Referências Bibliográficas
ABNT
12232 de 2005 – Execução de sistemas fixos automáticos de proteção contra
incêndio com gás carbônico (CO2) por inundação total para transformadores e
reatores de potência contendo óleo isolante;
ABNT
12639 - Cilindros de aço-carbono sem costura, para armazenamento de gases à
alta pressão destinados a instalações contra incêndio;
Addendum to Method 320 –
Protocol for the Use of Extractive Fourier Transform Infrared (FTIR)
Spectrometry for the Analyses of Gaseous Emissions from Stationary Sources (40
CFR Part 63). http://www.epa.gov/ttnemc01/ftir/FTIRProtocol.pdf , Consultado
07/04/2014.
Alpha Series Systems with 3M™
NOVEC™ 1230 Fire Protection Fluid. ChemetronFire Systems. Ano
de publicação 2005;
Aspectos
Físico-Químicos y Toxicológicos de las: INTOXICACIONES EN FUEGOS E INCENDIOS.
http://webs.ono.com/fvcgga/fuegos/index.htm#humo, consultado 15/05/2014;
CATAMA. 1953. Aviation
Toxicology--an Introduction to the Subject and a Handbook of Data. Committee on
Aviation Toxicology, Aero Medical Association. The Blakiston Co.: New York, NY.
pp. 6-9, 31-39, 52-55, 74-79, 110-115;
CCOHS. 1990. Carbon Dioxide
Chemical Infogram. Canadian Center for Occupational Health and Safety,
Hamilton, Ontario. October;
CHEMETRON MANUAL FM 200.
Chemetron Fire System - FM-200 Beta & Gamma series engineered systems
design, installation, operation & maintenance manual. Ano
de publicação 1995. Revisado 2004.
Circular
de Informação: Extintores de incêndio portáteis para uso em pequenas aeronaves.
ANAC - Agência nacional de aviação civil – Brasil. Ano de publicação 2008;
CO2
Extinguishing systems. Elaborado por Tyco – Fire&Safety. http://www.tycoeurope.com/fileadmin/user_upload/Poland/PDF/Exting/co2_en.pdf,
consultado em 22/03/2014;
Consolazio,
W.V.; Fisher, M.B.; Pace, N.; Pecora, L.J.; Pitts, G.C.; Behnke, A.R. 1947. Effects on man of high concentrations of carbon
dioxide in relation to various oxygen pressures during exposures as long as 72
hours. Am. J. Physiol. 151:479-503;
Dalgaard, J.B.; Dencker, G.;
Fallentin, B.; Hansen, P.; Kaempe, B.; Steensberger, J.; Wilhardt, P. 1972.
Fatal poisoning and other health hazards connected with industrial fishing. Br.
J. Ind. Med. 29:307-316;
Daniel, J.S, Velders, G.J.M.
Halocarbon Scenarios, Ozone Depletion Potentials, and Global Warming
Potentials. Scientific Assessment of Ozone Depletion. Ano de publicação 2007;
Danny, L.D. Harvey. A guide to
global warming potentials (GWPs). Department of Geography - University of
Toronto. Ano de publicação 1993;
Dripps, R.D.; Comroe, J.H..
1947. The respiratory and circulatory response of normal man to inhalation of
7.6 and 10.4 percent carbon dioxide with a comparison of the maximal
ventilation produced by severe muscular exercise,
inhalation of carbon dioxide
and maximal voluntary hyperventilation. Am. J. Physiol. 149:43-51;
EPA: Carbon Dioxide as a Fire
Suppressant: Examining the Risks. U.S. Environmental Protection Agency Office
of Air and Radiation Stratospheric Protection Division. Ano de publicação 2000;
Fallon, G.S.; Chelliah, H.K.
Chemical effects of CF3H in extinguishing counterflow CO/Air/H2 diffusion
flames. Department of mechanical, Aerospace, and nuclear engineering. Universityof
Virginia. Ano de publicação 1996, pp 1395-1403;
FM-200, ECS Series Engineered
Fire Suppresion Systems. Design, installation, operation and maintenance
manual. KiddeFire System. Desenvolvido em 2004;
Gellhorn, E. 1936. The effect
of O2-lack, variations in the carbon dioxide-content of the inspired air, and
hyperpnoea on visual intensity discrimination. Am. J. Physiol. 115:679-684;
Gellhorn, E.; Spiesman, I.
1934. Influence of variations of O2 and carbon dioxide tension in inspired air
upon hearing. Proc. Soc. Exp. Biol. Med. 32:46-47;
Gellhorn, E.; Spiesman, I.
1935. Influence of hyperpnea and of variations of O2- and CO2-tension in the inspired
air upon hearing. Am. J. Physiol. 112:519-528;
Gibbs, F.A.; Gibbs E.L.;
Lennox, W.G.; Nims, L.F. 1943. The value of carbon dioxide in counteracting the
effects of low oxygen. J. Aviat. Med. 14:250-261;
Gohar, L.K., G. Myhre, and K.P.
Shine, Updated radiative forcing estimates of four halocarbons. J. Geophys.
Res., 109, D01107, doi: 10.1029/2003JD004320, 2004;
Grigg, J.; Chattaway A. The
evaluation of bromotrifluoropropene as a halon 1211 replacement. Kidde
Research, Mathisen Way, Poyle Road, Colnbrook, Slough SL3 0HB, UK;
Industrial carbon dioxide
extinguishing systems. Design, installation, and maintenance manual. Elaborado
por Fike. Ano de publicação 2008.
http://www.orrprotection.com/docs/fike/Industrial%20Carbon%20Dioxide%20Extinguishing%20Systems%20Manual%20C06-018.pdf,
consultado 24/03/2014;
Instrução
Técnica Nº.03/2011. Terminologia de segurança contra incêndio. Polícia militar
do estado de São Paulo - Corpo de Bombeiros;
Instrução
Técnica Nº26/2004. Sistema fixo de gases para combate a incêndio. Polícia
militar do estado de São Paulo - Corpo de Bombeiros;
IPCC (Intergovernmental Panel
on Climate Change), Climate Change 2001: The Scientific Basis, editadopor J. T.
Houghton, et al., Cambridge University Press, Cambridge, U.K., 2001;
Ishiyama, M..Nohmi Bosai, Ltd.,
HTOC representative from Japan, personal communication. Ano
de Publicação 1998;
Jin,
Xiang; Zhou, Xiaomeng; Liao, Guangxuan; Wang, Jia. Synthesis and fire-extinguishing properties of
monobromotrifluoropropene. The 9th Asia-Oceania Symposium on Fire Science and
Technology. Procedia Engineering 62 (2013) 884 – 890;
Katta, Viswanath R.; Takahashi,
Fumiaki;Linteris, Gregory T. Fire-suppression characteristics of CF3H in a cup
burner. National Center for Space Exploration Research on Fluids and
Combustion, NASA. Ano de publicação 2005;
KamaljitSihra, Michael D . Hurley,
Keith P. Shine, and Timothy J. Wallington. Updated radiative forcing estimates
of 65 halocarbons and nonmethane hydrocarbons. Journal of geophysical research,
vol. 106, no. d17, pages 20,493-
20,505,september 16, 2001;
Kety, S.S. and Schmidt, C.G.
1948. The effects of altered arterial tensions of carbon dioxide and oxygen on
cerebral blood flow and cerebral oxygen consumption of normal young men. J.
Clin. Invest. 27:484-492;
Kidde Engineered Fire
Suppression System Designed for use with 3M™ NOVEC™ 1230 Fire Protection Fluid.
Design, Installation, Operation and Maintenance Manual. Ano de publicação 2005;
KIDDE MANUAL CO2 - Engineered
Carbon Dioxide (CO2) Fire Suppression Systems Design, Installation, Operation
and Maintenance Manual. Elaborado por KiddeFire System. Ano de
publicação 2007;
Lambertsen,
C.J. 1971. “Therapeutic
Gases—Oxygen, Carbon Dioxide, and Helium.” Drill’s Pharmacology in Medicine.
Chapter 55, Ed. By J.R. DiPalma. McGraw-Hill Book Co.: New York, NY;
MAM – MUSEU DE ARTE MODERNA.
http://mamrio.org.br/exposicoes/acervo-mam-obras-restauradas/, consultado no
dia24/03/2014;
Material Safety Data Sheet
FM-200. Versão
2.1, revisado 07/11/2011. www2.dupont.com, consultado15/05/2014;
MINIMAX – FIRE PRODUCTS.
Technical Data - Clean agent fire extinguishing system mx 1230 discharge
nozzles. http://www.minimaxfp.com/Consultado 17/05/2014;
MSDS FM-200 (Fire Extinguishing
Agent). KiddeFire
Systems. Ano de publicação 2009. Ano de revisão 2012;
MSDS
- MATERIAL SAFETY DATA SHEET 3M NOVEC 1230 Fire Protection Fluid. Ano de
publicação 2011. www.3m.com/NOVEC1230fluid, consultado 05/04/2014;
NAFED - “Why Carbon Dioxide
(CO2) in Fire Suppression Systems?” http://www.nafed.org/whyco2. Consultado
07/05/2014
NFPA 12 - Standard on carbon
dioxide extinguinshing systems. Edição de 2011;
NFPA 12A - Standard on Halon
1301 Fire Extinguishing Systems. Edição de 1997;
NFPA 2001 – Standard On Clean
Agent Fire Extinguishing Systems. Edição de 2012;
Orkin,Vladimir L.; Louis,
Florent;Huie, Robert E.; Kurylo,Michael J. Photochemistry of Bromine-Containing
Fluorinated Alkenes: Reactivity toward OH and UV Spectra. Physical and Chemical
Properties Division, National Institute of Standards and Technology.
Gaithersburg, Maryland. J. Phys. Chem. A, 2002, 106 (43), pp 10195–10199;
OSHA. 1989. Carbon Dioxide,
Industrial Exposure and Control Technologies for OSHA Regulated Hazardous
Substances, Volume I of II, Substance A - I. Occupational Safety and Health Administration.
Washington, DC: U.S. Department of Labor, March;
Ozone-Depleting Substances:
Alternatives. Pollution prevention and abatement handbook. Ano de publicação
1998;
Patterson, J.L.; Heyman, H.;
Battery, L.L.; Ferguson, R.W. 1955. Threshold of response of the cerebral
vessels of man to increases in blood carbon dioxide. J. Clin. Invest.
34:1857-1864;
Pinnock, S., Hurley, M.D.,
Shine, K.P., Wallington, T.J., Smyth, T.J., J. Geophys. Res., 100, 23227, 1995;
Plummer, G., “Laboratory
measurements and calculations related to the photodisassociation of L-15566 in
the Earth’s lower atmosphere,” 3M Environmental Laboratory Report Number
E01-0549, 2001;
Product information: 3M NOVEC
1230 fire protection fluid. Ano de elaboração 2009.
www.3m.com/NOVEC1230fluid, consultado 05/04/2014;
Protocolo
de Montreal sobre as Substâncias que Empobrecem a Camada de Ozônio. Ano de
publicação 1989. Ano de revisão 2000;
Rego,
Daniel Antônio da Silva. Sistemas fixos de extinção de incêndio por agentes
gasosos. Dissertação de mestrado em engenharia civil. Faculdade deengenharia da
Universidade do Porto - Departamento de engenharia civil. Ano de publicação
2010;
Regulamento
(CE) n.º 1005/2009 do Parlamento Europeu e do Conselho – Substâncias que
Empobrecem a Camada de Ozono, 16 de Setembro de 2009;
Resumo
técnico: Propriedades Ambientais do Fluido NOVEC 1230. Fluido para combate a
incêndio. www.3m.com/NOVEC1230fluid, consultado 05/04/2014;
Sahin, Cihan; Aysal, BilgeKaan;
Karagoz, Huseyin; Eren, Fikret; Ulkur, Ersin. A reason to be careful about
frostbite injury. Elsevier – Journal Burns, Edição 39, página 39 – e 40. Ano de
publicação2013;
Sapphirre Guideline – Total
Flooding Systems with 3M NOVEC1230 Fire Protection Fluid. Ano
de publicação 2009. http://www.sfp.co.za/Consultado 10/05/2014;
Schulte,
J.H. 1964. Sealed environments
in relation to health and disease. Arch. Environ. Health 8:438-452;
Sechzer, P.H.; Egbert, L.D.;
Linde, H.W.; Cooper, D.Y.; Dripps, R.D.; Price, H.L. 1960. Effect of CO2
inhalation on arterial pressure, ECG and plasma catecholamines and 17-OH
corticosteroids in normal man. J. Appl. Physiol. 15(3):454-458;
Seito,
Alexandre Itiu; Gill, Alfonso Antonio; Pannoni, Fabio Domingos; Bento da Silva,
Rosaria Ono Silvio; Del Carlo, Ualfrido; Pignatta, Valdir Silva. A segurança
contra incêndio no Brasil. Ano de publicação 2008;
Senecal, Joseph A. Flame
extinguishing in thecup-burnerbyinert gases. Kidde-Fenwal, Inc.,
Ashland, MA 01721, USA. Ano de Publicação 2005;
Sistemas
Fixos de Proteção Contra Incêndio - Depois do Halon. Ano de publica 2004.
Documento elaborado por Allianz DNE Consultores de Risco.
http://empresas.allianz.pt/riscos/prevencao, consultado no dia 24/03/2014;
Seraphim,
Diego Maciel. A nocividade dos gases em ocorrências de incêndio. Trabalho de
conclusão de curso, Universidade do Vale do Itajaí - Centro Tecnológico da
Terra e do Mar. São José, Ano de publicação 2008;
Significant New Alternatives
Policy (SNAP) Program.
http://www.epa.gov/Ozone/snap/,
Consultado 08/04/2014;
SMH.
http://www.smh.com.br/?pg=sistema-supressao-agente-limpo, Consultado 09/02/2014.
Taniguchi, N., Wallington,
T.J., Hurley, M.D., Guschin, A.G., Molina, L.T., Molina, M.J., Journal of
Physical Chemistry A, 107(15), 2674-2679, 2003
Technical Brief: Thermal
Decomposition Considerations with 3M NOVEC 1230 Fire Protection Fluid. Ano
de elaboração 2004. www.3m.com/NOVEC1230fluid, consultado 05/04/2014;
Technical
information. Dupont FM-200 –
Fire extinguishing agent. Ano de elaboração 2009.
http://www2.dupont.com/FE/en_US/assets/downloads/pdf_fm/k23455_FM-200_techinfo.pdf,
consultado 08/04/2014;
White, C.S.; Humm, J.H.;
Armstrong, E.D.; Lundgren, N.P.V. 1952. Human tolerance to acute exposure to
carbon dioxide. Report No. 1: Six percent carbon dioxide in air and in oxygen.
Aviation Med. pp. 439-455;
Wong, KL. 1992. Carbon Dioxide.
Internal Report, Johnson Space Center Toxicology Group. National Aeronautics
and Space Administration, Houston, TX;
Zhou, Xiaomeng; Chen, Weiwang;
Chao, Mingyong; Liao, Guangxuan. The study of thermal decomposition of
2-bromo-3, 3, 3-trifluoropropene and its fire-extinguishing mechanism. Journal
of Fluorine Chemistry153 (2013) 101–106;
Zou, Yong; Vahdat, Nader;
Collins, Michelle. Fire extinguishing ability of 1-bromo-1-propane and
1-methoxynonaflurobutane evaluated by cup burner method. Chemical engineering
department, School of Engineering, Tuskegee University. Ano de publicação 2001
