Title: | VOC Emission Analysis of Bitumen Using Proton-Transfer Reaction Time-Of-Flight Mass Spectrometry |
Author(s): | Borinelli JB; Blom J; Portillo-Estrada M; Kara De Maeijer P; Van den Bergh W; Vuye C; |
Address: | "Road Engineering Research Section (RERS), EMIB, Faculty of Applied Engineering, University of Antwerp, 2020 Antwerp, Belgium. Research Group PLECO (Plants and Ecosystems), Faculty of Science, University of Antwerp, 2610 Wilrijk, Belgium" |
ISSN/ISBN: | 1996-1944 (Print) 1996-1944 (Electronic) 1996-1944 (Linking) |
Abstract: | "Bitumen is one of the most important materials used in roads. During asphalt pavement construction, workers can be affected by emissions, such as volatile organic compounds (VOCs), when bitumen is heated. Therefore, it is crucial to correctly identify and measure VOCs. This paper presents a novel, promising method to determine VOC emissions. The proposed method offers a way to standardize routine measurements on a lab scale, enabling reliable comparison across bitumen types and their modifications or additives. A proton-transfer reaction time-of-flight mass spectrometer (PTR-TOF-MS) was used to monitor VOC emissions from commercial unmodified bitumen and crumb rubber modified bitumen (CRMB) with heating of up to 180 degrees C. Results confirmed that the temperature range of 160-180 degrees C is a highly influential factor for VOC emissions from heated commercial bitumen and particularly CRMB. A significant increase in alkane and aromatic emission was detected when the binders were heated to 180 degrees C. Sulfur-containing VOCs were almost nonexistent for the base bitumen fumes, while a significant increase was detected in the fumes when two different types of CR were added to the bitumen, even at 120 degrees C. The additional CR in the bituminous binder contributed to the potentially harmful VOC emission of benzothiazole, which belongs to the class of sulfur-containing compounds. The concentration of benzothiazole was 65%, 38%, and 35% higher for CR1 in comparison to CR2 at 140, 160, and 180 degrees C, respectively. It is clear from the results that this method allows different bitumen sources or modifications to be quickly analyzed and their VOC emissions cross-compared. If adopted and confirmed further, the method could offer the asphalt industry a viable solution to monitor VOC emissions by analyzing samples in real time at different steps of the production process" |
Keywords: | bitumen fumes crumb rubber modified bitumen (CRMB) proton-transfer reaction time-of-flight mass spectrometry (PTR-TOF-MS) volatile organic compounds (VOCs); |
Notes: | "PubMed-not-MEDLINEBorinelli, Jaffer Bressan Blom, Johan Portillo-Estrada, Miguel Kara De Maeijer, Patricia Van den Bergh, Wim Vuye, Cedric eng KBS/2019-E1170430-212694/Green.er/ Switzerland 2020/08/23 Materials (Basel). 2020 Aug 19; 13(17):3659. doi: 10.3390/ma13173659" |