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An integrated health risk assessment with control banding for nanomaterials exposure

Halil, Norsuzieanah ; Rusli, Risza ; Zainal Abidin, Mardhati ; [et al.]

Wiley ; 2022

In: Process Safety Progress Vol. 41, No. S1 ( 2022-04)

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In: Process Safety Progress, Wiley, Vol. 41, No. S1 ( 2022-04)

Abstract: Nanomaterials are known to cause biological effects to humans through various routes of exposure such as injection, intravenous, oral, and inhalation. The risk analyses through conventional qualitative or semi‐quantitative approaches, such as control banding tools with limited safety data, and information on the risks posed by nanomaterials, have created uncertainties in decision‐making by various stakeholders. Therefore, an integrated Nanomaterial Risk (NanoRisk) framework that incorporates the Bayesian Network (BN) model, control banding, and process parameters focusing on humidity, the mass of nanomaterials, and operating temperatures was developed to assess the hazards of nanomaterials and their potential biological effects to human health as a result of exposure. The proposed risk assessment was applied to nanomaterials used in the paint and coating industry (nano‐silica, nano‐titanium, and nano‐silver), and the nodes of the BN model were constructed from physiochemical properties, biological effects, routes of exposure, and types of studies extracted from published data. The flexible analytic approach of the BN model allows for a valuable prediction of hazard exposure towards nanomaterials, thus facilitating decision‐making. Furthermore, the integrated framework proposes suitable control measures to reduce the hazard exposure according to the hazard level at different modes of operation. The distinctive feature of NanoRisk demonstrates comprehensive analysis and results that are comparable with previously developed methods.

Type of Medium: Online Resource

ISSN: 1066-8527 , 1547-5913

URL: Issue

URL: Article

DOI: 10.1002/prs.v41.S1

DOI: 10.1002/prs.12327

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 2054500-9

SSG: 12

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Ultrafine Particles Measurement in Printing Industry Across West Malaysia

Jamen, Shahrulnizam ; Makmom Abdullah, Ahmad

Science Publishing Corporation ; 2018

In: International Journal of Engineering & Technology Vol. 7, No. 3.24 ( 2018-08-10), p. 68-

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In: International Journal of Engineering & Technology, Science Publishing Corporation, Vol. 7, No. 3.24 ( 2018-08-10), p. 68-

Abstract: Ultrafine particles (UFPs) emission generated from devices such as printer and photocopy machines are known as potential risks to human health. However, limited information is available to study UFPs exposure generate from larger printer. Thus, this study aimed to determine the concentration of UFPs such as particle number (PN) and lung deposited surface area (LDSA) and investigates the influence of physical environment factors on UFPs in two types of offset lithographic printing rooms such as monochrome and color, across West Malaysia. The measurements of PN and LDSA were taken by using a condensation particle counter and the diffusion charger dosimeter during the printing activities. The mean values for PN and LDSA are 22215 particles/cm3 and 43 µm2/cm3, respectively. The exposure of UFPs from the monochrome room was found to be significantly higher than the color room (p 〈 0.001 for PN; p 〈 0.001 for LDSA) due to variation in the ventilation system. Based on correlation analysis, the physical environment factors, such as relative humidity, temperature, and air movement, were observed to influence the UFPs concentrations in printing room. The findings imply that a good selection of the ventilation system is important to minimize worker’s exposure to UFPs emission.

Type of Medium: Online Resource

ISSN: 2227-524X

URL: Issue

URL: Article

DOI: 10.14419/ijet.v7i3.24

DOI: 10.14419/ijet.v7i3.24.17303

Language: Unknown

Publisher: Science Publishing Corporation

Publication Date: 2018

detail.hit.zdb_id: 2661563-0

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DEVELOPMENT OF AGRO-BASED NANOFILTERS TO CAPTURE SUSPENDED TITANIUM IN AIR

JAMEN, SHAHRULNIZAM ; National Institute of Occupational Safety and Health ; SHAMSUL HARUMAIN, ZAKUAN AZIZI ; [et al.]

Penerbit UMT, Universiti Malaysia Terengganu ; 2022

In: JOURNAL OF SUSTAINABILITY SCIENCE AND MANAGEMENT Vol. 17, No. 12 ( 2022-12-31), p. 24-39

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In: JOURNAL OF SUSTAINABILITY SCIENCE AND MANAGEMENT, Penerbit UMT, Universiti Malaysia Terengganu, Vol. 17, No. 12 ( 2022-12-31), p. 24-39

Abstract: Nanosilica and nanozeolite synthesised from rice husk (RH) were investigated for their potential to develop a low-cost nanofilter membrane as an alternative to replace nylon membrane used in the Nanoparticle Respiratory Deposition (NRD) sampler for capturing titanium dioxide (TiO2) nanoparticles suspended in the air. Due to its exceptional adsorption capacity to many inorganic materials, graphene oxide was also investigated for its potential to capture the TiO2 nanoparticles to compare its performance with the newly developed agro-based nanofilters. All nanofillers were developed by depositing the synthesised nanomaterials on a polyvinylidene fluoride (PVDF) membrane using the layer deposition method and characterised by Field Emission Scanning Microscopy/Energy Dispersive X-ray (FESEM-EDX) analysis. Each nanofilters developed were exposed to TiO2 nanoparticles for 15 minutes with an average airflow of 2.5 L/minutes and were compared with the conventional nylon membrane used in NRD. Among all nanofilters developed, nanozeolite filter (0.1% w/v) showed the highest concentration of Ti captured (81.7 μg/g) compared to nanosilica (56.7 μg/g) and graphene oxide (8.2 μg/g) filters. Interestingly, all developed nanofilters did not show any presence of Ti in their background levels, further suggesting its purity in capturing Ti nanoparticles in the air.

Type of Medium: Online Resource

ISSN: 1823-8556 , 2672-7226

URL: Issue

URL: Journal

URL: Article

DOI: 10.46754/jssm.2022.12.01

DOI: 10.46754/jssm

DOI: 10.46754/jssm.2022.12.004

Language: Unknown

Publisher: Penerbit UMT, Universiti Malaysia Terengganu

Publication Date: 2022

detail.hit.zdb_id: 2641420-X

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