium. This data was used to evaluate CFD models of the fire compartment and atrium in the experimental facility. These were implemented using the Fire Dynamics Simulator (FDS) software. The models were extended to investigate BSP behaviour at elevations up to 50 m. The removal of atrium walls in the model to allow free development of the BSP is a unique approach among published numerical modeling studies of BSP behaviour. The high-elevation CFD model was used to perform a parametric study of BSP mass flow rate as a function of elevation, fire size and fire compartment geometry. Predictions of BSP mass flow rate from this study extend to 50 m above the atrium floor, extending the range of elevations represented in the published experimental data (<= 9 m). Data from the parametric study was used to develop a new method for estimation of BSP mass flow rates at high elevations. BSP mass flow rates estimated using the new method are shown to be bounded by values estimated using existing methods based on low-elevation experimental data.
16

The farmerland.

January 2010 (has links)
Tao Yuen Ting, Josephine. / "Architecture Department, Chinese University of Hong Kong, Master of Architecture Programme 2009-2010, design report." / "May 2010." / Includes bibliographical references (p. [86-87]). / Abstracts in English and Chinese. / Chapter 1.0 --- synopsis : site background . the urbanization procedure? . compelling factors for an alternate urbanization . farming an opportunity . hypothesis --- p.6 / Chapter 2.0 --- research : farming in social potential . farming in energy potential . farming in water potential . farming practice . cases study . density study --- p.22 / Chapter 3.0 --- site design : site criteria . retaining the local farming entities . layout strategy . optimizing building with farming --- p.46 / Chapter 4.0 --- building design : massing component . compositiong strategy --- p.62 / Chapter 5.0 --- bibliography : --- p.86
17

Temperature analysis of fire exposed load-bearing structures of mono glazed balconies

Lilja, Andreas January 2020 (has links)
Previous to the now acting construction regulations EKS and Eurocode, the fire resistance of the load-bearing structures of mono glazed balconies were designed with a fire test called the SP fire 105. In 2011, when EKS replaced the previous construction regulations called Boverkets konstruktionsregler, BKR, the SP fire 105 was no longer the requirement for mono glazed balconies. Instead, EKS prescribed that the load-bearing structures of mono glazed balconies should be determined by the use of nominal fire exposure or a natural fire model. EKS and Eurocode have previously prescribed that the standard temperature-time curve (ISO 834) was to be used when determining the fire resistance of structural elements according to nominal temperature-time curves. But an agreement made between Balkongföreningen and Boverket in 2011, established that the external temperature-time curve could be used for determination of the fire resistance of the structural elements of mono glazed balconies. The external temperature-time curve means a design temperature of the structural members of approximately 680 °C for a fire-resistance class R30, instead of a temperature of 842 °C for the standard temperature-time curve. In 2019, EKS 11 was introduced with a slight change in the regulation. The new regulation specifically implies that building parts placed within glazed balconies should not be considered as external. Due to the formulation in EKS 11, it is no longer possible to use the external temperature-time curve for verification of the fire resistance of structural elements of mono glazed balconies. The formulation says that building parts placed within glazed balconies should not be considered as external, which means that the standard temperature-time curve must be applied. The present research tries to clarify the more reasonable temperature-time curve of the standard fire curve and the external fire curve, or if neither of the curves is realistic. 16 scenarios were analysed in this study. Using CFD simulations in FDS, the adiabatic surface temperature of the structural parts could be established. The adiabatic surface temperatures were then used as input in the FEM calculation program TASEF to calculate the temperatures of structural elements of a mono glazed balcony during a fire. The results imply that the max temperatures of the steel members of the mono glazed balcony analysed are generally lower than the temperatures of the external temperature-time curve. In a worst-case scenario where the structural member is located just adjacent to the fire source, the max temperature can be higher than the temperature of the standard temperature-time curve. The balcony slab reaches max temperatures between the external temperature-time curve and the standard temperature-time curve. The temperature within the slab is below 500 °C at a depth of 15 mm and according to the 500 °C isotherm method presented in SS-EN 1992-1-2, concrete that has a temperature lower than 500 °C has not been damaged by the fire. Further studies are needed to establish whether the external temperature-time curve or the standard temperature-time curve is to be used when designing the fire resistance of the load-bearing structure of mono glazed balconies. A suggestion for further studies is to conduct fire tests of a fire within a mono glazed balcony. Such results could then be compared to the results of this study and hopefully, lead to conclusions that are needed for a complete establishment of which temperature-time curve that should be used. / Under det tidigare gällande regelverket boverkets konstruktionsregler, BKR, dimensionerades brandmotståndet för den bärande konstruktionen av enkelinglasade balkonger med testmetoden SP fire 105. När BKR ersattes av boverkets föreskrifter och allmänna råd om tillämpning av europeiska konstruktionsstandarder, EKS, tillsammans med Eurokoderna, slutade man att använda SP fire 105 och började istället använda nominella temperatur-/tidförlopp. I tidigare versioner av EKS föreskrevs det att dimensionering enligt klassificering ska utföras med en brandexponering enligt standardtemperatur/-tidkurvan (ISO 834). Men i och med upphörandet av BKR år 2011, genomfördes en överenskommelse mellan Balkongförening och Boverket där man bestämde att den bärande konstruktionen för enkelinglasade balkonger och öppna balkonger skulle få dimensioneras med exponeringskurvan för utvändig brand istället för standardtemperatur-/tidkurvan. Dimensionering enligt exponeringskurvan för utvändig brand resulterar i en dimensionerande temperatur på 680 °C för brandteknisk klass R30, istället för en temperatur på 842 °C vid dimensionering med standardtemperatur-/tidkurvan. Vid införandet av EKS 11 år 2019 skedde en förändring i föreskrifterna gällande branddimensionering av bärande konstruktioner. I EKS 11 framgår det explicit att byggnadsdelar vilka är placerade inom inglasade balkonger inte bör betraktas som utvändiga byggnadsdelar. Detta medför att den bärande konstruktionen för enkelinglasade balkonger inte längre kan dimensioneras enligt exponeringskurvan för utvändig brand, utan måste dimensioneras enligt standardtemperatur-/tidkurvan. Denna studie syftar till att klargöra vilken temperatur som är rimlig att använda vid dimensionering av den bärande konstruktionen för enkelinglasade balkonger. Är den tidigare exponeringskurvan för utvändig brand mer rimlig, eller är föreskriften om att använda standardtemperatur-/tidkurvan motiverad? I studien har 16 scenarion analyserats med hjälp av CFD beräkningar i simuleringsprogrammet FDS, och med hjälp av FEM beräkningar i simuleringsprogrammet TASEF. Med FDS beräknades den adiabatiska yttemperaturen för den bärande konstruktionen, vilken sedan användes som indata i TASEF för att beräkna temperaturen i den bärande konstruktionen. Maxtemperaturen på konstruktionselementen som utgörs av stål uppnår generellt temperaturer som understiger temperaturen för exponeringskurvan vid utvändig brand. I ett ”worst-case” scenario där brandkällan står i direkt anslutning till en stålkonstruktion, kan temperaturer uppnås vilka överstiger temperaturen i standardtemperatur-/tidkurvan. Maxtemperaturen på balkongplattan är högre än temperaturen i exponeringskurvan vid utvändig brand, men lägre än temperaturen i standardtemperatur-/tidkurvan. 15 mm in i balkongplattan understiger temperaturen på betongen 500 °C. Enligt 500 °C isotermmetoden som är publicerad i SS-EN 1992-1-2 innebär detta förenklat att all betong på ett djup överstigande 15 mm har kvar sin fulla bärförmåga. En slutsats är att det krävs vidare studier för att kunna fastställa vilket nominellt temperatur-/tidförlopp som borde användas vid dimensionering av den bärande konstruktionen för enkelinglasade balkonger. Ett förslag på vidare studier är att utföra brandtester på en enkelinglasad balkong, varav resultaten sedan kan jämföras med resultaten i denna studie. Sådana resultat skulle förhoppningsvis möjliggöra ett fastställande av vilket nominellt temperatur-/tidförlopp som bör användas vid dimensionering av den bärande konstruktionen för enkelinglasade balkonger.
18

Hotel / Hotel

Ćmielová, Petra January 2020 (has links)
Diploma thesis deals with the design documentation of hotel building in the village of Dolní Lomná. The aim of the work was to create a unit that will be used for accommodation and catering of the guests and will not disturb the surroundings. The building was designed as a three-storey building. The hotel is devided to an operational part for staff, catering and accommodation for guests. The capacity of the beds is 32. The hotel is designed as a brick construction system. Roofing is as a saddle roof made of wooden truss above the 3rd floor. The thesis is divided into two parts. The first part contains the textual evaluation of the construction of the hotel, the second part consists of the project documentation itself. The project documentation includes architectural and layout design, drawing up of building drawings, design of a fire safety solution of the building, basic thermal technical assessment.
19

Wellness centrum v Ostravě / Wellness centre in Ostrava

Hruboň, Ondřej January 2013 (has links)
The Master’s Thesis deals with the design of a wellness centre and guesthouse in Ostrava. The building is in the shape of letter V with a cut corner. The wellness part consists of one and two above-ground floors and the guesthouse consists of three. The guesthouse has eleven accommodation units. Five of the units are equipped with balconies of reinforced concrete. All roof planes have a 15° slope, are non-walkable and covered by a shed roof. The supporting structure is longitudinal with cross reinforcing walls. The whole structure is made of ceramic bricks. The building does not have any basement and stands on base belts.
20

Víceúčelový dům v Šumperku / The Multipurpose Building in Šumperk

Matýs, Zdeněk January 2013 (has links)
The project deals with the construction of a multipurpose building in Šumperk with three floors and a basement. It has 4 apartments and 2 on the ground floor premises. The building is located on the outskirts of Šumperk on flat terrain. The house is designed in a walled structural system Heluz with ceramic caps. The building is covered with a gable roof. Part of the project documentation is part of the drawing and text.

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