Literature DB >> 9082994

The atmospheric aerosol-forming potential of whole gasoline vapor.

J R Odum1, T P Jungkamp, R J Griffin, R C Flagan, J H Seinfeld.   

Abstract

A series of sunlight-irradiated, smog-chamber experiments confirmed that the atmospheric organic aerosol formation potential of whole gasoline vapor cna be accounted for solely in terms of the aromatic fraction of the fuel. The total amount of secondary organic aerosol produced from the atmospheric oxidation of whole gasoline vapor can be represented as the sum of the contributions of the individual aromatic molecular constituents of the fuel. The urban atmospheric, anthropogenic hydrocarbon profile is approximated well by evaporated whole gasoline, and thus these results suggest that it is possible to model atmospheric secondary organic aerosol formation.

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Year:  1997        PMID: 9082994     DOI: 10.1126/science.276.5309.96

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  11 in total

1.  Transformation of atmospheric ammonia and acid gases into components of PM₂.₅: an environmental chamber study.

Authors:  Sailesh N Behera; Mukesh Sharma
Journal:  Environ Sci Pollut Res Int       Date:  2011-10-20       Impact factor: 4.223

2.  Partitioning phase preference for secondary organic aerosol in an urban atmosphere.

Authors:  Wayne L Chang; Robert J Griffin; Donald Dabdub
Journal:  Proc Natl Acad Sci U S A       Date:  2010-02-22       Impact factor: 11.205

3.  Images reveal that atmospheric particles can undergo liquid-liquid phase separations.

Authors:  Yuan You; Lindsay Renbaum-Wolff; Marc Carreras-Sospedra; Sarah J Hanna; Naruki Hiranuma; Saeid Kamal; Mackenzie L Smith; Xiaolu Zhang; Rodney J Weber; John E Shilling; Donald Dabdub; Scot T Martin; Allan K Bertram
Journal:  Proc Natl Acad Sci U S A       Date:  2012-07-30       Impact factor: 11.205

4.  Evaluation of the optimum volatile organic compounds control strategy considering the formation of ozone and secondary organic aerosol in Seoul, Korea.

Authors:  H J Shin; J C Kim; S J Lee; Y P Kim
Journal:  Environ Sci Pollut Res Int       Date:  2012-08-12       Impact factor: 4.223

5.  Influence of vapor wall loss in laboratory chambers on yields of secondary organic aerosol.

Authors:  Xuan Zhang; Christopher D Cappa; Shantanu H Jathar; Renee C McVay; Joseph J Ensberg; Michael J Kleeman; John H Seinfeld
Journal:  Proc Natl Acad Sci U S A       Date:  2014-04-07       Impact factor: 11.205

6.  Laboratory evaluation of a prototype photochemical chamber designed to investigate the health effects of fresh and aged vehicular exhaust emissions.

Authors:  Vasileios Papapostolou; Joy E Lawrence; Edgar A Diaz; Jack M Wolfson; Stephen T Ferguson; Mark S Long; John J Godleski; Petros Koutrakis
Journal:  Inhal Toxicol       Date:  2011-07       Impact factor: 2.724

7.  Hydrogen abstraction mechanisms and reaction rates of toluene+NO3.

Authors:  Yongmei Ma; Kehe Su; Jin Zhang; Yanli Wang; Xin Wang; Yan Liu
Journal:  J Mol Model       Date:  2015-07-23       Impact factor: 1.810

Review 8.  Emerging Major Role of Organic Aerosols in Explaining the Occurrence, Frequency, and Magnitude of Haze and Fog Episodes during Wintertime in the Indo Gangetic Plain.

Authors:  Tarun Gupta; Pradhi Rajeev; Rashmi Rajput
Journal:  ACS Omega       Date:  2022-01-05

9.  Public health impacts of secondary particulate formation from aromatic hydrocarbons in gasoline.

Authors:  Katherine von Stackelberg; Jonathan Buonocore; Prakash V Bhave; Joel A Schwartz
Journal:  Environ Health       Date:  2013-02-20       Impact factor: 5.984

10.  Differential toxicities of fine particulate matters from various sources.

Authors:  Minhan Park; Hung Soo Joo; Kwangyul Lee; Myoseon Jang; Sang Don Kim; Injeong Kim; Lucille Joanna S Borlaza; Heungbin Lim; Hanjae Shin; Kyu Hyuck Chung; Yoon-Hyeong Choi; Sun Gu Park; Min-Suk Bae; Jiyi Lee; Hangyul Song; Kihong Park
Journal:  Sci Rep       Date:  2018-11-19       Impact factor: 4.379
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