Samuel L. Manzello
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American mechanical engineer
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Samuel L. Manzelloengineering Degrees
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Engineering
Samuel L. Manzello's Degrees
- Masters Mechanical Engineering Stanford University
- PhD Mechanical Engineering California Institute of Technology
Why Is Samuel L. Manzello Influential?
(Suggest an Edit or Addition)According to Wikipedia, Samuel L. Manzello is a technical advisor at Reax Engineering. He has worked on microgravity droplet combustion, droplet-surface interaction, soot formation in well-stirred reactor/plug flow reactor, fire-structure interaction, and structure vulnerabilities in wildland-urban interface fires.
Samuel L. Manzello's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- The wildland-urban interface fire problem - current approaches and research needs (2010) (333)
- Numerical simulation and experiments of burning douglas fir trees (2009) (236)
- An experimental study of a water droplet impinging on a liquid surface (2002) (142)
- Ignition of mulch and grasses by firebrands in wildland–urban interface fires (2006) (129)
- On the ignition of fuel beds by firebrands (2005) (120)
- Firebrand generation from burning vegetation (2007) (117)
- Experimental investigation of firebrands: Generation and ignition of fuel beds (2008) (104)
- Mass and size distribution of firebrands generated from burning Korean pine (Pinus koraiensis) trees (2009) (94)
- On the development and characterization of a firebrand generator (2008) (80)
- Influence of gypsum board type (X or C) on real fire performance of partition assemblies (2007) (76)
- Enabling the study of structure vulnerabilities to ignition from wind driven firebrand showers: A summary of experimental results (2012) (73)
- Characterizing Firebrand Exposure from Wildland–Urban Interface (WUI) Fires: Results from the 2007 Angora Fire (2014) (72)
- Investigation on the ability of glowing firebrands deposited within crevices to ignite common building materials (2009) (71)
- Role of Firebrand Combustion in Large Outdoor Fire Spread. (2020) (65)
- Determining thermal properties of gypsum board at elevated temperatures (2009) (61)
- Firebrand Generation Data Obtained from a Full Scale Structure Burn | NIST (2011) (61)
- Quantifying the vulnerabilities of ceramic tile roofing assemblies to ignition during a firebrand attack (2010) (56)
- Enabling the Investigation of Structure Vulnerabilities to Wind- Driven Firebrand Showers in Wildland-Urban Interface (WUI) Fires (2014) (53)
- The size and mass distribution of firebrands collected from ignited building components exposed to wind (2013) (52)
- Soot particle size distributions in a well-stirred reactor/plug flow reactor (2007) (52)
- An experimental study of high Weber number impact of methoxy-nonafluorobutane C4F9OCH3 (HFE-7100) and n-heptane droplets on a heated solid surface ☆ (2002) (48)
- On the collision dynamics of a water droplet containing an additive on a heated solid surface (2002) (48)
- Summary of Workshop Large Outdoor Fires and the Built Environment. (2017) (47)
- Short communication On the interaction of a liquid droplet with a pool of hot cooking oil (2003) (47)
- Measurement of visible and near-IR optical properties of soot produced from laminar flames (2002) (47)
- An Experimental Determination of a Real Fire Performance of a Non-Load Bearing Glass Wall Assembly (2007) (47)
- Experimental investigation of structure vulnerabilities to firebrand showers (2011) (44)
- The effects of initial diameter on sooting and burning behavior of isolated droplets under microgravity conditions (1998) (43)
- Measurement of the optical extinction coefficients of post-flame soot in the infrared (2003) (42)
- Exposing Decking Assemblies to Continuous Wind-Driven Firebrand Showers (2012) (40)
- Firebrands generated from a full-scale structure burning under well-controlled laboratory conditions (2014) (40)
- An experimental investigation of water droplet impingement on a heated wax surface (2004) (38)
- The burning of large n-heptane droplets in microgravity (2000) (37)
- Investigating the Vulnerabilities of Structures to Ignition From a Firebrand Attack (2008) (35)
- Experimentally Simulating Wind Driven Firebrand Showers in Wildland-urban Interface (WUI) Fires: Overview of the NIST Firebrand Generator (NIST Dragon) Technology (2013) (35)
- Characteristics of Firebrands Collected from Actual Urban Fires (2018) (35)
- Exposing siding treatments, walls fitted with eaves, and glazing assemblies to firebrand showers (2012) (34)
- On the Use of a Firebrand Generator to Investigate the Ignition of Structures in Wildland-Urban Interface (WUI) Fires. | NIST (2007) (33)
- Firebrand Production from Building Components Fitted with Siding Treatments. (2016) (33)
- The influence of liquid pool temperature on the critical impact Weber number for splashing (2003) (32)
- FORUM Position Paper The Growing Global Wildland Urban Interface (WUI) Fire Dilemma: Priority Needs for Research. (2018) (31)
- Ignition of Mulch Beds Exposed to Continuous Wind-Driven Firebrand Showers (2015) (29)
- Ignition of Wood Fencing Assemblies Exposed to Continuous Wind-Driven Firebrand Showers (2016) (28)
- Full-Scale Experimental Investigation to Quantify Building Component Ignition Vulnerability from Mulch Beds Attacked by Firebrand Showers (2017) (27)
- Performance of a non‐load‐bearing steel stud gypsum board wall assembly: Experiments and modelling (2007) (27)
- Experimental Investigation of Wood Decking Assemblies Exposed to Firebrand Showers. (2017) (26)
- Generating Wind-Driven Firebrand Showers Characteristic of Burning Structures. (2017) (25)
- Firebrand production from burning vegetation (2006) (23)
- CHARACTERIZING FIREBRAND EXPOSURE DURING WILDLAND-URBAN INTERFACE FIRES. | NIST (2011) (22)
- Numerical modeling of fire spread through trees and shrubs (2006) (22)
- Real fire performance of partition assemblies (2005) (22)
- Morphology of soot collected in microgravity droplet flames (2002) (21)
- The new and improved NIST Dragon's LAIR (Lofting and Ignition Research) facility (2012) (21)
- Measurement of Thermal Properties of Gypsum Board at Elevated Temperatures | NIST (2005) (20)
- Comparison Testing Protocol for Firebrand Penetration through Building Vents: Summary of BRI/NIST Full Scale and NIST Reduced Scale Results | NIST (2010) (20)
- Measurement Of Firebrand Production And Heat Release Rate (Hrr) From Burning Korean Pine Trees (2007) (20)
- Investigating Effect of Wind Speeds on Structural Firebrand Generation in Laboratory Scale Experiments. (2019) (18)
- Experiments to provide the scientific-basis for laboratory standard test methods for firebrand exposure (2017) (18)
- Development of rapidly deployable instrumentation packages for data acquisition in wildland–urban interface (WUI) fires (2010) (17)
- Summary of workshop for fire structure interaction and urban and wildland-urban interface (WUI) Fires–operation Tomodachi–fire research (2013) (17)
- Experimental Study of Firebrand Transport (2015) (16)
- Effects of benzene and naphthalene addition on soot inception in a well-stirred reactor/plug flow reactor (2009) (16)
- Effects of sample orientation on nonpiloted ignition of thin poly(methyl methacrylate) sheets by a laser: 2. Experimental results (2006) (15)
- On the Development and Characterization of a Reduced Scale Continuous Feed Firebrand Generator (2011) (14)
- Sooting behavior of ethanol droplet combustion at elevated pressures under microgravity conditions (2004) (14)
- Garnering understanding into complex firebrand generation processes from large outdoor fires using simplistic laboratory-scale experimental methodologies. (2020) (13)
- Experimental Investigation of Firebrand Accumulation Zones in Front of Obstacles. (2017) (13)
- Special Issue on Wildland–Urban Interface (WUI) Fires (2014) (12)
- Furnace Testing of Full-Scale Gypsum Steel Stud Non-Load Bearing Wall Assemblies: Results of Multi-Laboratory Testing in Canada, Japan, and USA (2009) (12)
- The performance of wood and tile roofing assemblies exposed to continuous firebrand assault (2016) (11)
- Special Section on Structure Ignition in Wildland-Urban Interface (WUI) Fires (2017) (11)
- The Effect of an Alcohol Resistant Aqueous Film Forming Foam (AR-AFFF) on the Evaporation, Boiling, and Collision Dynamics of a Water Droplet on a Heated Solid Surface (2002) (11)
- Role of accumulation for ignition of fuel beds by firebrands (2020) (11)
- Summary of workshop on global overview of large outdoor fire standards (2019) (10)
- Determining Structure Vulnerabilities to Firebrand Showers in Wildland-Urban Interface (WUI) Fires | NIST (2011) (9)
- The Performance of Concrete Tile and Terracotta Tile Roofing Assemblies Exposed to Wind-Driven Firebrand Showers (2013) (9)
- Technical Note An experimental investigation of sootshell formation in microgravity droplet combustion (2004) (9)
- Ignition Vulnerabilities of Combustibles around Houses to Firebrand Showers: Further Comparison of Experiments (2021) (8)
- Large Outdoor Fires and the Built Environment: Objectives and Goals of Permanent IAFSS Working Group (2018) (7)
- Summary of Workshop on Structure Ignition in Wildland- Urban Interface (WUI) Fires (2015) (7)
- Investigating Coupled Effect of Radiative Heat Flux and Firebrand Showers on Ignition of Fuel Beds (2020) (7)
- Urban-Wildland Fires: On the Ignition Of Surfaces By Embers 1 (2002) (7)
- Initial Study on Thatched Roofing Assembly Ignition Vulnerabilities to Firebrand Showers. (2019) (7)
- Summary of the 2011 workshop on research needs for full scale testing to determine vulnerabilities of decking assemblies to ignition by firebrand showers (2011) (7)
- Fuel-dependent Effects on Droplet Burning and Sooting Behaviors in Microgravity (2009) (6)
- Cold Discharge Of CF3I In A Simulated Aircraft Engine Nacelle (2003) (6)
- Investigating the Effect of Structure to Structure Separation Distance on Firebrand Accumulation (2021) (6)
- Quantifying wind‐driven firebrand production from roofing assembly combustion (2018) (6)
- Influence of Board Spacing on Mitigating Wood Decking Assembly Ignition. (2019) (5)
- Large outdoor fires and the built environment: (2019) (5)
- Experimental study on the performance of a load-bearing steel stud gypsum board wall assembly exposed to a real fire (2011) (5)
- Summary of Workshop on Research Needs for Full Scale Testing to Determine Vulnerabilities of Siding Treatments and Glazing Assemblies to Ignition by Firebrand Showers (2010) (5)
- The importance of combustion science to unravel complex processes for informal settlement fires, urban fires, and wildland-urban interface (WUI) fires (2021) (5)
- Towards understanding the effect of cedar roof covering application on firebrand production in large outdoor fires. (2021) (4)
- Summary of Workshop for Urban and Wildland-Urban Interface (WUI Fires: A Workshop to Explore Future Japan/USA Research Collaborations (2011) (4)
- Strategic Roadmap for Fire Risk Reduction in Buildings and Communities (2012) (4)
- On the Use of a Well Stirred Reactor to Study Soot Inception. | NIST (2005) (4)
- EXPOSING SIDING TREATMENTS AND WALLS FITTED WITH EAVES TO FIREBRAND SHOWERS | NIST (2011) (3)
- Cold Discharge of CF 3 I in a Simulated Aircraft Engine (2001) (3)
- DEVELOPING RAPID RESPONSE INSTRUMENTATION PACKAGES TO QUANTIFY STRUCTURE IGNITION MECHANISMS IN WILDLAND-URBAN INTERFACE (WUI) FIRES | NIST (2009) (3)
- On Unraveling Community Ignition Processes: Joint Influences of Firebrand Showers and Radiant Heat Applied to Fuel Beds (2022) (3)
- Exposing Wood Decking Assemblies to Continuous Wind-Driven Firebrand Showers (2012) (3)
- A dimensional analysis on firebrand penetration through a mesh screen. (2015) (3)
- Codification of Wind Loads on Buildings Using Bluff Body Aerodynamics and Climatological Data Bases. (2001) (3)
- Ethanol Droplet Combustion At Elevated Pressure and Enhanced Oxygen Concentrations (2003) (3)
- Summary of Full Scale Experiments to Determine Vulnerabilities of Building Components to Ignition by Firebrand Showers (2011) (3)
- Ignition of Vegetation and Mulch by Firebrands in Wildland/Urban Interface (WUI) Fires. | NIST (2005) (3)
- Understanding structure ignition vulnerabilities using mock‐up sections of attached wood fencing assemblies (2019) (3)
- QUANTIFYING WIND DRIVEN FIREBRAND PENETRATION INTO BUILDING VENTS USING FULL SCALE AND REDUDCED SCALE EXPERIMENTAL METHODS | NIST (2010) (3)
- Large Outdoor Fires and the Built Environment (LOF&BE): Summary of Workshop at Interflam 2019 (2019) (3)
- Introduction to the Special Section on Global Overview of Large Outdoor Fire Standards (2020) (2)
- EXPOSING GLAZING ASSEMBLIES TO FIREBRAND SHOWERS | NIST (2011) (2)
- Discharge of CF3I in a Cold Simulated Aircraft Engine Nacelle | NIST (2002) (2)
- FIREBRANDS GENERATED FROM FULL-SCALE BUILDING COMPONENTS AND STRUCTURES UNDER AN APPLIED WIND-FIELD | NIST (2013) (2)
- Analysis of Inter-laboratory Testing of Non-loadbearing Gypsum/Steel-Stud Wall Assemblies (2007) (2)
- Summary of Workshop on Research Needs for Full Scale Testing to Determine Vulnerabilities of Decking Assemblies to Ignition by Firebrand Showers (2011) (2)
- Comparing particulate morphology generated from human-made cellulosic fuels to natural vegetative fuels (2022) (2)
- Characteristics of Firebrands Collected from Urban Fire Niigata Fire, December 22nd 2016 | NIST (2017) (2)
- Ignition of Mulch by Firebrands in Wildland/Urban Interface (WUI) Fires (2005) (2)
- Firebrand generation from burning vegetation 1 (2007) (2)
- Influence of Base Sheathing Material on Wind-Driven Firebrand Production During Real-Scale Building Component Combustion (2018) (2)
- Influence of Angle Orientation on Firebrand Production from the Combustion of Surrogate Photovoltaic (PV) Panel Assemblies Exposed to Applied Wind Fields. (2020) (2)
- Summary of workshop for fire-structure interaction and urban and Wildland-Urban Interface (WUI) fires (2012) (2)
- DISCHARGE OF CF 3 I IN A COLD SIMULATED AIRCRAFT ENGINE NACELLE (2002) (2)
- FIREBRAND ATTACK ON CERAMIC TILE ROOFING ASSEMBLIES (2009) (2)
- Workshop for Fire Structure Interaction and Urban and Wildland-Urban Interface (WUI) Fires Operation Tomodachi Fire Research | NIST (2013) (2)
- Summary of Workshop on Fire-Structure Interaction and Urban and Wildland-Urban Interface (WUI) Fires Operation Tomodachi: Fire Research (2012) (2)
- Special Issue on Operation Tomodachi—Fire Research (2016) (2)
- Firebrands Generated in Shurijo Castle Fire on October 30th, 2019 (2021) (2)
- Droplet Impact on a Heated Stainless Steel Surface: Influence of Camera Framing Rate (2004) (1)
- Collision Dynamics of A Liquid Fire Suppressant Upon A Heated Wax Surface (2003) (1)
- The world is burning: What exactly are firebrands and why should anyone care? (2023) (1)
- Special Issue on Wildland-Urban Interface (2014) (1)
- EXPERIMENTAL INVESTIGATION OF WOOD DECKING ASSEMBLIES ATTACKED BY FIREBRAND SHOWERS | NIST (2016) (1)
- Development of Rapidly Deployable Instrumentation Packages for Real Time Data Acquisition in Wildland-Urban Interface (WUI) Fires | NIST (2010) (1)
- Summary of Workshop for Fire-Structure Interaction and Large Outdoor Fires Operation Tomodachi: Fire Research (2015) (1)
- Using the NIST Dragon to Quantify Structure Vulnerabilities to Ignition from Firebrand Showers | NIST (2010) (1)
- Structure Ignition in Wildland-Urban Interface (WUI)) Fires Special Section (2017) (1)
- Microgravity droplet combustion: An experimental investigation on the influence of sooting and radiation on droplet burning. (2000) (1)
- Investigating Conifer Tree Combustion in the Presence of an Applied Wind Field (2022) (1)
- An Experimental Study on Effects of Sample Orientation on Non-Piloted Ignition of Thin PMMA Sheets (2005) (1)
- The Effects of Sooting and Radiation on Droplet Combustion (1997) (1)
- Firebrand Processes in Wildland Fires and Wildland-Urban Interface (WUI) Fires (2019) (1)
- The new and improved NIST Dragons LAIR (Lofting and Ignition Research) Facility: Coupling the Reduced Scale Continuous Feed Firebrand Generator to Bench Scale Wind Tunnel | NIST (2011) (1)
- FIRE PERFORMANCE OF PARTITION ASSEMBLIES (2004) (1)
- On the Importance of Firebrand Processes in Large Outdoor Fires. (2019) (1)
- Toward understanding ignition vulnerabilities to firebrand showers using reduced‐scale experiments (2021) (1)
- Use of laser-induced ionization to detect soot inception in premixed flames. (2005) (1)
- EFFECT OF SIDING TREATMENT ON FIREBRAND PRODUCTION FROM BUILDING COMPONENTS | NIST (2015) (1)
- Experimental Study on Vulnerabilities of Japanese-Style Tile Roof Assemblies to Firebrand Exposures (2020) (1)
- Experimental Study on Effects of Sample Orientation on Non-Piloted Ignition of Thin PMMA Sheets. | NIST (2005) (0)
- Experimental Study of Firebrand Transport | NIST (2014) (0)
- Summary of workshop for fi re structure interaction and urban and wildland-urban interface ( WUI ) Fires – operation Tomodachi – fi re research (2013) (0)
- STUDY ON FIREBRAND GENERATION FROM ROOFING ASSEMBLY COMBUSTION (2018) (0)
- Firebrand Production From Burning Vegetation 1 (2006) (0)
- Ignition of Fine Fuels Exposed to Firebrand Showers | NIST (2014) (0)
- FIREBRAND ACCUMLATION ZONES IN FRONT OF STRUCTURES IN WILDLAND-URBAN INTERFACE (WUI) FIRES | NIST (2015) (0)
- Large Outdoor Fires and the Built Environment: Objectives and Goals of Permanent IAFSS Working Group (2018) (0)
- Review of Research on Human Behavior in Large Outdoor Fires (2023) (0)
- FIREBRAND IGNTION IN LARGE OUTDOOR FIRES: THE USE OF FULL-SCALE EXPERIMENTS TO GUIDE THE DEVELOPMENT OF LABORATORY STANDARD TEST METHODS | NIST (2016) (0)
- An Experimental Investigation of Gypsum Board Partition Assembly Performance Under Real Fire Exposures (2006) (0)
- Non-Piloted Ignition Visualization on a Thin Poly(methylmethacrylate) (PMMA) Surface (2005) (0)
- Announcement: Workshop on ‘Large Outdoor Fires and the Built Environment’ (LOF & BE 2020) (2020) (0)
- Ignition of Mulch Beds Exposed to Continuous Wind-Driven Firebrand Showers (2014) (0)
- A NIST Kinetic Data Base for PAH Reaction and Soot Particle Inception During Combusion (2007) (0)
- Characteristics of Firebrands Penetrated Under Japanese Style Tile Roofing Assemblies (2019) (0)
- Forest Fire reseArch (2021) (0)
- Firebrand Generation from a Full-Scale Structure | NIST (2013) (0)
- Full-Scale Experimental Investigation to Quantify Building Component Ignition Vulnerability from Mulch Beds Attacked by Firebrand Showers (2015) (0)
- Fire Performance of Partition Assemblies | NIST (2004) (0)
- Large Outdoor Fires and the Built Environment (LOF&BE): (2019) (0)
- 1 On the Use of a Well Stirred Reactor to Study Soot Inception (2005) (0)
- FIREBRAND ATTACK ON CERAMIC TILE ROOFING ASSEMBLIES | NIST (2009) (0)
- Experimental Study of a Water Droplet Impinging on a Liquid Surface | NIST (2002) (0)
- Characterizing Firebrand Exposure from Wildland–Urban Interface (WUI) Fires: Results from the 2007 Angora Fire (2012) (0)
- Plenary – Reducing the Risk of Fire in Buildings and Communities (2013) (0)
- Ignition of Japanese style tile roofing assemblies exposed to firebrands (2018) (0)
- Announcement: Workshop on ‘Large Outdoor Fires and the Built Environment’ (LOF & BE 2020) (2020) (0)
- INVESTIGATING WIND DRIVEN FIREBRAND PENETRATION INTO BUILDING VENTS | NIST (2010) (0)
- Use of Laboratory Scale Experiments to Investigate Firebrand Processes (2019) (0)
- Proceedings of the 2009 Workshop on Innovative Fire Protection | NIST (2010) (0)
- EXPERIMENTAL STUDY ON IGNITIONS OF THATCHED ROOFING ASSEMBLIES EXPOSED FROM FIREBRANDS | NIST (2018) (0)
- The Influence of COVID-19 Stay at Home Measures on Fire Statistics Sampled from New York City, London, San Francisco, and Tokyo (2021) (0)
- EXPERIMENTAL STUDY OF PERFORMANCE OF A LOAD-BEARING STEEL STUD GYPSUM BOARD WALL ASSEMBLY EXPOSED TO REAL FIRE | NIST (2011) (0)
- Effect of three lockdowns in London: Case study for residential fires (2022) (0)
- Characteristics of Firebrands Collected from Actual Urban Fires (2018) (0)
- Experimental Study of Firebrand Transport (2014) (0)
- Vulnerability of Decking Assemblies to Continuous Firebrand Shower | NIST (2013) (0)
- Special Section on Structure Ignition in Wildland-Urban Interface (WUI) Fires (2016) (0)
- Firebrand Production From Burning Vegetation | NIST (2006) (0)
- BUILDING COMPONENT IGNTION FROM MULCH BEDS IGNITED BY FIREBRAND SHOWERS | NIST (2015) (0)
- Firebrand Accumulation in Front of Structures in Large Outdoor Fires | NIST (2014) (0)
- Ignition of Mulch beds exposed to firebrand showers | NIST (2014) (0)
- IGNITION OF STRUCTURES FROM WIND DRIVEN FIREBRAND SHOWERS | NIST (2012) (0)
- DEVELOPMENT OF REDUCED-SCALE EXPERIMENTAL FACILITY TO STUDY FIREBRAND IGNTION | NIST (2015) (0)
- Investigation of Sooting in Microgravity Droplet Combustion: Fuel-Dependent Effects (1999) (0)
- Special Issue on Wildland–Urban Interface (WUI) Fires (2013) (0)
- The processes of firebrand deposition and accumulation from wind‐driven firebrand showers (2022) (0)
- Understanding Structure Ignition Vulnerabilities Using Reduced Size Sections of Building Components | NIST (2016) (0)
- Fuel Dependent Effects on Droplets Burning in Microgravity (2009) (0)
- Editorial: Improved Understanding of Firebrand Processes During Large Scale Fire Disasters (2022) (0)
- Experimental and Theoretical Approaches to Elucidate Fuel Bed Ignition Exposed to Firebrand Showers and Radiant Heat (2023) (0)
- Microgravity Superagglomerates Produced By Silane And Acetylene (2003) (0)
- Hardening structures to resist wildland-urban (WUI) fire exposures (2014) (0)
- Measurement of Soot Particle Size Distributions From a Well Stirred Reactor-Plug Flow Reactor. | NIST (2005) (0)
- Determining Ignition Regime Maps of Building Materials Exposed to Continuous Wind-Driven Firebrand Showers | NIST (2011) (0)
- Investigation on Firebrand Generation from Reduced-scale Mock-ups | NIST (2017) (0)
- Reducing the Risk of Fire in Buildings and Communities | NIST (2014) (0)
- Experiments to Quantify Firebrand Production from Roofing Assembly (2017) (0)
- Determining the Influence of Wind Speed on Structural Firebrand Generation in Laboratory Experiments (2018) (0)
- Urban/Widlland Fires: Ignition by Embers (2004) (0)
- Fire Performance of of a Non-Load Bearing Steel Stud Gypsum Board Wall Assembly. (POSTER ABSTRACTS) | NIST (2005) (0)
- Operation Tomodachi -Fire Research Special Issue (2016) (0)
- Experimental Study on Vulnerabilities of Japanese-Style Tile Roof Assemblies to Firebrand Exposures (2020) (0)
- ANALYSIS ON THE EFFECT OF WIND ON FIREBRAND ACCUMULATION IN FRONT OF OBSTACLES | NIST (2017) (0)
- Special Issue on the Importance of Combustion Science to Unravel Complex Large Outdoor Fire Processes (2021) (0)
- Ignition of Wood Fencing Assemblies Exposed to Continuous Wind-Driven Firebrand Showers (2015) (0)
- Urban/Wildland Fires: Ignition by Embers. | NIST (2004) (0)
- Development and Characterization of Continuous Feed Firebrand Generator | NIST (2013) (0)
- Reduced-scale Experimental Facility to Characterize Firebrand Ignition | NIST (2015) (0)
- Exposing Fencing Assemblies to Firebrand Showers Characteristic of Burning Structures | NIST (2017) (0)
- Firebrand Generation from Building Components with Cedar Siding | NIST (2013) (0)
- Special Issue on Operation Tomodachi—Fire Research (2016) (0)
- Large Outdoor Fires and the Built Environment (LOF&BE): Summary of Virtual Workshop (2020) (0)
- Investigating Firebrand Accumulation over Various Scales | NIST (2016) (0)
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What Schools Are Affiliated With Samuel L. Manzello?
Samuel L. Manzello is affiliated with the following schools:
