Formation and Emissions of Volatile Organic Compounds from Homo-PP and Co-PP Resins during Manufacturing Process and Accelerated Photoaging Degradation

Volatile organic compounds (VOCs) from polypropylene (PP) seriously restricts the application of PP in an automotive field. Herein, the traceability of VOCs from PP resins during manufacturing process and accelerated photoaging degradation was clarified on basis of an accurate characterization method of key VOCs. The influence of PP structures on changing the accelerated photoaging degradation on the VOCs was systematic. The VOCs were identified by means of Gas chromatography (GC) coupled with both a hydrogen flame ion detector (FID) and a mass spectrometry detector (MSD). Results showed that both the molecular structure of PP and the manufacturing process affected the species and contents of VOCs. In addition, the photoaging degradation of PP resulted in a large number of new emerged volatile carbonyl compounds. Our work proposed a possible VOC formation mechanism during the manufacturing and photoaging process. VOCs from PP resins were originated from oligomers and chain random scission during thermomechanical degradation. However, β scission of alkoxy radical and Norrish tape I reactions of ketones via intermediate transition were probably the main VOCs formation routes towards PP during photoaging degradation. This work could provide scientific knowledge on both the accurate traceability of VOCs emissions and new technology for development of low-VOCs PP composites for vehicle.

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Selected problems concerning volatile organic compounds emission reduction from thick-veneer pine plywood

Annals of WULS, Forestry and Wood Technology ◽

10.5604/01.3001.0014.6419 ◽

2020 ◽

Vol 111 ◽

pp. 131-20

Author(s):

Martyna Dyrwal ◽

Piotr Borysiuk

Keyword(s):

Volatile Organic Compounds ◽

Organic Compounds ◽

Carbonyl Compounds ◽

Emission Reduction ◽

Caproic Acid ◽

Emission Rates ◽

Wood Material ◽

Soaking Time ◽

Volatile Organic ◽

Higher Temperature

Selected problems concerning volatile organic compounds emission reduction from thick-veneer pine plywood. The paper presents results of research conducted on volatile organic compounds emissions, considering two different production parameter sets for thick-veneer pine plywood, manufactured in industrial conditions. Both types of plywood were produced from raw wood material, which was hydrothermally treated under two different variants of parameters (I – 47˚C, 19 h; II – 55˚C, 24 h). Based on the results it was stated that severe hydrothermal treatment of raw wood material (longer soaking time, higher temperature) had impact on reduction of plywood VOC emission rates. Main VOCs emitted from pine plywood were monoterpenes and carbonyl compounds. Of the monoterpenes, α-pinene and 3-carene had the highest emission. Of the carbonyl group of compounds, the highest emission had hexanal and caproic acid.

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UTILIZATION OF NEW TECHNOLOGIES IN AN OHIO RIVER SPILLS DETECTION SYSTEM

International Oil Spill Conference Proceedings ◽

10.7901/2169-3358-1997-1-323 ◽

1997 ◽

Vol 1997 (1) ◽

pp. 323-327

Author(s):

Jonathan A. McSayles ◽

Isabel E. Caputa ◽

Peter A. Tennant

Keyword(s):

Volatile Organic Compounds ◽

Organic Compounds ◽

New Technologies ◽

Detection System ◽

New Technology ◽

Ohio River ◽

Water Users ◽

Ideal System ◽

Volatile Organic ◽

And Control

ABSTRACT The Organics Detection System (ODS) is a spill detection network cooperatively operated by the Ohio River Valley Water Sanitation Commission (ORSANCO), 11 water utilities, and 3 industries at strategic locations along the Ohio, Allegheny, Monongahela, and Kanawha rivers. The ODS uses purge and trap gas chromatography to analyze for 20 volatile organic compounds (US EPA, 1986). Since its inception in 1977, the network has undergone several advancements in its ability to monitor, analyze, and detect volatile organic compounds in the Ohio River. The present instrumentation used in the network was purchased from 1986 through 1990. The network's capabilities have progressed to the monitoring of raw intake water 24 hours a day, 7 days a week and processing raw data with computers. The most noticeable advance has been in the use of computers to manipulate chromatograms, generate final reports, and transfer information. Additionally, computers and modems have enhanced communication between ORSANCO and ODS locations by accelerating the dissemination of information to downstream water users, allowing the observation of chromatograms and general troubleshooting. New technology under consideration includes the ability to remotely control a gas Chromatograph, incorporate automated check samples, and control alarm settings and the notification of such alarms. The ideal system would run independently until one of two conditions occurred—a compound exceeded the alarm threshold, or there was an instrument malfunction.

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