Stirling Howieson scite author profile

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Multiple deprivation and excess winter deaths in Scotland

Howieson

Hogan²

2005

Journal of the Royal Society for the Promotion of Health

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The recent publication of the Scottish Index of Multiple Deprivation (SIMD) has allowed some tentative statistical correlations to be undertaken to assess the impact poverty may have on mortality and morbidity. During the period 1989 to 2001, Scotland registered around 51,600 excess winter deaths (EWDs). An EWD is taken as the additional deaths during December to March than occurred in the preceding and subsequent four-month periods. Almost all of these EWDs were in the population aged over 65. This represents 50 more deaths per day in January than in July. The SIMD measured five criteria by region: income; employment; health and disability; education, skills and training; and geographical access to services. Glasgow was the most deprived region with an SIMD score of 46.88 and East Dunbartonshire, the least deprived region, with a score of 9.07. For the over 65s, the chance of becoming an EWD in Glasgow is one in 36, rising to one in 68 for North Ayrshire. The SIMD is positively correlated with EWD by region (0.35 at the 5% confidence level). This correlation appears to go against the influence of climatic variations, house type, energy efficiency and access to the gas network which favours urban areas. Although some of the additional winter deaths have been ascribed to outdoor cold exposure--exacerbated by inappropriate clothing or culturally determined behaviour--the majority of EWDs are premature and essentially preventable if the elderly can be kept warm in their homes during the winter months.

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Building tight – ventilating right? How are new air tightness standards affecting indoor air quality in dwellings?

Howieson

Sharpe

Farren

2013

Building Services Engineering Research and Technology

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Abstract:Building more air-tight dwellings is having a deleterious impact on indoor air quality. In a range of recently completed dwellings CO2 concentrations were measured in occupied bedrooms at unacceptable concentrations (occupied mean peak of 2317ppm and a time weighted average of 1834ppm range 480 -4800ppm). Such high levels confirm that air tight dwellings with only trickle ventilators as the 'planned' ventilation strategy do not meet the standards demanded by the Building Regulations. Reducing ventilation rates to improve energy efficiency and lower carbon emissions, without providing a planned and effective ventilation strategy is likely to result in a more toxic and hazardous indoor environment, with concurrent and significant negative long term and insidious impacts on public health. Furthermore, the methodology underpinning the current regulations cannot be considered as creditable. Any researchers operating in this field require to recognise that dwellings have internal doors. (6) and Crump et al (7) , who called for further investigations to ascertain 'healthy' ventilation rates. This was partially addressed in a recent study (8) commissioned by the Scottish Government, "The effect that increasing air-tightness may have on air quality within dwellings". In this study air tightness and air change rates were measured in a mid-terrace dwelling (Garston, Watford) under a variety of conditions and the published report concluded that dwellings built to 5m 3 /m 2/ /hr@50Pa provide air change rates roughly in line with the CIBSE (9) recommendation of 8l/s per person. BRE test results 2.1In a mid-terrace dwelling, with an air tightness reduced to 6m 3/ /m 2 /hr@50Pa with standard trickle vents fitted on all windows, ventilation rates were measured at 0.7 to 1.3ach -1 on the upper floor (equating to 37-69 l/s), and 0.4 to 0.6 ach -1 on the ground floor (equating to 21-32 l/s). Measurements of CO 2 concentrations (released from a mechanical source) did not provide any cause for concern and settled at circa 1000ppm in the living room and 600ppm in bedrooms. 2.2 3.2The living room and double bedroom were repeatedly pressure tested with the MHVR system outlets/inlets sealed and the system disconnected from the power supply. By progressively increasing the opening area of an additional vent in the tarpaulin, the target air leakage/infiltration rate of 5m 3 /m 2 /hr@50 Pa was achieved. The rooms were then re-occupied Four data sets were collected over two 24hours occupied periods. The initial set measured CO 2 , temperature and humidity -with the MHRV system disabled -between 1800-2200hrs in the living room and 2300-0700hrs in the master bedroom The second two data sets measured the same parameters with the MHRV system re-activated. ResultsGraph 1:Living room MHRV disabled Graph 2: Bedroom MHRV disabled 4. Discussion 4.1 When the living room door is closed and the room occupied by 2 adults and 3 children, CO 2 levels climbed at a rate of 514ppm/hour, peaking at just over 2600ppm. At this time the children star...

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Occupant Interactions and Effectiveness of Natural Ventilation Strategies in Contemporary New Housing in Scotland, UK

Sharpe

Farren²,

Howieson

et al. 2015

IJERPH

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The need to reduce carbon emissions and fuel poverty has led to increased building envelope air tightness, intended to reduce uncontrolled ventilation heat losses. Ventilation strategies in dwellings still allow the use of trickle ventilators in window frames for background ventilation. The extent to which this results in “healthy” Indoor Air Quality (IAQ) in recently constructed dwellings was a concern of regulators in Scotland. This paper describes research to explore this. First a review of literature was conducted, then data on occupant interactions with ventilation provisions (windows, doors, trickle vents) gathered through an interview-based survey of 200 recently constructed dwellings, and measurements made on a sample of 40 of these. The main measured parameter discussed here is CO2 concentration. It was concluded after the literature review that 1000 ppm absolute was a reasonable threshold to use for “adequate” ventilation. The occupant survey found that there was very little occupant interaction with the trickle ventilators e.g., in bedrooms 63% were always closed, 28% always open, and in only 9% of cases occupants intervened to make occasional adjustments. In the measured dwellings average bedroom CO2 levels of 1520 ppm during occupied (night time) hours were observed. Where windows were open the average bedroom CO2 levels were 972 ppm. With windows closed, the combination of “trickle ventilators open plus doors open” gave an average of 1021 ppm. “Trickle ventilators open” gave an average of 1571 ppm. All other combinations gave averages of 1550 to 2000 ppm. Ventilation rates and air change rates were estimated from measured CO2 levels, for all dwellings calculated ventilation rate was less than 8 L/s/p, in 42% of cases calculated air change rate was less than 0.5 ach. It was concluded that trickle ventilation as installed and used is ineffective in meeting desired ventilation rates, evidenced by high CO2 levels reported across the sampled dwellings. Potential implications of the results are discussed.

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