DOCSLIB.ORG

Fire Management Today

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Fire Management Today Volume 66 • No. 3 • Summer 2006 Smoke Issues and Air Quality Also: Our Response to Hurricane Katrina Coming Next… The next issue of Fire Management Today (Fall 2006) will feature a series of articles that describe and probe the challenges and opportunities associ­ ated with both elements of “fire use”—prescribed fire and wildland fire use. The issue’s special coordinator is Tim Sexton, fire use program manager for the USDA Forest Service, Fire and Aviation Management, Washington Office, National Interagency Fire Center, Boise, ID. Fire Management Today is published by the Forest Service of the U.S. Department of Agriculture, Washington, DC. The Secretary of Agriculture has determined that the publication of this periodical is necessary in the transaction of the public business required by law of this Department. Fire Management Today is for sale by the Superintendent of Documents, U.S. Government Printing Office, at: Internet: bookstore.gpo.gov Phone: 202-512-1800 Fax: 202-512-2250 Mail: Stop SSOP, Washington, DC 20402-0001 Fire Management Today is available on the World Wide Web at http://www.fs.fed.us/fire/fmt/index.html. Mike Johanns, Secretary Melissa Frey U.S. Department of Agriculture General Manager Dale Bosworth, Chief Paul Keller Forest Service Managing Editor Tom Harbour, Director Madelyn Dillon Fire and Aviation Management Editor Pete Lahm Issue Coordinator The United States Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and, where applicable, sex, marital status, familial status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or part of an individual’s income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA’s TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write to USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, DC 20250-9410, or call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer. Disclaimer: The use of trade, firm, or corporation names in this publication is for the information and convenience of the reader. Such use does not constitute an official endorsement of any product or service by the U.S. Department of Agriculture. Individual authors are responsible for the technical accuracy of the material presented in Fire Management Today. Volume 66 • No. 3 • Summer 2006 On the Cover: CONTENTS Where There Is Fire There Is Smoke............................................4 Pete Lahm Applying BlueSky Smoke Modeling Framework on Wildland Fires....5 Louisa Evers, Sue Ferguson, Susan O’Neill, and Jeanne Hoadley BlueSky Proves Its Value in Predicting Smoke ..............................9 Louisa Evers Smoke, Fire, and Weather: What Forest Service Research Is Doing To Help ...................................................................... Brian E. Potter, Narasimhan K. Larkin, and Ned Nikolov Left: Smoky haze shrouding the sun over the Bitterroot Smoke-Monitoring Equipment and Applications ...........................7 Andy Trent and Ricardo Cisneros River following the 2003 fire bust in the mountains around SPOTS: Maximizing Fuel and Vegetation Management Effectiveness .......................................................................... Missoula, MT. Photo: Kristen Sue Stewart Honig, Los Alamos, NM, 2003. Bottom Right: Sun in smoke A Review of Smoke Management and Emission Estimation Tools ..7 Pete Lahm from the 2006 Ward Lake Fire, Quachita National Forest. Responding in Force to Hurricane Katrina..................................4 Photo: Nate Bell, Potter Rural Learning From the IMT Assigned to the Fire Department, Mena, AR. New Orleans Airport .....................................................5 Top Right: Smoke column George Custer rises up from the 2004 Nuttall- Hurricane Katrina Incident: Areas of Concern and Gibson Complex, Coronado Recommendations .........................................................8 George Custer National Forest. Photo: Jayson Coil, Flagstaff, AZ. True Story: A Firsthand Experience With Hurricane Katrina’s Aftermath ......................................................4 Betsy Haynes For more on the air quality issues raised by smoke from Pitfalls in the Silvicultural Treatment of Canopy Fuels.................48 Christopher R. Keyes and J. Morgan Varner wildfires and fire use, see the articles beginning on page 4. Changing Beliefs and Building Trust at the Wildland/Urban Interface.........................................................5 The USDA Forest Service’s Fire and Aviation Jeremy S. Fried, Demetrios Gatziolis, J. Keith Gilless, Management Staff has adopted a logo reflect­ Christine A. Vogt, and Greg Winter ing three central principles of wildland fire management: Franklin Awards Salute Achievements in Cooperative • Innovation: We will respect and value thinking minds, voices, and thoughts of Fire Protection ......................................................................55 those that challenge the status quo while Melissa Frey focusing on the greater good. • Execution: We will do what we say we will SHORT FEATURES do. Achieving program objectives, improv­ ing diversity, and accomplishing targets are Southwestern Ponderosa Pine: Ceanothus, Wasps, and Fire......... 58 essential to our credibility. Hutch Brown • Discipline: What we do, we will do well. Fiscal, managerial, and operational discipline All Our Past Issues Now Available on the Web ...........................59 are at the core of our ability to fulfill our mission. Guidelines for Contributors.......................................................60 Websites on Fire .....................................................................6 New Photo Contest Procedures ................................................6 Firefighter and public safety is our first priority. Volume 66 • No. 3 • Summer 2006 WHERE THERE IS FIRE THERE IS SMOKE Pete Lahm his issue of Fire Management Better.Tools.and. Through the expanding array of Today highlights the expanding Approaches. modeling tools, these emissions esti­ T science of smoke issues and air Better tools and approaches to mates can then be used to support quality. From the discussion of Web- address fuels management and better smoke management deci­ based tools that predict how much understand the state of fuels sions, both on the ground and for smoke might come from that fire on the landscape are now being planning purposes. The integration and where it might go, to the grow­ developed for fire managers. They of smoke management and how air ing array of monitoring equipment are being fashioned with an eye quality can be incorporated into the to measure the concentration of toward how smoke emissions planning of vegetation treatments smoke on the ground in real time, will be calculated and how fire can also be found in the rapidly the technology available to fire man­ management’s potential smoke developing Strategic Placement of agers today to support better smoke impacts can be demonstrated. Treatments (SPOTS) projects, also management decisions is vastly dif­ discussed in the following pages. The clear recognition of the state of ferent than just a few years ago. wildland fuels and the undertaking of addressing this reality through The integration of smoke manage­ Combined.Science:.. increased vegetation management ment into fire management deci­ Fire.and.Smoke efforts is fully underway. On a sions has never been greater. A There is an increasing awareness national scale, prescribed fire and land manager can now support a of both the unprecedented air wildland fire use are two approach­ decision to ignite a prescribed fire quality effects of wildfire on air es that are dramatically increasing with better knowledge of potential quality health standards and the to address the fuels crisis. smoke impacts based on the USDA efforts to mitigate—where pos­ Forest Service Research’s BlueSky- sible—these smoke impacts. The The amount of smoke is increasing RAINS model—explained in detail need to increase the use of pre­ in the environment—whether from beginning on page 12. scribed fire in many areas across the large wildfire with catastrophic the country—as well as to further effects in the wildland/urban inter­ A public information officer from utilize wildland fire—reinforces face, the managed wildland fire use an air regulatory or land manage­ the need for future growth in the incident, or the ignited prescribed ment agency—through the use of smoke management arena. fire. An example of this integration increasingly portable air quality monitoring devices—can more fre­ As we reintroduce fire into natural quently be found providing infor­ ecosystems, our technical tools The integration of smoke mation about the measured levels will need to be further improved management into fire of pollutants to a community and new approaches developed to inundated by smoke. In addition, management decisions has balance the protection of air qual­ the interagency linkages between never been greater. ity and its human health benefits, land managers and the air qual­ as well as to address the current ity regulatory community are also fuels crisis within the wildlands of smoke with fuels
Load more

Recommended publications
  • Progetto Modivaset - Relazione Finale – Scenario 0 - - 31/12/2005
    Università degli Studi di Firenze - Dipartimento di Energetica - Sergio Stecco Convenzione tra Regione Toscana e DE per lo sviluppo e l’applicazione di modelli diffusionali nell’ambito dei piani di risanamento della qualità dell’aria, con particolare attenzione all’area metropolitana di Firenze – Prato – Pistoia Progetto MoDiVaSET - Relazione finale – scenario 0 - - 31/12/2005 - Ing. Matteo Carpentieri Prof. Ing. Andrea Corti Ing. Paolo Giambini Dott. Silvia Maltagliati Progetto MoDiVaSET Relazione finale Università degli Studi di Firenze - 31-12-2005 Dipartimento di Energetica - Sergio Stecco 1 Introduzione 1.1 Il progetto MoDiVaSET Lo scopo di questo lavoro consiste nello sviluppare metodologie modellistiche finalizzate a simulare la dispersione in atmosfera di PM10, NOX e SOX nell’area metropolitana di Firenze – Prato – Pistoia. L’obiettivo ultimo del progetto risulta la valutazione di diversi scenari emissivi nell’area di riferimento. 1.2 L’area di studio L’area di studio prescelta è quella riportata qui di seguito in figura 1.1, comprendente la zona che si estende da Incisa a Montecatini in direzione est-ovest e da Barberino del Mugello a Castelfiorentino in direzione nord-sud, per un’estensione totale di 40x49 km2. Figura 1.1: Zona di indagine prescelta Le sorgenti emissive presenti nell’area di studio sono state caratterizzate, per lo scenario base, a partire dai dati presenti nell’Inventario Regionale delle Sorgenti Emissive (IRSE). Tali sorgenti sono state suddivise in tre tipologie: le principali sorgenti puntuali (selezionate in base ai criteri definiti nell’IRSE), le principali sorgenti lineari (le autostrade A1 ed A11), e le altre sorgenti emissive (simulate come sorgenti areali diffuse).
    [Show full text]
  • Modélisation Des Impacts Environnementaux
    Mémoire de stage présenté par Denis CHEYNET Modélisation des impacts environnementaux Quelles applications dans le domaine des transports ? Soutenance : 16 septembre 2011 – ENTPE – Vaulx-en-Velin Sous la direction de : § Patrick BONNEL, ENTPE, Laboratoire d'Economie des Transports § Benjamin PLOUVIEZ, Egis France Master Transports Urbains et Régionaux de Personnes (TURP) Période de stage : 4 avril 2011 – 31 juillet 2011 Année universitaire 2010 – 2011 Modélisation des impacts environnementaux – Quelles applications dans le domaine des transports ? Fiche bibliographique [Intitulé du diplôme] Master Professionnel Transports Urbains et Régionaux de Personnes (TURP) [Tutelles] - Université Lumière Lyon 2 - Ecole Nationale des Travaux Publics de l'Etat (ENTPE) [Titre] Modélisation des impacts environnementaux [Sous-titre] Quelles applications dans le domaine des transports ? [Auteur] Denis CHEYNET [Membres du Jury (nom et affiliation)] - Patrick BONNEL, ENTPE, Laboratoire d'Economie des Transports - Benjamin PLOUVIEZ, Egis France [Nom et adresse du lieu du stage] Egis France 170 avenue Thiers 69455 LYON cedex 6 France [Résumé] Ce rapport a pour objectif d’identifier des domaines d’application pour la modélisation des impacts environnementaux des projets de transport. Le périmètre étudié comprend les émissions de polluants atmosphériques, les émissions de gaz à effet de serre et la consommation d’énergie. Le bruit et la dispersion des polluants atmosphériques sont confiés par Egis France à des entités spécialisées. Ce travail présente le cadre juridique et les domaines dans lesquels cette modélisation est devenue obligatoire. Puis, parmi les outils issus des projets de recherche européens ou développés par Egis France, il propose une sélection de logiciels et de méthodes permettant de couvrir les besoins clients.
    [Show full text]
  • Table of Session Oral and Poster Presentation (Red Written Papers Are Not Available)
    Table of Session Oral and Poster presentation (red written papers are not available) Session 1 Model Evaluation Session 2 : Air Quality Management ; the EU air quality directive Session 3 Urban Air Quality Modelling Session 4 Model Intercomparison Session 5 Street Canyon Models Session 6 Decision Support System Session 7 Meteorological Pre-Processing CORIA – UMR 6614. CNRS – UNIVERSITE & INSA DE ROUEN – France. Tel: 33 (0)2 32 95 97 82 - Fax: 33 (0)2 32 95 97 80 - E-mail: [email protected] - Http://www.coria.fr Session 1 Model Evaluation CORIA – UMR 6614. CNRS – UNIVERSITE & INSA DE ROUEN – France. Tel: 33 (0)2 32 95 97 82 - Fax: 33 (0)2 32 95 97 80 - E-mail: [email protected] - Http://www.coria.fr Table of contents Session 1 Model Evaluation Oral Presentation. Paper 1 QUALITY ASSURANCE OF URBAN DISPERSION MODELS M. Schatzmann & B. Leitl,Germany Paper 8 INTERCOMPARISON OF THE LAGRANGIAN AND EULERIEAN MODEL PREDICTIONS AT LOCAL SCALE WITH MEASURED CONCENTRATIONS V.Sandu, Romania Paper 13 SIMULATIONS OF ATMOSPHERIC DISPERSION IN URBAN STABLE BOUNDARY LAYER E. Ferrero, D. Anfonssi, G Tinarelli, Italy Paper 20 EVALUATION OF A NON-GAUSSIAN PUFF MODEL T. Tirabassi, C. Mangia and U. Rizza, Italy Paper 24 STUDY OF TURBULENCE AND POLLUTANT DISPERSION UNDER NEUTRALLY AND UNSTABLY STRATIFIED ATMOSHERE UNSING A SECOND- ORDER EULERIAN MODEL C.H. Liu and D. Y. C. Leung, China. Paper 31 A LAGRANGIAN-PUFF DISPERSION MODEL: EVALUATION AGAINST TRACER DATA C. Mangia, U. Rizza, Italy Paper 38 EFFECTS OF CONCENTRATION FLUCTUATIONS ON STATISTICAL EVALUATIONS OF CENTERLINE CONCENTRATION ESTIMATES BY ATMOSPHERIC DISPERSION MODELS J.
    [Show full text]
  • How the Regulatory Process Protects Those Living Near Natural Gas Transmission Compressor Stations
    How The Regulatory Process Protects Those Living Near Natural Gas Transmission Compressor Stations Prepared by: Trinity Consultants Environmental solutions delivered uncommonly well 9111 Jollyville Road Suite 255 Austin, Texas 78759 512-349-5800 Prepared for: The INGAA Foundation, Inc. December 29, 2016 Final INGAA Foundation Report: 2016.11 Copyright ® 2016 by the INGAA Foundation, Inc. Acknowledgements: Trinity Consultants Georgette Reeves, MPA – Director, Oil and Gas Sector Services Trinity Consultants Michael Ballenger, P.E. – Principal Consultant Trinity Consultants Elizabeth Gorman, P.E. – Senior Consultant i TABLE OF CONTENTS EXECUTIVE SUMMARY 1 1. INTRODUCTION 2 1.1. Organization of this White Paper............................................................................................................................ 3 Section 2: Natural Gas Transmission Compressor Station Overview ............................................................................... 3 Section 3: The Permitting Process for Natural Gas Transmission Compressor Stations .......................................... 3 Section 4: The Permitting Process: How It Protects Those Living Near Compressor Stations ............................... 3 Section 5: Conclusion .......................................................................................................................................................................... 4 Section 6: Frequently Asked Questions (FAQs) Regarding the Protection of the Health and Safety of Those Living Near Natural Gas
    [Show full text]
  • Impact of Neighborhood Morphology on Air Pollution Dispersion Patterns Due to Unplanned Building Demolition: a Parametric Study
    SHRESTHA, SAMATA M.S. MAY 2019 ARCHITECTURE AND ENVIRONMENTAL DESIGN IMPACT OF NEIGHBORHOOD MORPHOLOGY ON AIR POLLUTION DISPERSION PATTERNS DUE TO UNPLANNED BUILDING DEMOLITION: A PARAMETRIC STUDY Thesis Advisor: Dr. Adil Sharag-Eldin An unplanned demolition of a building is either natural such as earthquake or human caused disaster like terrorist attack and wars. Unplanned building demolition generates a considerable amount of dust cloud and demolition waste comprising Particulate Matter (PM) of various sizes. A significant body of evidence relates chronic and acute adverse health effects to increased exposure of PM to the public. However, the literature review reveals a limited number of studies addressing the impact of unplanned demolition on local air quality. This is primarily due to the post-disaster situation is chaotic. The study focuses on investigating neighborhood environmental morphologies that reduce pollution dispersion at pedestrian levels. The primary objective of this research is to investigate the pattern and characteristics of pollution dispersion due to unplanned building demolition in a neighborhood. CFD-based air quality model “ENVI-met” was used to simulate the pollution dispersion in selected ten types of neighborhood morphologies. The research compares simulated pollution blooms resulting from a building collapse amid of ten different neighborhood morphologies. For each neighborhood configuration, the simulation produced thirty-six horizontal and forty-eight vertical dispersion measurements. The analysis confirmed that the dust plume generated during unplanned building demolition dispersed 200m beyond the source at almost of the neighborhoods. However, the concentration levels were different depending upon the type of neighborhood morphologies. The research identifies the sensitivity of an area to human health in the neighborhood facing unplanned demolition.
    [Show full text]
  • Modélisation Des Impacts Environnementaux
    Modélisation des impacts environnementaux. Quelles applications dans le domaine des transports ? Denis Cheynet To cite this version: Denis Cheynet. Modélisation des impacts environnementaux. Quelles applications dans le domaine des transports ?. Gestion et management. 2011. dumas-00667967 HAL Id: dumas-00667967 https://dumas.ccsd.cnrs.fr/dumas-00667967 Submitted on 8 Feb 2012 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Mémoire de stage présenté par Denis CHEYNET Modélisation des impacts environnementaux Quelles applications dans le domaine des transports ? Soutenance : 16 septembre 2011 – ENTPE – Vaulx-en-Velin Sous la direction de : . Patrick BONNEL, ENTPE, Laboratoire d'Economie des Transports . Benjamin PLOUVIEZ, Egis France Master Transports Urbains et Régionaux de Personnes (TURP) Période de stage : 4 avril 2011 – 31 juillet 2011 Année universitaire 2010 – 2011 Modélisation des impacts environnementaux – Quelles applications dans le domaine des transports ? Fiche bibliographique [Intitulé du diplôme] Master Professionnel Transports Urbains
    [Show full text]
  • Cän Anh Tuän
    ĐẠI HỌC QUỐC GIA HÀ NỘI TRƯỜNG ĐẠI HỌC KHOA HỌC TỰ NHIÊN _________________________ CÊn anh tuÊn NGHI£N CøU C¥ Së KHOA HäC §¸NH GI¸ MøC §é G¢Y ¤ NHIÔM KH¤NG KHÝ TRONG VIÖC GI¶I QUYÕT TRANH CHÊP M¤I TR¦êNG LUẬN ÁN TIẾN SĨ KHOA HỌC MÔI TRƯỜNG Hà Nội, 2013 ĐẠI HỌC QUỐC GIA HÀ NỘI TRƯỜNG ĐẠI HỌC KHOA HỌC TỰ NHIÊN _________________________ CÊn anh tuÊn NGHI£N CøU C¥ Së KHOA HäC §¸NH GI¸ MøC §é G¢Y ¤ NHIÔM KH¤NG KHÝ TRONG VIÖC GI¶I QUYÕT TRANH CHÊP M¤I TR¦êNG Chuyên ngành: Môi trường không khí Mã số : 62.85.02.10 LUẬN ÁN TIẾN SĨ KHOA HỌC MÔI TRƯỜNG Người hướng dẫn khoa học: PGS.TS Hoàng Xuân Cơ Hà Nội, 2013 2 LỜI CAM ĐOAN Tôi xin cam đoan đây là công trình nghiên cứu của riêng tôi. Các số liệu, kết quả nêu trong Luận án là trung thực và chưa từng được ai công bố trong bất kỳ công trình nào. Tác giả Cấn Anh Tuấn 1 LỜI CẢM ƠN Trước tiên, tôi xin bày tỏ lời cảm ơn sâu sắc đối với PGS.TS Hoàng Xuân Cơ, Trường Đại học Khoa học Tự nhiên- Đại học Quốc gia Hà Nội đã tận tình hướng dẫn cả về mặt khoa học và tạo điều kiện thuận lợi về cơ sở vật chất, trang thiết bị tính toán để tôi hoàn thành Luận án. Tôi xin chân thành cảm ơn đối với Khoa Môi trường, Trường Đại học Khoa học Tự nhiên, Phòng Sau Đại học, Bộ môn Sinh thái Môi trường đã tạo điều kiện thuận lợi và giúp đỡ tôi trong quá trình học tập và tổ chức thực hiện các nội dung nghiên cứu khoa học của Luận án.
    [Show full text]
  • Scientific and Technical Journal «Technogenic and Ecological Safety»
    Науково-технічний журнал «ТЕХНОГЕННО-ЕКОЛОГІЧНА БЕЗПЕКА», 9(1/2021) ISSN 2522-1892 Scientific and technical journal «Technogenic and Ecological Safety» RESEARCH ARTICLE OPEN ACCESS МЕТОД ОРГАНІЗАЦІЇ МОНІТОРИНГУ АТМОСФЕРНОГО ПОВІТРЯ О. О. Ковальов1, В. О. Собина1, Д. Л. Соколов1, С. В. Гарбуз1, С. В. Васильєв1, В. Б. Коханенко1 1Національний університет цивільного захисту України, Харків, Україна УДК 614.0.06, 535.243.25 Отримано: 12 березня 2021 Прийнято: 21 квітня 2021 Cite as: Kovalov O., Sobyna V., Sokolov D., Harbuz S., Vasyliev S., Kokhanenko V. (2021). Method of organization of atmospheric air monitoring. Technogenic and ecological safety, 9(1/2021), 16–25. Анотація В роботі запропоновано створення мережі повністю автоматичних постів моніторингу за забрудненням атмосферного повітря на базі мереж базових станцій 3G/4G операторів мобільного зв’язку України, що дозволить отримувати дані про концентрації забруднюючих речовин що підлягають обов’язковому контролю в режимі реального часу в конкретній точці простору з відомими координатами. Проведено обґрунтування вибору і адаптація математичної моделі розрахунку поширення домішок забруднюючих речовин в атмосфері (необхідної складової частини запропонованого методу) з урахуванням інженерно-технічних засобів проведення автоматизованих вимірів. Розроблений метод прогнозування рівня забруднення і його поширення з урахуванням метеорологічних умов на базі адаптації моделі ОНД-86, а також її доповнення розрахунками за нестаціонарною моделлю Гауса. Метод відрізняється від існуючих оцінкою вкладу
    [Show full text]
  • Smoke Issues and Air Quality Also: Our Response to Hurricane Katrina
    Volume 66 • No. 3 • Summer 2006 Smoke Issues and Air Quality Also: Our Response to Hurricane Katrina 1 Coming Next… The next issue of Fire Management Today (Fall 2006) will feature a series of articles that describe and probe the challenges and opportunities associ- ated with both elements of “fire use”—prescribed fire and wildland fire use. The issue’s special coordinator is Tim Sexton, fire use program manager for the USDA Forest Service, Fire and Aviation Management, Washington Office, National Interagency Fire Center, Boise, ID. Fire Management Today is published by the Forest Service of the U.S. Department of Agriculture, Washington, DC. The Secretary of Agriculture has determined that the publication of this periodical is necessary in the transaction of the public business required by law of this Department. Fire Management Today is for sale by the Superintendent of Documents, U.S. Government Printing Office, at: Internet: bookstore.gpo.gov Phone: 202-512-1800 Fax: 202-512-2250 Mail: Stop SSOP, Washington, DC 20402-0001 Fire Management Today is available on the World Wide Web at http://www.fs.fed.us/fire/fmt/index.html. Mike Johanns, Secretary Melissa Frey U.S. Department of Agriculture General Manager Dale Bosworth, Chief Paul Keller Forest Service Managing Editor Tom Harbour, Director Madelyn Dillon Fire and Aviation Management Editor Pete Lahm Issue Coordinator The United States Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and, where applicable, sex, marital status, familial status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or part of an individual’s income is derived from any public assistance program.
    [Show full text]
  • Quantifying the Climate and Air Quality Impacts of Non-CO2 Species
    Quantifying the climate and air quality impacts of non- CO2 species from the combustion of standard and alternative fuels in aviation Zarashpe Zarir Kapadia Submitted in accordance with the requirements for the degree of Doctor of Philosophy as part of the Integrated PhD with MSc in Low Carbon Technologies November 2015 Doctoral Training Centre in Low Carbon Technologies, Energy Research Institute, School of Chemical and Process Engineering, University of Leeds and School of Earth and Environment, University of Leeds and School of Civil Engineering ii Declaration of authorship The candidate confirms that the work submitted is his own, except where work which has formed part of jointly-authored publications has been included. The contribution of the candidate and the other authors to this work has been explicitly indicated below. The candidate confirms that appropriate credit has been given within the thesis where reference has been made to the work of others. Work from Chapters 4, 5 and 6 of this thesis appears in publication as follows: Kapadia, Z. Z., Spracklen, D. V., Arnold, S. R., Borman, D. J., Mann, G. W., Pringle, K. J., Monks, S. A., Reddington, C. L., Benduhn, F., Rap, A., Scott, C. E., Butt, E. W., and Yoshioka, M.: Impacts of aviation fuel sulfur content on climate and human health, Atmos. Chem. Phys. Discuss., 15, 18921-18961, doi:10.5194/acpd-15-18921-2015, 2015 The candidate, Zarashpe Zarir Kapadia, was responsible for the development of aviation emissions inventories, simulations, data interpretation, interpretation of work within the publication. The candidate wrote the manuscript with guidance from the co-authors.
    [Show full text]
  • NO2 Seasonal Evolution in the North Subtropical Free Troposphere
    1 NO 2 seasonal evolution in the North Subtropical free 2 troposphere 3 4 M. Gil-Ojeda 1, M. Navarro-Comas 1, L. Gómez-Martín 1, J.A. Adame 1, A. Saiz- 5 Lopez 2, C. A. Cuevas 2, Y. González 3, O. Puentedura 1, E. Cuevas 3, J-F 6 Lamarque 4, D. Kinninson 4 and S. Tilmes 4 7 [1]{Instituto Nacional de Técnica Aeroespacial, Torrejón de Ardoz, Spain} 8 [2]{Atmospheric Chemistry and Climate Group, Institute of Physical Chemistry Rocasolano, 9 CSIC, Madrid, Spain} 10 [3]{Izaña Atmospheric Research Center, AEMET, Tenerife, Spain} 11 [4]{Atmospheric Chemistry Division, NCAR, Boulder, CO, USA} 12 Correspondence to: M. Gil-Ojeda ([email protected]) 13 14 Abstract 15 Three years of Multi-Axis Differential Optical Absorption Spectroscopy (MAXDOAS) 16 measurements (2011-2013) have been used for estimating the NO 2 mixing ratio along a 17 horizontal line of sight from the high mountain Subtropical observatory of Izaña, at 2370 m 18 a.s.l. (NDACC station, 28.3ºN, 16.5ºW). The method is based on horizontal path calculation 19 from the O2-O2 collisional complex at the 477 nm absorption band which is measured 20 simultaneously to the NO 2, and is applicable under low aerosols loading conditions. 21 The MAXDOAS technique, applied in horizontal mode in the free troposphere, minimizes the 22 impact of the NO 2 contamination resulting from the arrival of MBL airmasses from thermally 23 forced upwelling breeze during central hours of the day. Comparisons with in situ 24 observations show that during most of measuring period the MAXDOAS is insensitive or 25 very little sensitive to the upwelling breeze.
    [Show full text]
  • How the Western Frontiers Were Won with the Help of Geophysics
    1 NO2 seasonal evolution in the North Subtropical free 2 troposphere 3 4 M. Gil-Ojeda1, M. Navarro-Comas1, L. Gómez-Martín1, J.A. Adame1, A. Saiz- 5 Lopez2, C. A. Cuevas2, Y. González3, O. Puentedura1, E. Cuevas3, J-F 6 Lamarque4, D. Kinninson4 and S. Tilmes4 7 [1]{Instituto Nacional de Técnica Aeroespacial, Torrejón de Ardoz, Spain} 8 [2]{Atmospheric Chemistry and Climate Group, Institute of Physical Chemistry Rocasolano, 9 CSIC, Madrid, Spain} 10 [3]{Izaña Atmospheric Research Center, AEMET, Tenerife, Spain} 11 [4]{Atmospheric Chemistry Division, NCAR, Boulder, CO, USA} 12 Correspondence to: M. Gil-Ojeda ([email protected]) 13 14 Abstract 15 Three years of Multi-Axis Differential Optical Absorption Spectroscopy (MAXDOAS) 16 measurements (2011-2013) have been used for estimating the NO2 mixing ratio along a 17 horizontal line of sight from the high mountain Subtropical observatory of Izaña, at 2370 m 18 a.s.l. (NDACC station, 28.3ºN, 16.5ºW). The method is based on horizontal path calculation 19 from the O2-O2 collisional complex at the 477 nm absorption band which is measured 20 simultaneously to the NO2, and is applicable under low aerosols loading conditions. 21 The MAXDOAS technique, applied in horizontal mode in the free troposphere, minimizes the 22 impact of the NO2 contamination resulting from the arrival of MBL airmasses from thermally 23 forced upwelling breeze during central hours of the day. Comparisons with in situ 24 observations show that during most of measuring period the MAXDOAS is insensitive or 25 very little sensitive to the upwelling breeze. Exceptions are found under pollution events 26 during southern wind conditions.
    [Show full text]