Your search keyword '"INDOOR air quality"' showing total 4,502 results

1. Indoor radon and energy efficiency: A "short blanket" problem that demands for balanced ventilation.

Author

Curado, António and Nunes, Leonel J. R.

Subjects

*INDOOR air quality, *ENERGY consumption, *NATURAL ventilation, *ARCHITECTURAL style, *VENTILATION, *AIR flow, *HISTORIC buildings, *FUSION reactor blankets

Abstract

A historic school building was recently retrofitted. Due to its high architectural quality, the building is listed as National Architectural Patrimony, and therefore the rehabilitation process has met very challenging requirements regarding its conservation to maintain the original layout. In view of its age, the building is done with thick stone walls which help energy conservation and enhance thermal inertia. Its primitive architecture enables natural lighting, increases solar radiation gains, and favors natural ventilation, assuring, consequently, an improved energy efficiency. The implemented rehabilitation actions tried to preserve the original architecture and the building restorations were designed to conserve as much as possible the ancient distinctive architectural style. Given the imposed constraints, matters like Indoor Air Quality (IAQ) and thermal comfort in rooms and offices for administration and staff were not met. The current situation has resulted in justifiable complaints from the building users, reporting poor rooms IAQ due to a lack of air renovation. Because of the impossibility to install mechanical ventilation ducts, the building rooms are operated through natural ventilation, which makes the adoption of constant air flow regimes difficult to implement. To evaluate the problem and promote measures to deal with it, an experimental campaign to assess IAQ and building thermal comfort was implemented during the Winter of 2022. In the framework of the campaign, two identical rooms with similar occupancy, size, volume, building typology, heating regime, and with the same equipment installed, were measured in situ for 3 months, by monitoring continuously the following variables: indoor radon concentration, air temperature and relative humidity, under distinct regimes of ventilation. By using statistical analysis of the experimental data, the results show, as expected, that the room with a permanent air renovation has an improved IAQ than the other monitored room, operated with a restricted ventilation schedule, without jeopardizing the energy efficiency. Based on the results, natural ventilation in a steady state mode is the key to balancing IAQ and energy efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

2. Cross ventilation; A traditional solution for better indoor air quality (IAQ). Case study: Masjid Kampung Laut, Kelantan, Malaysia.

Author

Amin, N. I. M., Nasir, M. R. M., Ibrahim, I. L. H., and Khairuddin, M. R.

Subjects

*INDOOR air quality, *VENTILATION, *INDUSTRIALIZED building, *CONSTRUCTION industry

Abstract

Traditional building are built to suit the climate, the users and their surroundings. One of the famous traditional building in Malaysia is Masjid Kampung Laut, a public mosque that located in Nilam Puri, Kelantan, Malaysia. This building is an iconic building as still standing and fully utilised while its age is 400 years old. This study aims to investigate the factor of good indoor air quality (IAQ) in Masjid Kampung Laut, and to prove the hypothesis that it was because of the cross ventilation system within the building. The methodology used in the investigation is mix method, involving several ways including measurement on site, interview, direct observation, participant observation, and physical artifact. The intention of this study hereby to make an awareness among the core players in building industry such as architects, designers, developers, engineers and the authorities to preserve our traditional buildings, at the same time take traditional design as the model to make a better design that suit our culture and climate. As conclusion, we conclude that traditional buildings was built excellently understand the climate, promotes cross ventilation to ensure the Indoor Air Quality (IAQ) in optimum condition. [ABSTRACT FROM AUTHOR]

Published

2024

3. The association between indoor air quality and respiratory health symptoms among preschool children in Penang, Malaysia.

Author

Azam, Nur Syazura Akmal, Jalaludin, Juliana, and Suhaimi, Nur Faseeha

Abstract

A cross-sectional study was conducted among 126 preschool children aged 4–6 years in traffic, industrial, and suburban areas of Penang, Malaysia, to determine their exposure to indoor air pollutants and their associations with respiratory symptoms. A standardised and validated questionnaire was used to collect data on respiratory health symptoms among respondents. An indoor air quality assessment was conducted in selected preschools that included temperature, relative humidity, air velocity, volatile organic compounds (VOCs), and particulate matter (PM2.5, and PM10). There were significant differences in median concentrations of PM2.5, PM10 and relative humidity among study groups. Statistical analysis showed significant associations between air pollutants in preschool with respiratory symptoms. Factors that influenced the increased likelihood of cough and phlegm were linked to the increase in PM2.5 exposure. This study suggests regular classroom cleaning and routine maintenance of air conditioners to be done inside the preschools. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ozone poisoning in research laboratories and in the industry.

Author

Alagumalai, Avinash, Wang, Chaoqi, Han, Jie, Lichtfouse, Eric, and Song, Hua

Subjects

*OZONE, *OZONE layer, *COLD atmospheric plasmas, *INDOOR air quality, *OZONE generators, *COVID-19 pandemic, *ATMOSPHERIC pressure plasmas

Abstract

This article discusses the issue of indoor ozone in research laboratories, particularly during the COVID-19 pandemic. While outdoor ozone has both beneficial and detrimental effects, indoor ozone is often overlooked and can pose health risks. The article explores ozone formation, its use in research, health effects, incidents of ozone poisoning, and guidelines for safety in laboratories. It emphasizes the need for proper handling and monitoring of ozone in indoor laboratory spaces to ensure the safety of workers. The article also highlights the age and gender-specific susceptibility to ozone exposure and provides recommendations for improving safety in laboratories. [Extracted from the article]

Published

2024

5. Phytoremediation of formaldehyde by three selected non-native indoor plant species.

Author

Khalifa, Abeer Ahmed, Alalaiwat, Dalal, and Khan, Ezzat

Abstract

Abstract\nNOVELTY STATEMENTFormaldehyde is an organic volatile compound and a commonly used chemical in various construction materials thus causing dwellers to be exposed to it inside a building. Its remediation from indoor air has been carried out through various techniques where potted plants and living walls are at the front foot. It is necessary to study plants under various conditions for their efficiency. We selected three plant species Epipremnum aureum, Chlorophytum comosum, and Spathiphyllum wallisii non-native of Bahrain. These plants were tested under normal conditions in a sealed fumigation box where formaldehyde concentration was kept ∼3 ppm, CO2 ∼ 450 ppm, light intensity 1000 Lx (equal to 13.5 µmol.m−2.s−1), irrigated with tap water. Analysis of Variance (ANOVA) statistical method was performed to test the significant differences of purification efficiencies of the tested indoor plants against HCHO. In addition, the statistical method was used to test the significant difference, if any, of the plants to CO2 emission because of absorbing HCHO. The physical health of plants and their short-term remediation ability reveals that all plants exhibited up to 70% remediation potential and tolerance to remediate the target chemical. It is evident that the impact of local environmental factors on the plants is negligible.Epipremnum aureum, Chlorophytum comosum, and Spathiphyllum wallisii are non-native plants available in Bahrain for decorative purposes.Their efficiency against formaldehyde under local indoor environment was studied for the first time.Under normal conditions the plant proved to be sufficiently tolerant toward normal conditions. The efficiency in normal soil system is very good.The efficiency of the three species was mutually compared, statistical modeling reveal that they are significantly close to each other in terms of formaldehyde remediation to purify ambient air.Epipremnum aureum, Chlorophytum comosum, and Spathiphyllum wallisii are non-native plants available in Bahrain for decorative purposes.Their efficiency against formaldehyde under local indoor environment was studied for the first time.Under normal conditions the plant proved to be sufficiently tolerant toward normal conditions. The efficiency in normal soil system is very good.The efficiency of the three species was mutually compared, statistical modeling reveal that they are significantly close to each other in terms of formaldehyde remediation to purify ambient air. [ABSTRACT FROM AUTHOR]

Published

2024

6. Low-cost interventions to improve ventilation in long-term care facilities.

Author

Srikanth, Pranav, Doe, Rebecca L., Croteau, Gerry, and Cohen, Martin A.

Subjects

*PREVENTION of communicable diseases, *VENTILATION, *NURSING care facility design & construction, *RISK assessment, *AIR pollution, *RESEARCH funding, *LONG-term health care, *AT-risk people, *DESCRIPTIVE statistics, *HYGIENE, *ENVIRONMENTAL exposure, *INDOOR air pollution, *COVID-19, *INDUSTRIAL hygiene, *INDUSTRIAL safety

Abstract

Residents of long-term care facilities are particularly vulnerable to communicable diseases. Low-cost interventions to increase air exchange rates (AERs) may be useful in reducing the transmission of airborne communicable diseases between long-term care residents and staff. In this study, carbon dioxide gas was used as a tracer to evaluate the AER associated with the implementation of low-cost ventilation interventions. Under baseline conditions with the room's door closed, the mean AER was 0.67 ACH; while baseline conditions with the door open had a significantly higher mean AER of 3.87 ACH (p < 0.001). Subsequently opening a window with the door open increased mean AER by 1.49 ACH (p = 0.012) and adding a fan in the window further increased mean AER by 1.87 ACH (p < 0.001). Regression analyses indicated that the flow rate of air entering through the window, both passively and through the use of a fan, was significantly associated with an increase in AER (p < 0.001). These results indicate that low-cost interventions that pull outside air into resident rooms were effective in improving the air exchange rates in these facilities. While implementation of these interventions is dependent on facility rules and isolation requirements of residents with airborne communicable diseases, these interventions remain viable options for long-term care facilities to improve resident room ventilation without requiring costly ventilation system upgrades. [ABSTRACT FROM AUTHOR]

Published

2024

7. Thermal Performance Analysis of a Commercial Space Exposed to Solar Radiations in the Composite Climatic Conditions.

Author

Verma, Shubham Kumar, Gupta, Vibhushit, Thappa, Sahil, Anand, Sanjeev, Gupta, Navin, and Anand, Yatheshth

Subjects

*SOLAR radiation, *THERMAL analysis, *INDOOR air quality, *THERMAL comfort, *RAY tracing, *CEILING fans

Abstract

People spend majority of their lifetime indoors making comfortable dwellings one of the major requirements otherwise it may primarily impact the occupant's health and productivity. Indoor temperature and relative humidity (RH) are the two major parameters for determining comfort level, whilst airflow and heat transfer are having an influential role in controlling these parameters. Since solar radiations are the primary source of heat inside a building and ceiling fans play a significant role in improving air circulation. The present study strives to develop a model for evaluating the thermal behavior of commercial space under the influence of solar radiations and ceiling fans. It involves "solar ray tracing" and "3D-Fan zone" models to assess their impact on indoor air quality and thermal comfort. The developed model is validated by comparing the simulated results of air velocity and temperature with experimental data accumulated from space. Further, the validated model is used to evaluate the impact of different levels of solar irradiation between 200 W/m2 and 1000 W/m2 on the indoor environment. Results revealed that an increment of 200 W/m2 irradiations is raising the mean indoor temperature by 0.2 °C, percentage dissatisfaction by 8% while a reduction in RH is reported to be 0.5%. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of internal wall design on cross-ventilation of an isolated building.

Author

Zhang, X., Weerasuriya, A. U., Perera, U. S., Wang, J., Li, C. Y., Tse, K. T., and Kwok, K. C. S.

Subjects

*WALL design & construction, *COMPUTATIONAL fluid dynamics, *NATURAL ventilation, *VENTILATION, *INDOOR air quality

Abstract

Poorly designed internal walls deter natural ventilation of buildings, causing poor indoor air quality and exorbitant energy costs when mechanical ventilation systems are used. Although one can design internal walls with minimum adverse effects on natural ventilation by controlling height, width, location, and porosity of internal walls, less research has been done to date. This study investigated how these four parameters individually and collectively influence the cross-ventilation of buildings using Reynolds-average Navier–Stokes equation-based computational fluid dynamics simulations and the local and global sensitivity analysis. When considering individual parameters, the local sensitivity analysis revealed the positive correlation between internal walls' porosity and cross-ventilation, similar to previous studies. However, the global sensitivity analysis identified the location as the most influential design parameter for cross-ventilation. Furthermore, the global sensitivity analysis revealed nonlinear, non-monotonic, and interactive relations between cross ventilation and all parameters but porosity, highlighting the importance of evaluating all design parameters together and the difficulty in extrapolating the findings for idealized to actual internal wall designs. Based on the findings, this study proposes narrow internal walls with high porosities built away from ventilation openings as a basic internal wall design to maximize the cross-ventilation of buildings. [ABSTRACT FROM AUTHOR]

Published

2024

9. Numerical study on the effect of smoke emitted from the vents on the roof of a diesel train on the intake of downstream air-conditioning units.

Author

Chen, Chunjiang, Zhang, Qiyue, Li, Zhuojun, Ma, Yamin, Xu, Liangzhong, Gong, Weisi, and Niu, Jiqiang

Subjects

*SMOKE, *INDOOR air quality, *AIR conditioning, *DIESEL motor exhaust gas, *MULTIPHASE flow, *DIESEL motors

Abstract

Constrained by economic development and geographical features, numerous railway lines remain unelectrified, underscoring the expansive potential of diesel trains. Diesel engine emissions discharged from the roof of trains pose a challenge as some of the smoke infiltrates the cabin through the intake of roof-mounted air-conditioning units (ACUs). This intrusion diminishes the indoor air quality, posing health risks to passengers and potentially jeopardizing their safety. This study employs the shear stress transport k-omega turbulence model to formulate a multiphase flow model for simulating smoke diffusion in diesel trains. Additionally, we conducted an optimization design to minimize smoke entry into the ACUs. This study defined six cases based on variations in the shape and height of the cover and the spacing of the smoke vents. The results show that the effect of the diffusion characteristics decreased with the cover height. With the progression of airflow diffusion, the effect of the smoke vent structure on the concentration diminished farther from the vents. The minimum smoke mass flow rate into the intake occurred with the vent spacing of 2.14 m and without a cover, resulting in a 57.0% decrease compared with the maximum. Thus, a smoke vent spacing of 2.14 m without a cover was deemed to be the optimal configuration. The research results provide certain engineering guidance significance for the design and operation of train-smoke vent structures. [ABSTRACT FROM AUTHOR]

Published

2024

10. Assessment of Indoor Radon Gas Concentration in Latvian Households.

Author

Reste, Jeļena, Rīmere, Nadīna, Romans, Andris, Martinsone, Žanna, Mārtiņsone, Inese, Vanadziņš, Ivars, and Pavlovska, Ilona

Subjects

*RADON, *CONSCIOUSNESS raising, *NATURAL ventilation, *AIR quality monitoring, *THERMAL comfort, *HOUSEHOLDS

Abstract

Exposure to radon gas in households presents serious health risks, including an increased likelihood of lung cancer. Following the COVID-19 pandemic, the change in individual habits has led to more time spent in indoor environments with remote activities; thus, the need to raise the awareness of air quality in dwellings and to mitigate the exposure of inhabitants to radon has emerged. This study investigated radon gas concentrations in the air of Latvian dwellings. RadTrack2 passive detectors were deployed in a representative sample of households across 106 municipalities of Latvia (98% of the territory), yielding data from 487 households (973 detectors). The data revealed a median radon concentration of 52 Bq/m3 (Q1 and Q3 were 29 and 93 Bq/m3), with the majority of samples (95.6%) falling below the national reference limit of 200 Bq/m3. The building type and presence of a cellar significantly impacted radon levels, with structures lacking cellars and older buildings exhibiting higher concentrations. Mechanical ventilation proved to be more effective in reducing radon levels, compared to natural ventilation. These findings emphasize the necessity of proactive measures to mitigate indoor radon exposure and to ensure the well-being of occupants. Additionally, the dissemination of research data on radon exposure through open-access scientific publications is vital for raising awareness and implementing effective mitigation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

11. A Field Survey on Indoor Climate in Land Transport Cabins of Buses and Trains.

Author

Ogundiran, John Omomoluwa, Nyembwe, Jean-Paul Kapuya Bulaba, Ribeiro, Anabela Salgueiro Narciso, and da Silva, Manuel Gameiro

Subjects

*BUS transportation, *FIELD research, *INDOOR air quality, *ENVIRONMENTAL quality, *WELL-being

Abstract

Assessing indoor environmental quality (IEQ) is fundamental to ensuring health, well-being, and safety. A particular type of indoor compartment, land transport cabins (LTCs), specifically those of trains and buses, was surveyed. The global rise in commute and in-cabin exposure time gives relevance to the current study. This study discusses indoor climate (IC) in LTCs to emphasize the risk to the well-being and comfort of exposed occupants linked to poor IEQ, using objective assessment and a communication method following recommendations of the CEN-EN16798-1 standard. The measurement campaign was carried out on 36 trips of real-time travel on 15 buses and 21 trains, mainly in the EU region. Although the measured operative temperature, relative humidity, CO2, and VOC levels followed EN16798-1 requirements in most cabins, compliance gaps were found in the indoor climate of these LTCs as per ventilation requirements. Also, the PMV-PPD index evaluated in two indoor velocity ranges of 0.1 and 0.3 m/s showed that 39% and 56% of the cabins, respectively, were thermally inadequate. Also, ventilation parameters showed that indoor air quality (IAQ) was defective in 83% of the studied LTCs. Therefore, gaps exist concerning the IC of the studied LTCs, suggesting potential risks to well-being and comfort and the need for improved compliance with the IEQ and ventilation criteria of EN16798-1. [ABSTRACT FROM AUTHOR]

Published

2024

12. Evaluation of Air Quality and Thermal Comfort in University Dormitories in China.

Author

Wu, Yanpeng, Li, Xiaoyu, Zhao, Sheng, Wang, Qianglong, Wang, Shanxin, Yu, Liyang, and Wang, Faming

Subjects

*THERMAL comfort, *INDOOR air quality, *AIR quality indexes, *AIR quality, *DORMITORIES, *ENVIRONMENTAL quality, *NATURAL ventilation

Abstract

Most studies on Chinese dormitories are carried out in summer, while few focus on a transition season or winter. This study evaluated the air quality of a student dormitory in a university in the Beijing area by using a questionnaire survey and on-site measurements. The CO2 concentration was used as an indoor air quality evaluation index to characterize the freshness of the air, and different window opening conditions in the dormitory were simulated, with corresponding improvement plans proposed. The results of this study revealed that the air quality and thermal comfort of the student dormitories during a transition season and winter fell short of expectations. According to the survey, students who opened their windows frequently had a better subjective perception of the air quality. However, due to the large temperature difference between day and night, more than 80% of the students felt too cold when opening the windows. For daytime conditions, the area of unilateral ventilation window opening should not be less than 0.39 m2, the area of bilateral ventilation window opening should not be less than 0.13 m2, and the time taken to close the windows and doors should not exceed the maximum ventilation interval. Empirical equations were fitted for nighttime conditions based on the CO2 concentration, number of people in the room, and window opening area, resulting in a reasonable window opening area of 0.349 m2~0.457 m2. In sum, this study assessed the air quality status within typical university dormitories across varying seasons, gaining a clear understanding of how different ventilation strategies and occupant densities influence air freshness and thermal comfort. Based on these insights, a practical and optimized window area recommendation was formulated to enhance the indoor environmental quality in these dormitories. [ABSTRACT FROM AUTHOR]

Published

2024

13. Indoor Air Quality (IAQ) Management in Hong Kong: The Way Forward.

Author

Tsang, Tsz-Wun, Mui, Kwok-Wai, and Wong, Ling-Tim

Subjects

*INDOOR air quality, *SUSTAINABLE architecture, *AIRBORNE infection, *COVID-19 pandemic

Abstract

There has been an increasing awareness of indoor air quality (IAQ) management in green building designs, driven by the need to mitigate potential health risks and create sustainable and healthy indoor environments. The COVID-19 pandemic has further highlighted the critical role of ventilation and IAQ in reducing the risk of indoor airborne transmission. Governments and organisations worldwide have responded to this growing concern by implementing ventilation requirements and updating IAQ standards and guidelines. In the case of Hong Kong, a developed and densely populated city characterised by high-rise buildings, this study aims to provide a strategic framework for non-governmental agencies to address IAQ issues effectively. A comprehensive review of policies, regulations, and guidelines by international bodies and individual governments, along with an examination of the current IAQ management scheme in Hong Kong, has been conducted. Drawing inspiration from successful IAQ management strategies, the study aims to identify insights and potential pathways for the city's future development of IAQ management strategies. Overall, this research highlights the importance of proactive IAQ management for buildings and offers a roadmap for Hong Kong's pursuit of healthier indoor environments. [ABSTRACT FROM AUTHOR]

Published

2024

14. Multi-Sensor Device for Traceable Monitoring of Indoor Environmental Quality †.

Author

Fissore, Virginia Isabella, Arcamone, Giuseppina, Astolfi, Arianna, Barbaro, Alberto, Carullo, Alessio, Chiavassa, Pietro, Clerico, Marina, Fantucci, Stefano, Fiori, Franco, Gallione, Davide, Giusto, Edoardo, Lorenzati, Alice, Mastromatteo, Nicole, Montrucchio, Bartolomeo, Pellegrino, Anna, Piccablotto, Gabriele, Puglisi, Giuseppina Emma, Ramirez-Espinosa, Gustavo, Raviola, Erica, and Servetti, Antonio

Subjects

*THERMAL comfort, *ENVIRONMENTAL monitoring, *INDOOR air quality, *SOUND pressure, *ENVIRONMENTAL quality, *PARTICULATE matter, *VOLATILE organic compounds

Abstract

The Indoor Environmental Quality (IEQ) combines thermal, visual, acoustic, and air-quality conditions in indoor environments and affects occupants' health, well-being, and comfort. Performing continuous monitoring to assess IEQ is increasingly proving to be important, also due to the large amount of time that people spend in closed spaces. In the present study, the design, development, and metrological characterization of a low-cost multi-sensor device is presented. The device is part of a wider system, hereafter referred to as PROMET&O (PROactive Monitoring for indoor EnvironmenTal quality & cOmfort), that also includes a questionnaire for the collection of occupants' feedback on comfort perception and a dashboard to show end users all monitored data. The PROMET&O multi-sensor monitors the quality conditions of indoor environments thanks to a set of low-cost sensors that measure air temperature, relative humidity, illuminance, sound pressure level, carbon monoxide, carbon dioxide, nitrogen dioxide, particulate matter, volatile organic compounds, and formaldehyde. The device architecture is described, and the design criteria related to measurement requirements are highlighted. Particular attention is paid to the calibration of the device to ensure the metrological traceability of the measurements. Calibration procedures, based on the comparison to reference standards and following commonly employed or ad hoc developed technical procedures, were defined and applied to the bare sensors of air temperature and relative humidity, carbon dioxide, illuminance, sound pressure level, particulate matter, and formaldehyde. The next calibration phase in the laboratory will be aimed at analyzing the mutual influences of the assembled multi-sensor hardware components and refining the calibration functions. [ABSTRACT FROM AUTHOR]

Published

2024

15. A framework for modeling, generating, simulating, and predicting carbon dioxide dispersion indoors using cell-DEVS and deep learning.

Author

Khalil, Hoda and Wainer, Gabriel

Subjects

*ARTIFICIAL neural networks, *CARBON dioxide, *DISCRETE systems, *INDOOR air quality, *DEEP learning, *AIR quality

Abstract

Carbon dioxide concentration in enclosed spaces is an air quality indicator that affects occupants' well-being. To maintain healthy carbon dioxide levels indoors, enclosed space settings must be adjusted to maximize air quality while minimizing energy consumption. Studying the effect of these settings on carbon dioxide concentration levels is not feasible through physical experimentation and data collection. This problem can be solved by using validated simulation models, generating indoor settings scenarios, simulating those scenarios, and studying results. In previous work, we presented a formal Cellular Discrete Event System Specifications simulation model for studying carbon dioxide dispersion in rooms with various settings. However, designers may need to predict the results of altering large combinations of settings on air quality. Generating and simulating multiple scenarios with different combinations of space settings to test their effect on indoor air quality is time-consuming. In this research, we solve the two problems of the lack of ground truth data and the inefficiency of producing and studying simulation results for many combinations of settings by proposing a novel framework. The framework utilizes a Cellular Discrete Event System Specifications model, simulates different scenarios of enclosed spaces with various settings, and collects simulation results to form a data set to train a deep neural network. Without needing to generate all possible scenarios, the trained deep neural network is used to predict unknown settings of the closed space when other settings are altered. The framework facilitates configuring enclosed spaces to enhance air quality. We illustrate the framework uses through a case study. [ABSTRACT FROM AUTHOR]

Published

2024

16. Feasibility of residential air quality monitoring to address asthma outcomes.

Author

Ikuma, Laura, Ntiamoah, Isaac, Van Doren, Alicia, Bakshi, Arundhati, and Nahmens, Isabelina

Subjects

*INDOOR air pollution prevention, *ENVIRONMENTAL monitoring equipment, *AIR pollution, *MEDICAL protocols, *COMPUTERS, *RESEARCH funding, *PILOT projects, *AIR filters, *COST analysis, *HOME environment, *EVALUATION of medical care, *ENVIRONMENTAL exposure, *QUALITY of life, *HOUSEKEEPING, *PARTICULATE matter, *ASTHMA

Abstract

Improving asthma outcomes for underserved populations can be addressed through interventions to improve indoor air quality (IAQ). New protocol for measuring IAQ and health outcomes are imperative given advances in IAQ monitoring technology and challenges in conducting intervention research in homes. In this pilot study HEPA air purifiers and HEPA vacuum cleaners were provided to five homes with children with asthma. For 6 weeks, eight common components of air quality were measured using a low-cost multi-channel air quality monitoring device, with data conveyed directly from participant homes via Wi-Fi connection. In conjunction with periodic surveys on asthma control, impact of asthma on quality of life and intervention compliance, outcomes compared IAQ, home characteristics, and asthma-related measures. This pilot study demonstrates the feasibility of a protocol to evaluate a dual component intervention to improve IAQ in homes, as measured with a low-cost air quality monitoring device. [ABSTRACT FROM AUTHOR]

Published

2024

17. Ventilation Methods for Improving the Indoor Air Quality and Energy Efficiency of Multi-Family Buildings in Central Europe.

Author

Ferdyn-Grygierek, Joanna and Grygierek, Krzysztof

Subjects

*INDOOR air quality, *ENERGY consumption, *APARTMENT buildings, *NATURAL ventilation, *VENTILATION, *BUILDING performance, *RETROFITTING of buildings

Abstract

In Poland and other countries in Central Europe, residential buildings from the second half of the 20th century dominate, which have recently undergone deep thermomodernisation. Research on the retrofitting of residential buildings has focused mainly on energy efficiency, with only a few studies on indoor air quality. The aim of this study was to present a comparative analysis of the impact of five ventilation scenarios (three natural and two mechanical) on CO2 concentration and energy demand for heating and ventilation in residential spaces of a multi-family building located in Poland. The analyses were based on the results of building performance co-simulation using the EnergyPlus and CONTAM programs carried out under dynamic conditions with a 5 min time step for the entire heating season. The calculations took into account the instantaneous occupancy variability of twenty apartments. In the buildings equipped with new tight windows, the natural ventilation system provided extremely low air exchange (on average 0.1 h−1) and poor indoor air quality (average CO2 concentration at the level of 2500 ppm). Opening windows to ventilate the rooms generated a multiple increase (up to 8 times) in heating demand during these periods, but average CO2 concentration was on the level of 930 ppm. The use of mechanical ventilation was profitable both in terms of energy savings (at the level of 50%) and improvement in the indoor air. [ABSTRACT FROM AUTHOR]

Published

2024

18. Assessing Air Quality in Various Indoor Environments of a University Library.

Author

Yuparat Limmongkon, Vichai Pruktharathikul, Chananya Jirapornkul, and Pongsit Boonruksa

Subjects

*INDOOR air quality, *COLLEGE environment, *ACADEMIC libraries, *INDOOR air pollution, *PARTICULATE matter, *CARBON dioxide, *THERMAL comfort

Abstract

Indoor air quality is an important aspect of buildings, including libraries where various activities take place. This study aimed to investigate indoor air quality in different microenvironments in a library in Thailand. The indoor air monitoring was conducted in a library for 4 microenvironments: reading, librarian, cafe shop, and photocopy shop zone. Respiratory dust and bioaerosols were analyzed using NIOSH methods 0600, and 0800, respectively. Air movements were determined using an anemometer. Particulate matters (PM) were measured using DustTrak; carbon dioxide and comfort parameters were measured using Q-TRAK with 30-minute average for 8 hours. The results showed that the means of respiratory dust, PM10, PM4, PM2.5 in all zones met the standard, however, temporary variation revealed that PM4 and PM2.5 exceeded the standard in the afternoon. Fungal concentration was above 500 cfu/m3 in the photocopy shop zone where the highest %RH and the lowest air movement were found. Carbon dioxide concentrations in the cafe shop zone exceeded 1,000 ppm. The real-time measurements showed significant strong correlations between the different PM sizes, moderate correlations between %RH and temperature, and CO2 and PM10. The findings suggest that preventive and corrective measures should be implemented to improve indoor air quality in the library. [ABSTRACT FROM AUTHOR]

Published

2024

19. The Impact of Fine Particulate Matters (PM10, PM2.5) from Incense Smokes on the Various Organ Systems: A Review of an Invisible Killer.

Author

Yadav, Virendra Kumar, Bijekar, Sangha, Gacem, Amel, Alkahtani, Abdullah M, Yadav, Krishna Kumar, Alreshidi, Maha Awjan, Kumar, Pankaj, Ghosh, Tathagata, Verma, Rakesh Kumar, Mishra, Sunidhi, Patel, Ashish, and Choudhary, Nisha

Subjects

*PARTICULATE matter, *INDOOR air quality, *SMOKE, *POLYCYCLIC aromatic hydrocarbons, *TOBACCO smoke, *CARBON monoxide, *VOLATILE organic compounds

Abstract

The drastic increase in industrialization has led to numerous adverse effects on the environment and human health. Respiratory tract disorders are one of the major emerging global health issues that lead to a high mortality rate every year. The quality of indoor and outdoor air has lowered in the last decade.The quality of indoor air has deteriorated by cooking, smoking, and burning incense sticks or smoke. The smoke released from incense and incense sticks contains gaseous products (carbon monoxide, nitrogen dioxide, and oxide of sulfur), particular matter (PM10, PM2.5), volatile organic compounds (VOCs), and polycyclic aromatic hydrocarbons (PAHs). These toxic components released from various incense sources pose a significant risk to human health and the environment. The inhalation and exposure of smoke from various incenses is hazardous to health as it inevitably culminates in deadly organ‐related diseases. With such insights, the present review article focuses on the characteristic attributes of particulate matter released from incense and other sources emphasizing healthcare and environmental concerns. [ABSTRACT FROM AUTHOR]

Published

2024

20. Integration of chemical health risk assessment (CHRA) and indoor air quality (IAQ) assessment: from a Malaysian perspective.

Author

Abdullah, Faris, Jaafar, Mohd. Hafiidz, Ahmad, Mardiana Idayu, and Ismail, Zitty Sarah

Subjects

*INDUSTRIAL hygiene laws, *INDUSTRIAL safety laws, *HAZARDOUS substance release, *LABORATORIES, *OCCUPATIONAL exposure, *INDOOR air pollution, *GOVERNMENT regulation

Abstract

In Malaysia, chemical management in workplaces is managed under the Occupational Safety and Health Act 1994. Hence, the introduction of the Occupational Safety and Health (Use and Standards of Exposure of Chemicals Hazardous to Health) Regulations 2000 has strengthened the chemical management level in workplaces, including higher academic institutions. The introduction of chemical health risk assessment through the regulation required management to conduct the assessment at workplaces. Poor levels of Indoor Air Quality (IAQ) in chemical laboratories may also cause discomfort among workers when there is sick building syndrome in laboratories. IAQ is managed through the Industry Code of Practice on Indoor Air Quality 2010. Although both are different in method and approach, both are meant to ensure the workers' safety and comfort. This study is aimed to investigate the need to integrate both chemical health risk assessment and IAQ assessment in laboratories to ensure optimum safety levels among workers. [ABSTRACT FROM AUTHOR]

Published

2024

21. Assessing the safety of new germicidal far‐UVC technologies.

Author

Görlitz, Maximilian, Justen, Lennart, Rochette, Patrick J., Buonanno, Manuela, Welch, David, Kleiman, Norman J., Eadie, Ewan, Kaidzu, Sachiko, Bradshaw, William J., Javorsky, Emilia, Cridland, Nigel, Galor, Anat, Guttmann, Martin, Meinke, Martina C., Schleusener, Johannes, Jensen, Paul, Söderberg, Per, Yamano, Nozomi, Nishigori, Chikako, and O'Mahoney, Paul

Subjects

*PANDEMIC preparedness, *INDOOR air quality, *ACTION spectrum, *COVID-19 pandemic

Abstract

The COVID‐19 pandemic underscored the crucial importance of enhanced indoor air quality control measures to mitigate the spread of respiratory pathogens. Far‐UVC is a type of germicidal ultraviolet technology, with wavelengths between 200 and 235 nm, that has emerged as a highly promising approach for indoor air disinfection. Due to its enhanced safety compared to conventional 254 nm upper‐room germicidal systems, far‐UVC allows for whole‐room direct exposure of occupied spaces, potentially offering greater efficacy, since the total room air is constantly treated. While current evidence supports using far‐UVC systems within existing guidelines, understanding the upper safety limit is critical to maximizing its effectiveness, particularly for the acute phase of a pandemic or epidemic when greater protection may be needed. This review article summarizes the substantial present knowledge on far‐UVC safety regarding skin and eye exposure and highlights research priorities to discern the maximum exposure levels that avoid adverse effects. We advocate for comprehensive safety studies that explore potential mechanisms of harm, generate action spectra for crucial biological effects and conduct high‐dose, long‐term exposure trials. Such rigorous scientific investigation will be key to determining safe and effective levels for far‐UVC deployment in indoor environments, contributing significantly to future pandemic preparedness and response. [ABSTRACT FROM AUTHOR]

Published

2024

22. Changes in Indoor Air Quality in Public Facilities before and after the Enactment of Taiwan's Indoor Air Quality Management Act.

Author

Chen, Hsiu-Ling, Chih, Pei-Shan, Chuang, Kai-Jen, Chuang, Hsiao-Chi, and Chang, Li-Te

Subjects

*INDOOR air quality, *AIR quality management, *HOSPITAL libraries, *PUBLIC spaces, *PUBLIC transit, *PARTICULATE matter

Abstract

South Korea was the first to administer the Indoor Air Quality Control Act in 1996, followed by Taiwan's implementation in 2012. This study investigated indoor air quality (IAQ) in public facilities before and after the enactment of Taiwan's Indoor Air Quality Management (IAQM) Act in 2012 to assess the effectiveness of the Act. The study also calculates health risks for employers, and consumers/visitors separately. The mean concentration of carbon dioxide (CO2) after the IAQM Act's enactment was higher than before, except for government offices. The lowest attainment rates for CO2, below 80%, were 73% in hospitals and 78% in libraries. As for formaldehyde, average concentrations were higher after the IAQM Act's implementation, except for the exhibition room and library. Notably, improvements in particulate matter with a diameter less than 2.5 μm (PM2.5) levels were evident in hospitals and libraries compared to other environments (attainment rates increased from 85% to 100% and 89% to 94%, respectively). However, in schools, preschools, and public transport spaces, unattainment rates worsened. Regarding cancer risk from formaldehyde exposure in the public, the 95% of upper risk limits ranged from 3.44 × 10 − 5 in the public transport system to 8.80 × 10 − 4 in preschools. Our findings highlight the necessity of integrating more measurement data after IAQM Act implementation and formulating management strategies based on risk assessments for future investigations. [ABSTRACT FROM AUTHOR]

Published

2024

23. Prioritising Actions for Improving Classroom Air Quality Based on the Analytic Hierarchy Process: Case Studies in China and the UK.

Author

Shu, Ziyu, Yuan, Feng, Wang, Jie, Zang, Jian, Li, Baizhan, Shahrestani, Mehdi, Essah, Emmanuel, Awbi, Hazim, Holland, Mike, Fang, Fangxin, Pain, Christopher, Kumar, Prashant, Zhong, Hua, Short, Alan, Linden, Paul, and Yao, Runming

Subjects

*INDOOR air quality, *AIR quality, *ANALYTIC hierarchy process, *CHINA studies, *NATURAL ventilation, *CLASSROOMS

Abstract

The air quality in classrooms significantly impacts school children's health and learning performance. It has been reported worldwide that classroom air quality does not meet the required standard and actions are pledged for improvement. However, it poses a challenge for decision-making in terms of prioritising taking-up measures. The aim of this study is to propose a method of identifying the action measures for improving classroom air quality and prioritising them. Case studies in the UK and China were conducted, and the key measures were identified through literature studies, open-ended questionnaire surveys, and workshop discussions, which are classified into three categories: B1, policy; B2, technology; and B3, information sharing. The analytical hierarchy process (AHP) is applied in the prioritisation of the action measures. A total of 138 teachers and parents from China and the UK participated in this case study. The genetic algorithm-optimised Hadamard product (GAOHP) method is applied to justify the consistency ratio (CR) within the required threshold value in order to ensure the consistency of the subjective perception and the accuracy of comparative weights. The results show that item B2, technology, is the most desired measure by both Chinese and British parents and teachers, despite the deviation from the optimal choice in China and the UK. Among the proposed action measures, the UK respondents strongly expected air purifiers with natural ventilation as opposed to their Chinese counterparts preferring to share the real-time status of classroom air quality. Our work will provide strong support for the subsequent selection of indoor air quality improvement strategies for schools. [ABSTRACT FROM AUTHOR]

Published

2024

24. Development of Particle Filters for Portable Air Purifiers by Combining Melt-Blown and Polytetrafluoroethylene to Improve Durability and Performance.

Author

Yun, Hyunjun, Seo, Ji Hoon, and Yang, Jinho

Subjects

*AIR filters, *INDOOR air quality, *QUALITY factor, *PRESSURE drop (Fluid dynamics), *GLASS fibers, *POLYTEF

Abstract

Improving indoor air quality through the use of air purifiers has become a major focus, with emphasis on developing filters with high efficiency, high holding capacity, and low-pressure drop to improve the clean air delivery rate (CADR) for air purifiers. However, although most studies focused on developing media and evaluating their performance, few studies have reached the employment for a pleated filter. In this study, we newly synthesized flat media and pleated filters by combining polytetrafluoroethylene membrane (PT) and melt-blown (MB) materials (PM) and compared its initial performance to that of other air purifier filters (MB, glass fiber, and PT). Additionally, we analyzed how the performance changed after the particles were loaded. The initial efficiency of the PM filter showed a higher quality factor (QF) than the other filters. Furthermore, when more particles were loaded, the penetration of the PM did not change. These results demonstrate the potential of the PM. However, the CADR and submicron-sized (0.02–0.113 μm) CADR (sCADR) were highest for the MB filter due to the initial pressure drop. Therefore, additional improvements are required to apply the PM in air purifiers. However, the results suggest that the PM can be a new alternative for air purifier filters used in medical centers or facilities with vulnerable populations where a high-efficiency particle air (HEPA) filter must be used. [ABSTRACT FROM AUTHOR]

Published

2024

25. Effects of Window Position and Exhaust Flow Rate on Residential Kitchen Hood Performance: A Validated Numerical Approach.

Author

Lin, Yi-An, Chan, Ying-Chieh, and Lee, Wan-Chen

Subjects

*COMPUTATIONAL fluid dynamics, *VENTILATION, *INDOOR air quality, *AIR flow, *NATURAL ventilation

Abstract

Previous studies showed that opening windows could help with kitchen ventilation in pollutant removal. However, no studies have systematically examined the impacts of window positions on kitchen hood performance, and there is insufficient information on indoor airflow characteristics and pollutant distribution from makeup air through open windows. Therefore, the objective of this study was to use a validated computational fluid dynamics approach with CO2 as an indoor air quality indicator (a surrogate for cooking emissions) to understand the impacts of exhaust flow rate and the window opening position on the flow characteristics, concentration distribution, and capture efficiency (CE) of the hood. We conducted four-point validation tests of the numerical models based on CO2 concentration and temperature measurements under steady-state conditions. The validated models were subsequently used in simulations to understand the effects of six different window opening positions and the two exhaust flow rates on exposure. We found that the CO2 concentration could be better reduced by having windows open at the higher location. Generally, the front windows were more effective with CE > 80 % , followed by the back and the side windows, respectively. We also found that as the exhaust flow rate increased from 6.72 to 12.16 m3/min, CE reached >75% for all window positions, where the most significant increase was 1.58 times for the lower side window. To sum up, changing the relative position of the window and the exhaust hood could help disperse the incoming airflow from the window, improve the kitchen's overall ventilation, and reduce pollutant concentration. [ABSTRACT FROM AUTHOR]

Published

2024

26. Reengineering Indoor Air Quality Monitoring Systems to Improve End-User Experience.

Author

Pietraru, Radu Nicolae, Olteanu, Adriana, Adochiei, Ioana-Raluca, and Adochiei, Felix-Constantin

Subjects

*INDOOR air quality, *AIR quality monitoring, *AIR quality, *USER interfaces, *VENTILATION

Abstract

This paper presents an indoor air quality (IAQ) monitoring system designed for a better end-user experience. The monitoring system consists of elements, from the monitoring sensor to the monitoring interface, designed and implemented by the research team, especially for the proposed monitoring system. The monitoring solution is intended for users who live in houses without automatic ventilation systems. The air quality sensor is designed at a minimum cost and complexity to allow multi-zone implementation without significant effort. The user interface uses a spatial graphic representation that facilitates understanding areas with different air quality levels. Presentation of the outdoor air quality level supports the user's decision to ventilate a space. An innovative element of the proposed monitoring interface is the real-time forecast of air quality evolution in each monitored space. The paper describes the implementation of an original monitoring solution (monitoring device, Edge/Cloud management system, innovative user monitoring interface) and presents the results of testing this system in a relevant environment. The research conclusions show the proposed solution's benefits in improving the end-user experience, justified both by the technical results obtained and by the opinion of the users who tested the monitoring system. [ABSTRACT FROM AUTHOR]

Published

2024

27. Easy-to-Use MOX-Based VOC Sensors for Efficient Indoor Air Quality Monitoring.

Author

Pietraru, Radu Nicolae, Nicolae, Maximilian, Mocanu, Ștefan, and Merezeanu, Daniel-Marian

Subjects

*AIR quality monitoring, *INDOOR air quality, *METAL oxide semiconductors, *VOLATILE organic compounds, *DETECTORS

Abstract

This research paper presents a case study on the application of Metal Oxide Semiconductor (MOX)-based VOC/TVOC sensors for indoor air quality (IAQ) monitoring. This study focuses on the ease of use and the practical benefits of these sensors, drawing insights from measurements conducted in a university laboratory setting. The investigation showcases the straightforward integration of MOX-based sensors into existing IAQ monitoring systems, highlighting their user-friendly features and the ability to provide precise and real-time information on volatile organic compound concentrations. Emphasizing ease of installation, minimal maintenance, and immediate data accessibility, this paper demonstrates the practicality of incorporating MOX-based sensors for efficient IAQ management. The findings contribute to the broader understanding of MOX sensor capabilities, providing valuable insights for those seeking straightforward and effective solutions for indoor air quality monitoring. This case study outlines the feasibility and benefits of utilizing MOX-based sensors in various environments, offering a promising avenue for the widespread adoption of user-friendly technologies in IAQ management. [ABSTRACT FROM AUTHOR]

Published

2024

28. Indoor Air Remediation Using Biochar from Bark: Impact of Particle Size and Pollutant Concentration.

Author

Zouari, Mariem, Hribernik, Silvo, and Schwarzkopf, Matthew

Subjects

*BIOCHAR, *ENERGY consumption, *AIR pollutants, *INDOOR air quality, *POLLUTANTS, *AIR purification, *PARTICULATE matter

Abstract

The growing emphasis on indoor air quality and public health is fuelling the need for efficient yet affordable air purification techniques. In this study, the influence of biochar particle size on its adsorption efficiency toward airborne pollutants was examined. Bark-derived biochar particles were treated by grinding or ball milling, and then, seven samples with different particle size groups were separated. Biochar particles were characterized by particle size, proximate, SEM, XRD, and physisorption analyses. For adsorption efficiency, two different pollutants were tested at variable initial concentrations. The physical composition and XRD patterns of the biochar with different particle sizes were comparable. The ball-milled sample was an exception in that it had higher ash content and additional XRD peaks signifying contamination of the sample. The porosity of biochar was greater in smaller particles. Ball milling increased the specific surface area and total pore volume by 102% and 48%, respectively. Biochar with finer particle size exhibited the highest adsorption potential towards formaldehyde and methanol among other samples. It should be emphasized that simple mechanical grinding is preferred for reducing biochar size to avoid the risk of eventual contamination, greater energy consumption, and slower processing related to ball milling. When a low concentration of pollutant was tested (1 ppm formaldehyde), the effect of particle size on the adsorption efficiency was more noticeable. However, the effect of particle size was less dominant when higher concentrations of pollutants were tested. Smaller biochar particles (<100 μm) are more favourable for indoor air remediation given their superior adsorption efficiency of volatile organic compounds occurring at low concentrations in the buildings. [ABSTRACT FROM AUTHOR]

Published

2024

29. Impact of Indoor Air Quality and Multi-domain Factors on Human Productivity and Physiological Responses: A Comprehensive Review.

Author

Deng, Zhipeng, Dong, Bing, Guo, Xin, and Zhang, Jianshun

Subjects

*INDOOR air quality, *BUILT environment, *SUSTAINABILITY, *ENVIRONMENTAL quality, *SUSTAINABLE design, *EVIDENCE gaps, *PHOTOSYNTHETICALLY active radiation (PAR)

Abstract

Indoor environmental quality (IEQ) significantly impacts human health, well-being, and productivity. However, a comprehensive and in-depth review of the combined effects of IAQ and other multi-domain factors on human productivity is lacking. There has not been any prior review that encapsulates the impact of multi-domain factors on productivity and physiological responses of occupants. To address this gap, this review paper investigates and highlights the impact of IAQ and multi-domain factors (thermal, visual, and acoustic) on human productivity and occupant well-being in the built environment. The review explores various research methods, including evaluation of human productivity and creativity, data collection, and physiological signal analysis. We also examined the interactions between IAQ and multi-domain factors, as well as strategies for optimizing productivity through integrated building design and smart systems. The key findings from this review reveal that IAQ significantly impacts human productivity and occupant well-being, with interactions between IAQ and other IEQ factors further impacting these effects. Despite advances in the field, there are several limitations and gaps in the current research methods and study designs, including small sample sizes, limited and insufficient experimental design and control, reliance on laboratory or simulated environments, lack of follow-up and long-term data, and lack of robust performance metrics. The review proposes future research directions, including specific applications, and follow-up work to address these limitations and further advance the understanding of IAQ and multi-domain factors in the built environment. The implications of this review for policy and practice include the need for holistic and integrated approaches to IAQ and IEQ management, with a focus on creating healthy and productive indoor environments. This review emphasizes the importance of considering the complex interplay between IAQ and multi-domain factors, as well as the potentials of adopting smart control systems and sustainable design strategies to optimize productivity and occupant well-being in the built environment. By addressing these critical issues, we can enhance the overall quality of life for building occupants and contribute to a more sustainable future. [ABSTRACT FROM AUTHOR]

Published

2024

30. A Mixed Method Study to Explore How Maintenance Personnel Can Enhance Wildfire Smoke Resilience at Long-Term Care Facilities in the US Mountain West.

Author

Arok, Adhieu, Caringi, James, Toevs, Sarah, Spivak, Meredith, and Montrose, Luke

Subjects

*LONG-term care facilities, *INDOOR air quality, *SMOKE, *WILDFIRES, *INDOOR air pollution, *AIR quality

Abstract

Wildfire activity is increasing around the world, concurrent with climate change, and mitigation strategies for protecting vulnerable populations are desperately needed. Because inhaled particles are deleterious to respiratory health, particularly among older adults with co-morbidities, we engaged maintenance personnel working in long term care facilities located in the Western US. Our objective was to identify opportunities to build resilience during wildfire smoke events. We implemented a virtual workshop that addressed wildfire smoke health impacts as well as strategies to assess and maintain indoor air quality. A total of 24 maintenance personnel attended the virtual workshop and 14 participated in a quantitative survey. Workshop attendees found value in the material and there was enthusiasm for educational resources and enhancing indoor air quality. Four months later, four maintenance staff participated in a follow-up interview. Our qualitative assessment revealed the following themes: awareness and prioritization, application of knowledge, barriers, and educational resources. Access to real-time actionable air quality data was a consistent feature across these themes. Maintenance personnel could play a key role in a facility's ability to prepare for and respond to wildfire smoke events, and this study highlights potential challenges and opportunities to involving them in resilience building strategies. [ABSTRACT FROM AUTHOR]

Published

2024

31. State-of-the-Art Low-Cost Air Quality Sensors, Assemblies, Calibration and Evaluation for Respiration-Associated Diseases: A Systematic Review.

Author

Tariq, Hasan, Touati, Farid, Crescini, Damiano, and Ben Mnaouer, Adel

Subjects

*INDOOR air quality, *AIR quality, *INDOOR air pollution, *BIBLIOMETRICS, *DETECTORS, *LORENZ curve, *PLANT protection

Abstract

Indoor air quality and respiratory health have always been an area of prime interest across the globe. The significance of low-cost air quality sensing and indoor public health practices spiked during the pandemic when indoor air pollution became a threat to living beings, especially human beings. Problem Definition: Indoor respiration-associated diseases are hard to diagnose if they are due to indoor environmental conditions. A major challenge was observed in establishing a baseline between indoor air quality sensors and associated respiratory diseases. Methods: In this work, 10,000+ articles from top literature databases were reviewed using six bibliometric analysis methods (Lorenz Curve of Citations, Hirch's H-Index, Kosmulski's H2-Index, Harzing's Hl-Norm-Index, Sidoropolous's HC-Index, and Schrieber's HM-index) to formulate indoor air quality sensor and disease correlation publication rubrics to critically review 482 articles. Results: A set of 152 articles was found based on systematic review parameters in six bibliometric indices for publications that used WHO, NIH, US EPA, CDC, and FDA-defined principles. Five major respiratory diseases were found to be causing major death toll (up to 32%) due to five key pollutants, measured by 30+ low-cost sensors and further optimized by seven calibration systems for seven practical parameters tailored to respiratory disease baselines evaluated through 10 cost parameters. Impact: This review was conducted to assist end-users, public health facilities, state agencies, researchers, scientists, and air quality protection agencies. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Relationship between Mechanical Ventilation, Indoor Air Quality Classes, and Energy Classes in a Romanian Context.

Author

Vasile, Vasilica, Iordache, Vlad, Radu, Valentin Mihai, and Dragomir, Claudiu-Sorin

Subjects

*INDOOR air quality, *ARTIFICIAL respiration, *AIR quality indexes, *AIR flow, *BUILDING performance, *EXTREME value theory

Abstract

Nowadays, indoor air quality (IAQ) and the energy performance of buildings are two main scientific and technical challenges because they are in direct connection with human health and the depletion of energy resources. In this study, we analyzed the influence of an outdoor air flow introduced through a mechanical ventilation system, focusing on the two aforementioned topics. A standardized ventilation rate (25 m3/h/person) led to an increase in the indoor O3 concentration (from 5 μg/m3 to 50 μg/m3) and, simultaneously, to a decrease in the indoor CO2 concentration (from 2000 mg/m3 to 800 mg/m3), a decrease in the PM2.5 concentration (from 300 μg/m3 to 150 μg/m3), and the maintenance of a constant indoor HCHO concentration. In our study, a new, single indoor air quality index, IIAQ, is proposed. This new index presents different implications: on the one hand, it has the ability to simultaneously take into account several pollutant species, and on the other hand, it can prioritize the ventilation strategy that responds to the extreme values of a certain pollutant. Moreover, indoor air quality classes were elaborated, similar to energy classes. The possibility of using this new index simultaneously with energy consumption may lead to ventilation strategies that are adaptative to dynamic outdoor pollutant concentrations. [ABSTRACT FROM AUTHOR]

Published

2024

33. Unveiling the Air Quality Impacts of Municipal Solid Waste Disposal: An Integrative Study of On-Site Measurements and Community Perceptions.

Author

Pekdogan, Tugce, Yildizhan, Hasan, and Ameen, Arman

Subjects

*WASTE management, *SOLID waste, *AIR quality, *SOLID waste management, *FLAMMABLE limits, *INDOOR air quality, *WELL-being

Abstract

This study examines air quality conditions in and around a classroom located in the Sarıçam/Adana region of Türkiye, near the campus of Adana Alparslan Türkeş Science and Technology University and the Sofulu municipal solid waste (MSW) facility. This academic setting was strategically chosen due to its proximity to the waste facility. The study aims to provide a comprehensive view of the environmental and social impacts of solid waste management through a methodological approach that combines quantitative on-site measurements and qualitative survey studies. Findings from measurements and surveys underline the significant and measurable impacts of MSW facilities on the ambient air quality of university residents. The analysis revealed a marked increase in concentrations of key pollutants, including carbon monoxide (CO), hydrogen sulfide (H2S), dust, and methane (CH4). At sampling point N1, H2S levels rose from 0 ppm in July to 13 ppm in November. Methane increased from 0.2% to 2.5% of the Lower Explosive Limit (LEL) at the same point, although it remained within safety limits. Additionally, CO levels showed a 40% increase, and dust concentration levels rose from 0.21 mg/m3 to 2.36 mg/m3 from summer to winter, indicating a seasonal variation likely influenced by the landfill's operational dynamics, as well as changes in temperature and relative humidity. In particular, the results indicate high concentrations of CO, H2S and dust, which are directly related to air quality degradation. The study also sheds light on the impacts of these waste disposal facilities on the general well-being and health of the university community, particularly on students and staff. In addition to these findings, the study highlights a general lack of awareness in the university community about the impacts of MSW facilities on air quality. This highlights the need for increased education and information dissemination. The results support the development of comprehensive and effective strategies, including technical solutions and public awareness initiatives, to mitigate the impacts of these facilities on residential areas. In conclusion, the impacts of MSW facilities on air quality should be seen as a multidimensional issue that requires a holistic approach addressing environmental, health, social, and educational dimensions. [ABSTRACT FROM AUTHOR]

Published

2024

34. Pollution Levels in Indoor School Environment—Case Studies.

Author

Vasile, Vasilica, Catalina, Tiberiu, Dima, Alina, and Ion, Mihaela

Subjects

*INDOOR air quality, *INDOOR air pollution, *SCHOOL environment, *ENVIRONMENTAL quality, *AIR quality, *VOLATILE organic compounds, *PARTICULATE matter, *AIR pollutants

Abstract

Air quality in school environments is of particular interest due to the significant amount of time children spend in these settings. Children, being a particularly sensitive demographic, are exposed to various pollutants at school or kindergarten. In this regard, our studies have focused on monitoring the concentrations of three main categories of pollutants: VOCs (volatile organic compounds), VICs and PM (particulate matter). We conducted two experimental campaigns in seven classrooms within public educational institutions. The average concentration values of TVOC (total volatile organic compounds) ranged from 554 µg/m3 to 2518 µg/m3, of CO2 from 1055 ppm to 2050 ppm, of NH₃ (Ammonia) from 843.2 µg/m3 to 1403.4 µg/m3, of PM2.5 from 25.1 µg/m3 to 89.9 µg/m3, and of PM10 from 63.7 µg/m3 to 307.4 µg/m3. In most instances, the registered values exceeded the limit values set by national or international regulations. Furthermore, this study highlights the significant impact of a heat recovery ventilation system in improving indoor air quality by substantially reducing the levels of CO2 and PM. However, it also underscores the need for further measures to more efficiently reduce TVOC concentrations. The aim of our paper was to enhance the understanding of pollution levels in school environments, increase awareness of the importance of indoor air quality, and highlight the adverse effects of polluted air on the health of occupants. [ABSTRACT FROM AUTHOR]

Published

2024

35. Fundamentals, Algorithms, and Technologies of Occupancy Detection for Smart Buildings Using IoT Sensors.

Author

Chaudhari, Pratiksha, Xiao, Yang, Cheng, Mark Ming-Cheng, and Li, Tieshan

Subjects

*INTELLIGENT buildings, *MACHINE learning, *ENERGY consumption of buildings, *INDOOR air quality, *INTERNET of things, *INTELLIGENT sensors

Abstract

Smart buildings use advanced technologies to automate building functions. One important function is occupancy detection using Internet of Things (IoT) sensors for smart buildings. Occupancy information is useful information to reduce energy consumption by automating building functions such as lighting, heating, ventilation, and air conditioning systems. The information is useful to improve indoor air quality by ensuring that ventilation systems are used only when and where they are needed. Additionally, it is useful to enhance building security by detecting unusual or unexpected occupancy levels and triggering appropriate responses, such as alarms or alerts. Occupancy information is useful for many other applications, such as emergency response, plug load energy management, point-of-interest identification, etc. However, the accuracy of occupancy detection is limited by factors such as real-time occupancy data, sensor placement, privacy concerns, and the presence of pets or objects that can interfere with sensor reading. With the rapid development of IoT sensor technologies and the increasing need for smart building solutions, there is a growing interest in occupancy detection techniques. There is a need to provide a comprehensive survey of these technologies. Although there are some exciting survey papers, they all have limited scopes with different focuses. Therefore, this paper provides a comprehensive overview of the current state-of-the-art occupancy detection methods (including both traditional algorithms and machine learning algorithms) and devices with their advantages and limitations. It surveys and compares fundamental technologies (such as sensors, algorithms, etc.) for smart buildings. Furthermore, the survey provides insights and discussions, which can help researchers, practitioners, and stakeholders develop more effective occupancy detection solutions for smart buildings. [ABSTRACT FROM AUTHOR]

Published

2024

36. Analysis of public place sanitation in Hainan Province in 2022.

Author

ZENG Yue, HE Chang-hua, LI Yong-zhong, YANG Xi, ZHAO Ren-min, LIANG Qi-chang, FENG Dan, and CHEN Xi

Subjects

*BEAUTY shops, *OXIDATION-reduction potential, *SANITATION, *SHOPPING malls, *SWIMMING pools

Abstract

Objective To analyze the basic hygiene status and main health hazard factors of public places in Hainan Province, so as to provide technical support for promoting health management of public places. Methods The health hazard factors of 200 public places in Hainan Province were monitored in 2022, and the results were statistically analyzed. Results A total of 2 339 samples from public places in Hainan Province were monitored, and the overall qualified rate was 83.9%. There were significant differences in the qualified rates of samples from different types of places (χ#178;=120.63, P < 0.05). Among them, the qualified rates of swimming pools (halls) and hotels (hotels) were relatively low, which were 65.8% and 76.3%, respectively, while the overall qualified rates of the other five types of places were between 85.7% and 96.5%. The main unqualified indexes of indoor air in hotels were formaldehyde, the total number of bacteria, PM10, and PM25. The main unqualified indexes of indoor air in barber shops and beauty shops were ammonia and PM10. The main unqualified index of indoor air in shopping malls (supermarkets) was the total number of bacteria. The total number of bacteria detected in all kinds of public goods and appliances in 6 types of public places exceeded the limit. The unqualified rate of pH value of towels in hotels, beauty shops, and barber shops was 43.2%, 13.6% and 11.4%, respectively. The main unqualified indexes of swimming pool were the pH value of swimming pool water, urea and oxidation-reduction potential, and the unqualified rate of oxidation-reduction potential was 29.6%. Conclusion The hygienic condition of public places in Hainan Province still needs to be improved in 2022. It is suggested that the relevant departments further strengthen the supervision and monitoring of the total number of bacteria, ammonia, PM10, PM25 and formaldehyde in indoor air, the total number of bacteria, coliform group and pH value of towels for public goods, and the redox potential, urea and pH value of swimming pool water. [ABSTRACT FROM AUTHOR]

Published

2024

37. COPD Exposed to Air Pollution: A Path to Understand and Protect a Susceptible Population.

Author

Ryu, Min Hyung, Murphy, Shane, Hinkley, Madison, and Carlsten, Chris

Subjects

*AIR pollution, *CHRONIC obstructive pulmonary disease, *INDOOR air quality, *BIOMASS burning, *AIR quality

Abstract

Air pollution poses a risk to the respiratory health of individuals with COPD. Long- and short-term exposures to higher levels of particulate-rich air pollution are associated with increased COPD exacerbation, hospitalization, and mortality, collectively implicating air pollution as a cause of adverse COPD-related outcomes. This review summarizes the evidence for COPD as a phenotype that confers susceptibility for adverse health outcomes in the face of common air pollution. We highlight how typical contributors to compromised urban air quality, including that from traffic, wildfire smoke, and indoor biomass combustion, adversely affect the COPD patient population. Evidence underscoring the burden of ongoing air pollution exposure on patients with COPD is discussed. We then detail the detrimental impact of that exposure on COPD pathophysiology, which in turn increases the patient's susceptibility. We specifically propose that indoor air is a particularly rational target for increased monitoring and remediation to protect patients with COPD. Because COPD is a heterogeneous disease with several endotypes, future intervention studies need to better include control populations, to highlight COPD-specific risks and identify subpopulations within patients with COPD who will benefit the most from improved indoor air quality. Regulatory efforts must continue to broadly lower emission standards to protect this susceptible population from the negative health impacts of air pollution. [ABSTRACT FROM AUTHOR]

Published

2024

38. Volatile Carbonyl Compounds Emission in Dry-Process Fibreboard: Identification through a Selective GDME-HPLC-DAD-MS/MS Method.

Author

Gonçalves, Fátima Daniela, Martins, Jorge M., Carvalho, Luísa H., Rodrigues, José António, and Ramos, Rui Miguel

Subjects

*CARBONYL compounds, *HIGH performance liquid chromatography, *FOOD aroma, *MASS spectrometry, *BUTYRALDEHYDE, *ACETALDEHYDE

Abstract

This work presents a novel application of gas-diffusion microextraction (GDME) for the extraction and identification of volatile carbonyl compounds from a dry-process fibreboard (MDF) by combining high-performance liquid chromatography with diode array detection (HPLC–DAD) and mass spectrometry (MS). GDME is a simple, inexpensive, and environmentally friendly technique that allows the simultaneous extraction and derivatization with 2,4-dinitrophenylhydrazine (DNPH) of selected volatiles. The extraction conditions were optimized using design of experiments through a 24 full fractional design followed by a Box–Behnken design, resulting in 35 min of extraction at 45 °C using 500 µL of DNPH 0.15%. The analysis of commercial MDF samples with different characteristics, such as thickness or colour, showed a distinct emission profile of volatile carbonyls. The principal emitting compounds found were formaldehyde, acetaldehyde, acetone, butanal, pentanal, hexanal, heptanal, octanal, and nonanal. A total of 25 compounds were identified using MS, including saturated and unsaturated aldehydes, ketones, dicarbonyls, and benzaldehyde-derivatives. This method can be a valuable tool for the qualitative evaluation of VOCs released from wood-based panels and for the assessment of indoor-air quality. [ABSTRACT FROM AUTHOR]

Published

2024

39. Analysis of the Energy Consumption for Heating in Schools.

Author

Sinakovics, M., Zajacs, A., Palcikovskis, A., and Jacnevs, V.

Subjects

*ENERGY consumption, *INDOOR air quality

Abstract

The aim of the study is to analyse energy consumption for heating in set of the school buildings. Data analysis includes three data sets – predictions from energy performance certificates (EPC), measured data from heat meters and measured climate corrected data. Data sets were statistically checked and processed and represented graphically. The actual energy consumption differs from the one stated in the EPCs in all cases, which means that schools consume on average 15 % more energy than it is stated in the EPC. Overall, the data reveal that the actual energy consumption differs from the theoretical consumption, with all schools having higher actual consumption than the theoretical values. The differences in the data sets are discussed, and possible improvements are suggested taking into account strong relation between energy consumption and indoor air quality. [ABSTRACT FROM AUTHOR]

Published

2024

40. Numerical and experimental investigation of flow patterns and thermal comfort in air conditioned conferences hall at University of Anbar.

Author

Mudher, Mohaned Ahmed and Alashaab, Ahmed Ali Najeeb

Subjects

*THERMAL comfort, *AIR conditioning, *COMPUTATIONAL fluid dynamics, *NATURAL ventilation, *INDOOR air quality, *THERMAL instability, *AIR flow, *AIR pollutants

Abstract

In the current work numerical and experimental study are conducted to investigate the flow behaviour and thermal comfort in climate-controlled conference hall situated at University of Anbar. In the first part of the study, numerical investigation is conducted to understand the impact of the air conditioning supply and extracts openings locations on the physical characteristics of the air flow within the conference hall. Moreover, the study investigates the optimal location of the air conditioning units within the system. In this work the main emphases are to study the flow dynamics of the air and the thermal behaviour inside the conference hall with large number of audiences inside it. Typically, the efficiency of an air flow system is evaluated by the successful removal of sensible and latent loads from the system under control. In addition, to maintain the level of air pollutant at a prescribed accepted level to assure the optimal human thermal comfort conditions. This will improve the indoor air quality and the thermal comfort for the audience which is the main goal of the present study. The numerical part of the study is carried out using computational fluid dynamics (CFD) simulation approach. To attain this part, commercially available CFD software ANSYS\Fluent is used. The numerical modelling techniques solved the continuity, momentum, and energy conservation equations. The k – ε model is used to tackle the turbulent nature of the flow studied in this case. The second part of this study is achieved by measuring the velocity, air temperature and relative humidity experimentally by means of the calibrated instruments. The validation of the used approaches is carried out through comparing the attained numerical and experimental results. Good agreement is found between the numerical and experimental predictions obtained during the present work. [ABSTRACT FROM AUTHOR]

Published

2024

41. Better out than in?

Author

Lawton, Graham

Subjects

*INDOOR air pollution, *INDOOR air quality, *EXERCISE equipment, *EDIBLE fats & oils, *SICK building syndrome, *TOBACCO smoke, *AIR quality monitoring

Abstract

"People think that air fresheners, incense and essential oils are good for indoor air quality, that they will clean the air and degrade pollutants, but no, they emit pollution", says Mandin. "We're being exposed to multiple chemicals simultaneously in the indoor environment and we have chemical-chemical interactions that are not fully understood", says Dorman. Features AS I weave through the London traffic on my bike, I always worry about the filthy air I am breathing. "There's literally thousands of chemicals that might exist in the indoor environment, and for many of those chemicals, we have very little information regarding their toxicity", says David Dorman at North Carolina State University, lead author of the NAS report. [Extracted from the article]

Published

2023

42. Bronchiolitis recovery and the use of High Efficiency Particulate Air (HEPA) Filters (The BREATHE Study): study protocol for a multi-center, parallel, double-blind, randomized controlled clinical trial.

Author

Cowan, Kelly, Semmens, Erin O., Lee, Jeannette Y., Walker, Ethan S., Smith, Paul G., Fu, Linda, Singleton, Rosalyn, Cox, Sara McClure, Faiella, Jennifer, Chassereau, Laurie, Lawrence, Lora, Ying, Jun, Baldner, Jaime, Garza, Maryam, Annett, Robert, Chervinskiy, Sheva K., and Snowden, Jessica

Subjects

*CLINICAL trials, *INDOOR air pollution, *BRONCHIOLITIS, *SYMPTOM burden, *INDOOR air quality

Abstract

Background: Acute viral bronchiolitis is the most common reason for hospitalization of infants in the USA. Infants hospitalized for bronchiolitis are at high risk for recurrent respiratory symptoms and wheeze in the subsequent year, and longer-term adverse respiratory outcomes such as persistent childhood asthma. There are no effective secondary prevention strategies. Multiple factors, including air pollutant exposure, contribute to risk of adverse respiratory outcomes in these infants. Improvement in indoor air quality following hospitalization for bronchiolitis may be a prevention opportunity to reduce symptom burden. Use of stand-alone high efficiency particulate air (HEPA) filtration units is a simple method to reduce particulate matter ≤ 2.5 µm in diameter (PM2.5), a common component of household air pollution that is strongly linked to health effects. Methods: BREATHE is a multi-center, parallel, double-blind, randomized controlled clinical trial. Two hundred twenty-eight children < 12 months of age hospitalized for the first time with bronchiolitis will participate. Children will be randomized 1:1 to receive a 24-week home intervention with filtration units containing HEPA and carbon filters (in the child's sleep space and a common room) or to a control group with units that do not contain HEPA and carbon filters. The primary objective is to determine if use of HEPA filtration units reduces respiratory symptom burden for 24 weeks compared to use of control units. Secondary objectives are to assess the efficacy of the HEPA intervention relative to control on (1) number of unscheduled healthcare visits for respiratory complaints, (2) child quality of life, and (3) average PM2.5 levels in the home. Discussion: We propose to test the use of HEPA filtration to improve indoor air quality as a strategy to reduce post-bronchiolitis respiratory symptom burden in at-risk infants with severe bronchiolitis. If the intervention proves successful, this trial will support use of HEPA filtration for children with bronchiolitis to reduce respiratory symptom burden following hospitalization. Trial registration: NCT05615870. Registered on November 14, 2022. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Impact of Indoor Environmental Quality on Occupant Satisfaction in Commercial Buildings: A Comparison of Building Expert Opinions and Residents' Experiences.

Author

Mokhtariyan Sorkhan, Fatemeh, Roumi, Soheil, Soltanzadeh Zarandi, Mohammad, and Ashraf Ganjouei, Mohammad Ali

Subjects

*COMMERCIAL buildings, *ENVIRONMENTAL quality, *ANALYTIC hierarchy process, *SATISFACTION, *INDOOR air quality, *THERMAL comfort

Abstract

This paper investigates the Indoor Environmental Quality (IEQ) factors influencing occupant satisfaction in commercial buildings in Iran, contrasting the views of building experts (architects and engineers) with those of building occupants. Employing the fuzzy analytical hierarchy process (FAHP), this study focuses on the four primary IEQ factors: thermal comfort, indoor air quality, visual comfort, and acoustic comfort. The study aims to bridge the gap between expert evaluations and occupant perceptions of IEQ factors in commercial buildings in Iran. By examining the disparities in prioritising IEQ factors between these two groups, the study sheds light on the complexities of IEQ assessment and highlights the importance of considering diverse perspectives in optimising indoor environments. Our methodology includes a survey conducted among 30 building experts (15 architects and 15 building engineers) and 102 occupants, employing FAHP to derive the relative importance weights of each IEQ factor. The results highlight significant disparities between architects, engineers, and occupants in prioritising these factors. Architects emphasise visual comfort (42%), while engineers and occupants view thermal comfort (53% and 41%) as the most crucial factor for occupant satisfaction. The study underscores the complexity of IEQ in commercial buildings and the diverse perspectives influencing its assessment. It contributes to the broader discourse on optimising IEQ, emphasising the need for a comprehensive approach that encompasses both technical expertise and occupant experience. [ABSTRACT FROM AUTHOR]

Published

2024

44. Association of Perceived Thermal Comfort and Air Quality with Building- and Occupant-Related Characteristics and Environmental Parameters in Sweden.

Author

Psomas, Theofanis, Teli, Despoina, Donovan, Adam O', Kolias, Pavlos, and Langer, Sarka

Subjects

*THERMAL comfort, *AIR quality, *INDOOR air quality, *DWELLINGS, *REGRESSION analysis, *LOGISTIC regression analysis

Abstract

The aim of the article is to analyze the perceived thermal comfort and indoor air quality of occupants and establish associations between these responses and the building-related, occupant-related characteristics, and environmental parameters of residential buildings (a total of 38 variables). The analysis is focused on the Swedish building stock as investigated during the latest national survey in 2008. The analysis covers 1035 residential buildings (multifamily and single-family dwellings). Analytical statistical analysis has been conducted, and logistic regression models have also been developed for the identification of statistically significant covariates. The analysis showed that users in this study demonstrated a significantly positive response to perceived thermal comfort and indoor air quality conditions. Perceived ratings were also highly correlated with each other. As the regression models indicated, the majority of the significant variables were related to the buildings. Nevertheless, this study also underscores the significance of contextual occupant attributes and behaviors as a crucial element influencing the subjective perception of indoor environments. Policymakers, guided by these insights, are encouraged to integrate considerations of occupant attributes into design and urban planning. [ABSTRACT FROM AUTHOR]

Published

2024

45. Experimental and numerical study for assessment indoor air quality by adopting mixing ventilation with different occupants' density in Iraq hot climates.

Author

SABR, Atheer Hmaizah, MAHDI, Alaa Abbas, and ALJIBORY, Mohammed Wahhab

Subjects

*INDOOR air quality, *THERMAL comfort, *VENTILATION, *AIR speed, *SITTING position, *CALORIMETRY

Abstract

In this research, thermal of level comfort and air quality indoor were examined for different numbers of persons (occupants' density) within a (3m × 2.5m × 2.5 m) office room. The office room is equipped with mixing ventilation system, temperature and air speed (17 °C) and (2.5 m/s) respectively. The results of experimental experiments and results were compared with computational fluid-dynamics (CFD) analysis utilizing the turbulent (RNG, k-epsilon) model on a thermal manikin that represents a person's body in a standing and sitting and position. The experimental study focused on measuring the velocity, air temperature, and carbon dioxide (CO2) concentration in different areas indoor the room, in addition to taking measurements around the heat manikins and in the breathing area. When analyzing numerical data, thermal of level comfort was assessed by air diffusion of performance Index (ADPI), predicted of percentage dissatisfied (PPD), and predicted of mean vote (PMV). The results indicate that thermal comfort and indoor air quality decline with more persons. Where the values of (ADPI), (PPD) and (PMV) change from (76.55 %), (6.325 %) and (0.021) to (64.25 %), (10.412 %) and (0.52) respectively, when the number of persons in the room increased from (two persons) to (four persons). [ABSTRACT FROM AUTHOR]

Published

2024

46. Lime thermal plasters and energy efficiency in traditional buildings : Ancient materials combined to optimise building performance.

Author

Crosson, Niall

Subjects

*BUILDING performance, *ENERGY consumption, *INDOOR air quality, *PLASTER, *CARBON emissions, *RETROFITTING, *NATURAL ventilation, *COMMERCIAL buildings

Abstract

Traditional buildings have a central role to play in Europe's plans to be the first climate-neutral continent by 2050, with the building sector being the single largest energy consumer in the EU with 40 per cent of total energy use. Seventy-five per cent of the existing housing stock is energy inefficient with minute numbers renovated each year. Existing buildings offer huge potential for energy use reduction. Research has shown that a historic retrofit can emit less carbon compared to demolishment and rebuilding. Reductions in carbon emissions of up to 62 per cent were observed across a body of case studies by Historic England, including a 95 per cent reduction in the mews case study described in this paper. Moreover, carefully managed thermal retrofits, taking a 'whole house approach', have many benefits, including improved indoor comfort and air quality as well as reduced operational costs. These are factors which are fundamental in ensuring the continued use of historic constructions while improving their standards of preservation and durability. Thermally upgrading traditional building is still a much-debated topic. Inappropriate thermal interventions with unsuitable materials and finishes can have unforeseen consequences, resulting in building damage and a reduction in internal comfort, health and well-being. This paper aims to contribute to this discussion by providing an overview of key considerations when thermally upgrading the walls of traditional buildings while preserving unique characteristics and functionality. Advantages of adopting thermal mortars such as cork lime are put forward, and their potential efficacy is discussed, concluding with a case study focusing on the deep retrofit of a London mews within a conservation area. [ABSTRACT FROM AUTHOR]

Published

2024

47. New Methodology to Evaluate and Optimize Indoor Ventilation Based on Rapid Response Sensors.

Author

Durán del Amor, María del Mar, Baeza Caracena, Antonia, Esquembre, Francisco, and Llorens Pascual del Riquelme, Mercedes

Subjects

*MINE ventilation, *VENTILATION, *PUBLIC spaces, *WEB-based user interfaces, *DETECTORS

Abstract

The recent pandemic increased attention to the need for appropriated ventilation and good air quality as efficient measures to achieve safe and healthy indoor air. This work provides a novel methodology for continuously evaluating ventilation in public areas using modern rapid response sensors (RRS). This methodology innovatively assesses the ventilation of a space by combining a quantitative estimation of the real air exchange in the space—obtained from CO2 experimental RRS measurements and the characteristics of and activity in the space—and indoor and outdoor RRS measurements of other pollutants, with healthy recommendations from different organisations. The methodology allows space managers to easily evaluate, in a continuous form, the appropriateness of their ventilation strategy, thanks to modern RRS measurements and direct calculations (implemented here in a web app), even in situations of full activity. The methodology improves on the existing standards, which imply the release of tracer gases and expert intervention, and could also be used to set a control system that measures continuously and adapts the ventilation to changes in indoor occupancy and activity, guaranteeing safe and healthy air in an energy-efficient way. Sample public concurrence spaces with different conditions are used to illustrate the methodology. [ABSTRACT FROM AUTHOR]

Published

2024

48. A Multisensor Device Intended as an IoT Element for Indoor Environment Monitoring.

Author

Szczurek, Andrzej, Gonstał, Dawid, and Maciejewska, Monika

Subjects

*GSM communications, *INTERNET of things, *ETHERNET, *GAS detectors, *VOLATILE organic compounds, *MOBILE apps, *DATA warehousing

Abstract

This work presents a multisensor device which is intended as an element of IoT for indoor environment (IE) monitoring. It is a portable, small-size, lightweight, energy-efficient direct-reading instrument. The device has an innovative design and construction. It offers real-time measurements of a wide spectrum of physical and chemical quantities (light intensity, temperature, relative humidity, pressure, CO2 concentration, content of volatile organic compounds including formaldehyde, NO2, and particulate matter), data storage (microSD; server as an option), transmission (WiFi; GSM and Ethernet as options), and visualization (smartphone application; PC as an option). Commercial low-cost sensors were utilized, which have been arranged in the individual sensing modules. In the case of gas sensors, dynamic exposure was chosen to ensure a minimum response time. The MQTT protocol was applied for data transmission and communication with other devices, as well as with the user. The multisensor device can collect huge amounts of data about the indoor environment to provide the respective information to the IoT. The device can be configured to control actuators of various auxiliary devices and equipment including external systems used for ventilation, heating, and air conditioning. The prototype is fully operational. The exemplary results of IE monitoring were shown. [ABSTRACT FROM AUTHOR]

Published

2024

49. Selective flexible sensor for monitoring volatile organic compounds in museum display cases.

Author

Serpente, Valerio, Girolami, Marco, Mastellone, Matteo, Sabbatella, Gianfranco, Vitulano, Aniello, Staccioli, Maria Paola, Riccucci, Cristina, Carlo, Gabriella Di, and Trucchi, Daniele Maria

Subjects

*VOLATILE organic compounds, *MUSEUM exhibits, *DETECTORS, *FORMIC acid, *ACETIC acid

Abstract

• Corrosion sensors for VOC based on flexible substrate are proposed for the first time. • Results show sensitivity <1 ppm and linear response behavior. • For the first time, different materials are combined on the same substrate into a multisensor. • The multisensor is able to discriminate among different classes of VOC. Aim of this work is the development of a new kind of corrosion sensors, based on low-cost flexible substrates, specifically designed to detect Volatile Organic Compounds (VOCs) producing significant degradation of artifacts in museum display cases. Sensors have been fabricated and tested in relevant environment with three of the most relevant VOCs (acetic acid, formic acid and formaldehyde) to the artifacts preservation. Sensitivity has been measured to be lower than 1 ppm, which is several times better than what reported in the literature on corrosion sensors for the same VOCs. In addition, different sensors, arranged with different active materials, have been implemented for the first time into a so-called multi-sensor architecture, aimed at demonstrating VOC specificity: in particular, we report here on a preliminary test in which the multi-sensor has been able to be selective between acetic acid and formaldehyde. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

50. Model-Based Demand Control Ventilation for a Gun Range.

Author

Shen, Hui, Hill, Dustin A., Hu, Yifeng, Geng, Mina, Liu, Xiaoyu, and Li, Haorong

Subjects

*RIFLE-ranges, *INDOOR air quality, *GUN control, *HEATING load, *ENVIRONMENTAL health, *CARBON monoxide

Abstract

Gun ranges in the United States are underinvestigated regarding indoor air quality (IAQ) and energy efficiency. Navy Environmental Health Center (NEHC), National Guard Bureau (NGB), and Air Force Civil Engineer Support Agency (AFCESA) recommend using 100% outdoor air, but this measure will cause prohibitive energy costs since indoor gun ranges must maintain a low air velocity ranging from 0.25 to 0.36 m/s and a supply temperature close to the range target temperature. Hence, typical commercial firing ranges use a fixed outdoor air ratio (OAR) ranging from 25% to 30% together with high-efficiency particulate air filtration to save energy. This OAR is arbitrary and not supported by any standards or guidelines. To obtain reliable control of contaminant levels and better energy efficiency, we propose a model-based demand control ventilation feedback control strategy in which carbon monoxide is monitored and controlled as a proper IAQ indicator around the clock. Our 52-day field study demonstrates that our demand control ventilation control strategy can ensure proper IAQ, reduce the OAR from 30% to as low as 2.5%, and cut up to 85% cooling load and 70% heating load introduced by ventilation. Indoor gun ranges in the United States often struggle with keeping the air clean and energy costs down. Existing recommendations suggest using a lot of outdoor air for ventilation, but this can be expensive because gun ranges need to maintain specific air conditions. Most gun ranges use a fixed amount of outdoor air and special filters to save energy, even though there are no clear guidelines for this. To tackle these issues, we have come up with a smart ventilation system. It constantly checks the air for carbon monoxide, a sign of bad air quality. Our 52-day study showed that this system works considerably well. It keeps the air clean, reduces the need for outdoor air substantially, and cuts down on heating and cooling costs. This means that indoor gun ranges can have clean air and save energy at the same time. It is a practical and efficient solution for making indoor shooting ranges safer and more cost-effective. [ABSTRACT FROM AUTHOR]

Published

2024