One of a series of investigations of the improper functioning of ventilation and smoke stacks. The problem is essentially one of town planning in which the layout of low and high rise buildings can cause unknown influences at the outlet of vertical stacks on low rise buildings. The study concerns thepressure distribution on and above the roof of a low rise building upwind or downwind of a high rise building as a function of the separation between them for various heights of the high rise buildings.
Presents data on the air infiltration and ventilation rates in 2 large commercial buildings. One building is a 4 storey, 10000m2 office building near Glasgow, Scotland; the other is a 26 storey, 100,000m2 skyscraper in Newark NJ. Collects the data on air infiltration and ventilation rates by a micro-computer based automated air infiltration system which controls the injection of a tracer gas into the various zones of the building and monitors its decay.
Decribes how the 19 floor 76m high Arts Tower at Sheffield University is having its energy use characteristics investigated. Illustrates a typical floor plan. Describes and illustrates a component pressure testing rig todetermine the infiltration coefficients of the vertically sliding windows. Treats the criteria determining the rig design and the air flow measurement procedure. Treats tests on windows where the sealant did and did not appear defective, the overall values of window coefficients, testing of a weatherstripped window, the payback period for weatherstripping the windows.
Performs tracer gas measurements and fan pressurization experiments on an 8-storied student residential building in order to determine the influence of wind as well as of stack effect upon air infiltration. Compares pressure and tracer gas distributions with those from a predictive infiltration computer model for high rise buildings.
Describes a study to map the ground wind conditions in the housing area Kroksback in Malmo, and to study the effect of various proposed measures to improve the wind environment. Studies local ground wind conditions by field measurements using the Swedish Institute for Building Research (SIB) mobile measuring unit and by comparative model tests in the SIB wind tunnel laboratory. Estimates wind speed and direction by means of a simple indicator device.
Makes an experimental investigation of the distribution of pressure differences across the walls of a 20-storey student residence building at the University of Ottawa. Measures the wind velocity at the test building as well as the temperature distributions both inside and outside the building.
Sets out the design and construction of pressure test rigs for use in studying leakage rates of windows and doorways in the Arts building of Sheffield University. Tests 7 doors (including fire doors) and selected windows, categorized according to deterioration of sealants. Finds that window leakage is far in excess of the suggested leakage from the CIBS guide (results of infiltration coefficients range from 0.911-6.097). Shows that 56% of the airflow across a doorway is due to the gap between the door bottom and the floor, and that weatherstripping the door reduces the flow by approx. 50%.
Compares measurements of surface pressure and response on the CAARC standard tall building model, made at 6 establishments. In general, the degree of accuracy is good and mostly within the scatter of reasonable experimental accuracy. Observes small trends in respect of pressure measurements which could be attributed to differences in the approaching longitudinal velocity spectrum and to the requirement for blockage corrections. Finds no obvious trends in the dynamic response measurements, where the majority of the data compares within +-15%.
Describes full-scale measurements of wind pressures carried out on a high-rise building situated in an urban area and having an almost rectangular plan. Summarizes the results of measurements of the wind pressures acting on the windward and leeward faces of the building in a nearly face-on wind. Presents pressure coefficients, probability distributions, peak factors, power spectra and coherences.
Illustrates the building, comprising 24 flats in four storeys constructed in 1957 and heated by an oil fired boiler. Notes the intensive monitoring of the thermal characteristics of the building since 1980, with readings from 600 sensors.