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| Soil-vegetation-atmosphere interaction study at Anand | |
| Vyas Pandey | |
| 项目主持机构 | Gujarat Agricultural University |
| 开始日期 | 2000 |
| 结束日期 | 2003 |
| 英文摘要 | Project Research Results Final Report 1998 Progress Report 1997 Progress Report 17 publications for this project 8 journal articles for this project Related Information Research Grants P3: Student Design Competition Research Fellowships Small Business Innovation Research (SBIR) Grantee Research Project Results Search The Chemical Kinetics and Mechanisms of Hydrocarbons Contributing to Ozone Production in the Atmosphere EPA Grant Number: R825258 Title: The Chemical Kinetics and Mechanisms of Hydrocarbons Contributing to Ozone Production in the Atmosphere Investigators: Demerjian, Kenneth L. , Anderson, James G. Institution:The State University of New York at Albany , Harvard University EPA Project Officer: Hahn, Intaek Project Period: November 25, 1996 through November 24, 1999 Project Amount: $534,939 RFA: Air Quality (1996)RFA Text | Recipients Lists Research Category:Air Quality and Air Toxics ,Air Description: The purpose of this project is to perform a series of laboratorykinetic/mechanistic studies of hydrocarbon oxidation using a enhanced highpressure flow system. The studies will include chemical kinetic rate constantdeterminations and detailed mechanistic analyses of the (1) the OH - isopreneand (2) OH - -,-pinene systems using the Reaction Modulation Spectroscopy(RMS) analytical approach; and (3) mechanistic studies and the directmeasurement of OH formation in ozone - alkene reaction systems. These studieswill be performed over a broad range of temperatures (250-350 K) and pressures(10-600 torr). Analytical systems to be utilized on the high pressure flowapparatus include: OH detection by laser induced fluorescence (LIF), uvabsorption spectroscopy, low resolution (0.25 cm-1) multipass (White cell) FTIRspectroscopy and high resolution (~ 2.0x10-3 cm-1) multipass (Herriot cell) FTIRspectroscopy, and a resonance fluorescence axis. The reaction systems specified consider biogenic and anthropogenic organicspecies commonly found in the atmosphere. These chemical species are viewed asimportant contributors to ozone formation and critical to establishingquantitative relationships for how, when and where the atmospheric chemicalenvironment is VOC or NOx limited with regard to ozone production. The kineticstudies as described herein have been specifically identified as priorityscientific issues under the North American Research Strategy for TroposphericOzone (NARSTO). Publications and Presentations: Publications have been submitted on this project:View all 17 publications for this project Journal Articles: Journal Articles have been submitted on this project:View all 8 journal articles for this project Supplemental Keywords: RFA, Scientific Discipline, Air, tropospheric ozone, Atmospheric Sciences, fate and transport, rate constant determinations, high pressure flow system, ozone occurrence, Reaction Modulation Spectroscopy, ambient air, ozone formation, spectroscopic studies, hydrocarbon oxidation, chemical kinetics, atmosphere Relevant Websites: http://www-kinetics.harvard.edu http://www.asrc.cestm.albany.edu Progress and Final Reports: 1997 Progress Report 1998 Progress Report Final ReportProject Research Results Final Report 1998 Progress Report 1997 Progress Report 17 publications for this project 8 journal articles for this project Related Information Research Grants P3: Student Design Competition Research Fellowships Small Business Innovation Research (SBIR) Grantee Research Project Results Search The Chemical Kinetics and Mechanisms of Hydrocarbons Contributing to Ozone Production in the Atmosphere EPA Grant Number: R825258 Title: The Chemical Kinetics and Mechanisms of Hydrocarbons Contributing to Ozone Production in the Atmosphere Investigators: Demerjian, Kenneth L. , Anderson, James G. Institution:The State University of New York at Albany , Harvard University EPA Project Officer: Hahn, Intaek Project Period: November 25, 1996 through November 24, 1999 Project Amount: $534,939 RFA: Air Quality (1996)RFA Text | Recipients Lists Research Category:Air Quality and Air Toxics ,Air Description: The purpose of this project is to perform a series of laboratorykinetic/mechanistic studies of hydrocarbon oxidation using a enhanced highpressure flow system. The studies will include chemical kinetic rate constantdeterminations and detailed mechanistic analyses of the (1) the OH - isopreneand (2) OH - -,-pinene systems using the Reaction Modulation Spectroscopy(RMS) analytical approach; and (3) mechanistic studies and the directmeasurement of OH formation in ozone - alkene reaction systems. These studieswill be performed over a broad range of temperatures (250-350 K) and pressures(10-600 torr). Analytical systems to be utilized on the high pressure flowapparatus include: OH detection by laser induced fluorescence (LIF), uvabsorption spectroscopy, low resolution (0.25 cm-1) multipass (White cell) FTIRspectroscopy and high resolution (~ 2.0x10-3 cm-1) multipass (Herriot cell) FTIRspectroscopy, and a resonance fluorescence axis. The reaction systems specified consider biogenic and anthropogenic organicspecies commonly found in the atmosphere. These chemical species are viewed asimportant contributors to ozone formation and critical to establishingquantitative relationships for how, when and where the atmospheric chemicalenvironment is VOC or NOx limited with regard to ozone production. The kineticstudies as described herein have been specifically identified as priorityscientific issues under the North American Research Strategy for TroposphericOzone (NARSTO). Publications and Presentations: Publications have been submitted on this project:View all 17 publications for this project Journal Articles: Journal Articles have been submitted on this project:View all 8 journal articles for this project Supplemental Keywords: RFA, Scientific Discipline, Air, tropospheric ozone, Atmospheric Sciences, fate and transport, rate constant determinations, high pressure flow system, ozone occurrence, Reaction Modulation Spectroscopy, ambient air, ozone formation, spectroscopic studies, hydrocarbon oxidation, chemical kinetics, atmosphere Relevant Websites: http://www-kinetics.harvard.edu http://www.asrc.cestm.albany.edu Progress and Final Reports: 1997 Progress Report 1998 Progress Report Final ReportProject Research Results Final Report 1998 Progress Report 1997 Progress Report 17 publications for this project 8 journal articles for this project Related Information Research Grants P3: Student Design Competition Research Fellowships Small Business Innovation Research (SBIR) Grantee Research Project Results Search The Chemical Kinetics and Mechanisms of Hydrocarbons Contributing to Ozone Production in the Atmosphere EPA Grant Number: R825258 Title: The Chemical Kinetics and Mechanisms of Hydrocarbons Contributing to Ozone Production in the Atmosphere Investigators: Demerjian, Kenneth L. , Anderson, James G. Institution:The State University of New York at Albany , Harvard University EPA Project Officer: Hahn, Intaek Project Period: November 25, 1996 through November 24, 1999 Project Amount: $534,939 RFA: Air Quality (1996)RFA Text | Recipients Lists Research Category:Air Quality and Air Toxics ,Air Description: The purpose of this project is to perform a series of laboratorykinetic/mechanistic studies of hydrocarbon oxidation using a enhanced highpressure flow system. The studies will include chemical kinetic rate constantdeterminations and detailed mechanistic analyses of the (1) the OH - isopreneand (2) OH - -,-pinene systems using the Reaction Modulation Spectroscopy(RMS) analytical approach; and (3) mechanistic studies and the directmeasurement of OH formation in ozone - alkene reaction systems. These studieswill be performed over a broad range of temperatures (250-350 K) and pressures(10-600 torr). Analytical systems to be utilized on the high pressure flowapparatus include: OH detection by laser induced fluorescence (LIF), uvabsorption spectroscopy, low resolution (0.25 cm-1) multipass (White cell) FTIRspectroscopy and high resolution (~ 2.0x10-3 cm-1) multipass (Herriot cell) FTIRspectroscopy, and a resonance fluorescence axis. The reaction systems specified consider biogenic and anthropogenic organicspecies commonly found in the atmosphere. These chemical species are viewed asimportant contributors to ozone formation and critical to establishingquantitative relationships for how, when and where the atmospheric chemicalenvironment is VOC or NOx limited with regard to ozone production. The kineticstudies as described herein have been specifically identified as priorityscientific issues under the North American Research Strategy for TroposphericOzone (NARSTO). |
| 学科分类 | 07 - 农业科学 |
| 资助机构 | IN-DST |
| 项目经费 | 1310400 |
| URL | http://www.nstmis-dst.org/EMR/EMR2000-01/ViewData.aspx?id=3&sub=Agricultural+Sciences |
| 国家 | IN |
| 语种 | 英语 |
| 文献类型 | 项目 |
| 条目标识符 | http://gcip.llas.ac.cn/handle/2XKMVOVA/77059 |
| 推荐引用方式 GB/T 7714 | Vyas Pandey.Soil-vegetation-atmosphere interaction study at Anand.2000. |
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