Main Title |
Photochemical modeling of methanol-use scenarios in Philadelphia / |
Author |
Whitten, G. Z. ;
Yonkow, N. ;
Myers, T. C.
|
Other Authors |
|
CORP Author |
Systems Applications, Inc., San Rafael, CA.;Environmental Protection Agency, Ann Arbor, MI. Emission Control Technology Div. |
Publisher |
U.S. Environmental Protection Agency, Office of Mobile Sources, Emission Control Technology Division, |
Year Published |
1986 |
Report Number |
EPA 460/3-86-001; EPA-68-02-3870 |
Stock Number |
PB87-164372 |
OCLC Number |
757543203 |
Subjects |
Photochemistry ;
Methanol ;
Air Pollution/ Air Quality ;
Alcohol Fuels/ Methanol
|
Additional Subjects |
Photochemical reactions ;
Carbinols ;
Smog ;
Models ;
Fuels ;
Exhaust emissions ;
Motor vehicles ;
Methyl alcohol ;
Ozone ;
Air pollution ;
Methanol ;
Philadelphia(Pennsylvania) ;
Volatile organic compounds
|
Internet Access |
|
Holdings |
Library |
Call Number |
Additional Info |
Location |
Last Modified |
Checkout Status |
ELCD |
EPA 460-3-86-001 |
|
NVFEL Library/Ann Arbor, MI |
10/26/2011 |
DISPERSAL |
NTIS |
PB87-164372 |
Some EPA libraries have a fiche copy filed under the call number shown. |
|
07/26/2022 |
|
Collation |
ix, 124 p. : ill., charts ; 28 cm. |
Abstract |
A photochemical modeling study was conducted to estimate the impact on smog production resulting from the substitution of methanol fuel for gasoline and diesel fuel in Philadelphia in the year 2000. Three photochemical models were used: a comprehensive grid model adapted from the Urban Airshed Model (UAM), a four-cell trajectory model (a Lagrangian version of the UAM), and a single-cell box model. Emission rates, initial conditions, and boundary values were forecast to the year 2000. Model sensitivity tests indicate that methanol substitution above 20 percent of the overall Volatile Organic Compound inventory may significantly inhibit smog formation, but the reduction also depends strongly on other factors such as formaldehyde emissions, methanol carryover from upwind sources or previous days, and NOx levels. Whereas formaldehyde emissions tend to accelerate ozone formation, methanol carryover and NOx emissions tend to decrease ozone formation. |
Notes |
Includes bibliographical references (p. 123-124). "EPA 460/3-86-001." "March 1986." "Contract No. 68-02-3870, Work Assignment 6"--T.p. "EPA Project Officer: Thomas N. Braverman"--T.p. "Technical Representative: Penny M. Carey"--T.p. |
Place Published |
Ann Arbor, Mich |
Supplementary Notes |
Sponsored by Environmental Protection Agency, Ann Arbor, MI. Emission Control Technology Div. |
Corporate Au Added Ent |
United States. Environmental Protection Agency. Office of Mobile Sources. Emission Control Technology Division.; Systems Applications, Inc. |
NTIS Title Notes |
Final rept.. |
PUB Date Free Form |
Mar 86 |
Category Codes |
68A; 97K; 43F; 91A |
NTIS Prices |
PC A07/MF A01 |
Primary Description |
200/05 |
BIB Level |
m |
Cataloging Source |
OCLC/T |
Control Number |
715624713 |
OCLC Time Stamp |
20111018144209 |
Language |
eng |
Origin |
OCLC |
Type |
MERGE |
OCLC Rec Leader |
01511nam 2200361Ka 45020 |