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An experimental and theoretical study of buoyancy driven air-flow in a half-scale stairwell modelZohrabian, Alfred Sorooshkani January 1989 (has links)
The buoyancy-driven air flow and the associated energy transfer within a half-scale stairwell model have been investigated experimentally and theoretically. The experimental work comprised the larger part of the investigation. The stairwell model consisted of a lower and an upper compartment connected through the stairway. The recirculation of air was maintained by a continuous supply of heat in the lower compartment. Two different cases, referred to as closed and open non-sloping ceiling stairwells, were considered. In the former, the stairwell formed a closed system, and in the latter situation the air was allowed to enter and leave the stairwell through small openings in the lower and upper compartments, a situation which may arise in practice due to the presence of cracks. The experimental work provided detailed measurements of the velocity and temperature within the stairwell model. Hot-wire anemometers of a temperature-compensated type were used to measure the velocities, and the air temperatures were measured using platinum resistance probes. These measurements, supported by flow visualisation using smoke, provided a detailed description of the flow field. Due to the symmetry condition which existed in the stairwell, the measurements were carried out in only one-half of the stairwell. The results for both closed and open cases include the velocity and temperature profiles at the throat area (minimum area between the stairway and the lower compartment ceiling) for various distances from the side wall, mean temperatures in the upper and the lower compartments, volume and mass flows up and down the stairwell. The effect of the heat input rate on these parameters is also included. The results also include the heat losses through various surfaces bounding the system, heat and mass transfer through the stairwell joints and inlet and outlet openings, and the wall temperatures. The theoretical work was concerned with a numerical prediction of turbulent flow in two-dimensions. The k-c turbulence model, with the buoyancy terms included, was adopted. The governing equations for mass, momentum, energy and those of the turbulence model were solved using a finite-volume method. The model incorporates the SIMPLE algorithm for the derivation of pressure. The wall-function method was used for the treatment of the flow near the walls. The hybrid discretisation scheme was adopted. The predicted f low pattern was in good agreement with the pattern established by experiment. The proportion of the heat loss from the upper compartment was also in good agreement with the experiment. The maximum velocities in the throat area were underpredicted. The discrepancy between the prediction and experiment is believed to arise from shortcomings of the turbulence model, the treatment of the near-wall flow and the two-dimensionality of the numerical model.
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Seismic Design of Core-Wall Systems for Multi-Storey Timber BuildingsDunbar, Andrew James McLean January 2014 (has links)
This thesis discusses the results of experimental tests on two post-tensioned timber core-walls, tested under bi-directional quasi-static seismic loading. The half-scale two-storey test specimens included a stair with half-flight landings.
Multi-storey timber structures are becoming increasingly desirable for architects and building owners due to their aesthetic and environmental benefits. In addition, there is increasing public pressure to have low damage structural systems with minimal business interruption after a moderate to severe seismic event.
Timber has been used extensively for low-rise residential structures in the past, but has been utilised much less for multi-storey structures, traditionally limited to residential type building layouts which use light timber framing and include many walls to form a lateral load resisting system. This is undesirable for multi-storey commercial buildings which need large open spaces providing building owners with versatility in their desired floor plan. The use of Cross-Laminated Timber (CLT) panels for multi-storey timber buildings is gaining popularity throughout the world, especially for residential construction.
Previous experimental testing has been done on the in-plane behaviour of single and coupled post-tensioned timber walls at the University of Canterbury and elsewhere. However, there has been very little research done on the 3D behaviour of timber walls that are orthogonal to each other and no research to date into post-tensioned CLT walls.
The “high seismic option” consisted of full height post-tensioned CLT walls coupled with energy dissipating U-shaped Flexural Plates (UFPs) attached at the vertical joints between coupled wall panels and between wall panels and the steel corner columns. An alternative “low seismic option” consisted of post-tensioned CLT panels connected by screws, to provide a semi-rigid connection, allowing relative movement between the panels, producing some level of frictional energy dissipation.
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Uncovering Weak Ties : An interconnected neighborhood of familiarity to promote social capital and well being / Synliggöra Tunna Band : Ett sammanlänkat grannkvarter av bekantskaper för att främja socialt kapital och välmåendeBergman, Saga January 2024 (has links)
Avoiding your neighbor is common among Swedes in urban stairwells, leading to a lack of daily interactions and thereby social isolation. Feeling unseen in your own home makes 7 out of 10 people desire better relationships with their neighbors. The concept of "Weak Ties," which refers to recurring superficial relations, is essential for strengthening social capital and a sense of belonging. Prioritizing shared spaces in apartment block designs can transform avoidance into greetings, nurturing social health rather than loneliness. An existing neighborhood in Umeå is used as a case study. Current common indoor spaces are cramped, dark, and unwelcoming. Developing new thresholds, indoor intermediate spaces that are scattered across all levels, encourage movement and interaction without feeling intrusive. Key spaces includes a shared hallway, a stairwell, and a wintergarden. The shared hallway fosters interactions amongst your closest neighbors, while the redesigned stairwell integrates seamlessly from private to common, making the shift more convenient by encapsulating the people within it, customized for the cold climate of Umeå. The wintergarden, positioned above the garbage house, offers a social extension of your livingroom, for gatherings and gardening. Through this system of interventions focused on reconfiguring common spaces and encouraging interpersonal encounters, the proposal seeks to disrupt the regular spatial demarcations and enhance social connections among residents; Uncovering Weak Ties. By reimagining the role of architectural design in promoting social cohesion, the project underscores the potential for creating more vibrant and supportive urban neighborhoods in forthcoming developments. / Att undvika sina grannar är vanligt bland svenskar i stadsmiljöer, vilket leder till brist på dagliga interaktioner och därmed social isolering. Att känna sig osedd i sitt eget hem gör att 7 av 10 personer önskar bättre relationer med sina grannar. Konceptet "svaga band", som syftar på återkommande ytliga relationer, är avgörande för att stärka socialt kapital och en känsla av tillhörighet. Att prioritera gemensamma utrymmen i utformningen av lägenheter kan omvandla undvikande till hälsningar och vårda vår sociala hälsa istället för ensamhet. Ett befintligt bostadsområde i Umeå används som en fallstudie. Nuvarande gemensamma inomhusutrymmen är trånga, mörka och oinbjudande. Genom att utveckla nya trösklar, mellanrum spridda över alla nivåer, uppmuntras rörelse och interaktion utan att kännas påträngande. Nyckelutrymmen inkluderar en gemensam hall, ett trapphus och ett vinterträdgård. Den gemensamma hallen främjar interaktioner med dina närmaste grannar, medan det omdesignade trapphuset integreras sömlöst från privat till gemensamt, vilket gör övergången mer bekväm genom att omsluta människorna inom det, anpassat för Umeås kalla klimat. Vinterträdgården, placerad ovanför sophuset, erbjuder en social förlängning av ditt vardagsrum, för sammankomster och trädgårdsarbete. Genom detta system av interventioner som fokuserar på att omkonfigurera gemensamma utrymmen och uppmuntra möten, syftar förslaget till att bryta de vanliga rumsliga gränsdragningarna och stärka sociala kopplingar mellan invånarna; att synliggöra svaga band. Genom att omforma den arkitektoniska designens roll i att främja social sammanhållning, understryker projektet potentialen för att skapa mer livfulla och stödjande grannskap i stadskvarter i framtida utvecklingar.
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