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International Journal for Fire Science and Technology -----Online Available |
| Vol.26 - 25 | Vol.24 - 21 | Vol.20 - 16 | Vol.15 - 11 | Vol.10 - 6 | Vol.5 - 1 | |
Significance and Status
The International Journal herein referred to is a collection of research papers that has beenmoderated and published by the Department of Fire Science and Technology, ResearchInstitute for Science and Technology, Tokyo University of Science since 1981. It has a goodtrack record of publishing internal and external research results to the world. Thispublication will be used to report activities and progress of the COE Program and be alinchpin that makes the University an international information source for research andeducation in the field of fire science. Also, its publication is planned to be made morefrequent while ensuring the quality of the accepted papers, with a view to improving itsacademic standing.
Scope of Publication
Combustion engineering (combustion characteristics and fire-resistance design), firephysics and chemistry, heat transfer engineering, fluid dynamics, fire control (combustioncontrol and smoke control), risk engineering, fire characteristics (flame behavior, thermalcurrent and compartment fire), human behavior in fire, structural fire resistance, behavior ofstructural frame and components in fire, fire safety design, urban fire and the like.
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Editors
Editor-in-chief
Takao WAKAMATSU(Tokyo University of Science, Japan)
Co-Editors
Ken MATSUYAMA(Tokyo University of Science, Japan),Yoshifumi OHMIYA(Tokyo University of Science, Japan)
Advisory Board
Michael A. Delichatsios(University of Ulster, UK), James G. Quintiere(University of Maryland, USA)
Editorial Board
Wan Ki Chow
(The Hong Kong Polytechnic University, Hong Kong, China) |
John L. De Ris
(FM Global Research, USA) |
Bogdan Dlugogorski
(The University of Newcastle, Australia) |
Weicheng Fan
(University of Science and Technology of China, China) |
Hakan Frantzich
(Lund University, Sweden) |
Jean-Marc Franssen
(University of Liege, Belgium) |
Ichiro HAGIWARA
(Building Research Institute, Japan) |
Kazunori HARADA
(Kyoto University, Japan) |
Yuji HASEMI
(Waseda University, Japan) |
Richard Hull
(University of Bolton, UK) |
Mamoru KOHNO
(National Institute for Land and Infrastructure Management, Japan) |
Matti Kokkala
(VTT Technical Research Center of Finland, Finland) |
Guy Marlair
(INERIS, France) |
Masahiro MORITA
(Tokyo University of Science, Japan) |
James Mehaffey
(Forintek Canada corp., Canada) |
John Rockett
(Fire Modeling & Analysis, USA) |
Shin’ichi SUGAHARA
(Tokyo University of Science, Japan) |
Ai SEKIZAWA
(The University of Tokyo, Japan) |
Hiroyuki SUZUKI
(University of Tsukuba, Japan) |
Osami SUGAWA
(Tokyo University of Science, Suwa, Japan) |
Jose Torero
(The University of Edinburgh, UK) |
Takeyoshi TANAKA
(Kyoto University, Japan) |
Takashi TSURUDA
(National Research Institute of Fire and Disaster, Japan) |
Makoto TSUJIMOTO
(Tokyo University of Science, Japan) |
Myong O Yoon
(University of Seoul, Korea) |
Hideki UESUGI
(Chiba University, Japan) |
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Vol.26 - 25 |
| Vol. |
No. |
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| 26 |
4(Special Issue) |
2007 |
Structural Fire Resistance |
- |
- |
Prediction of Temperature Properties of Exterior Steel Structural Members Exposed to Fire - Outline of a Three-Dimensional Heart Flow Analysis Model - |
Kayoko Mizuno, Takao Wakamatsu and Tatsuaki Tanaka |
297 |
Studies on Ultimate Temperatures of Steel Columns Subjected to Thermal Elongations of Beams at a Fire |
Fuminobu Ozaki and Takao Wakamatsu |
303 |
Study on Influences of Slab in Framed Structure Exposed to Fire - Influence on the Behavior of Comer Column Exposed to Fire - |
Yuguang Li, Hideki Uesugi, Takeo Hirashima and Takao Wakamatsu |
309 |
Heating Mechanism of Double Tubular Steel Columns Part 1 Verification using the Real-Scale experiment |
Seiji Okinaga, Takashi Wakamatsu, Masayuki Mizuno and Takao Wakamatsu |
315 |
Heating Mechanism of Double Tubular Steel Columns Part 2 Numerical Analysis and Comparison with the Experimental Results |
Takashi Wakamatsu, Seiji Okinaga, Masayuki Mizuno and Takao Wakamatsu |
321 |
Structural Fire Resistance on a Shear Connection between a Beam and Column Fastened by High Strength Bolts |
Fuminobu Ozaki and Takeo Hirashima |
327 |
Ultimate Temperature of Steel Frames Exposed to Fire - Part 1 Stress Redistribution and Ultimate Temperature of Steel Frames - |
Junichi Suzuki, Hiroyuki Suzuki, Takao Wakamatsu, Yoshifumi Oymiya and Takashi Terakawa |
333 |
Ultimate Temperature of Steel Frames Exposed to Fire - Part 2 Stress Redistribution and Limit of Deformation of Steel Frames - |
Hiroyuki Suzuki, Junichi Suzuki, Takao Wakamatsu, Yoshifumi Oymiya and Takashi Terakawa |
339 |
Ultimate Temperature of Steel Frames Exposed to Fire - Part 3 Influence of Local Buckling on the Ultimate Temperature of Steel Frames - |
Takashi Terakawa, Junichi Suzuki, Hiroyuki Suzuki, Takao Wakamatsu and Yoshifumi Ohmiya |
345 |
Estimation of Fire Damage in HIgh-Strength Mortar Mixed Polypropylene Fibers by Ultrasonic Tomography |
SangJun Park and Yasuo Tanigawa |
351 |
Evacuation |
- |
- |
Analysis on the Difference of the Evacuation Characteristics based on the Questionnaire Survey Results |
Yosuke Nakano, Manabu Ebihara, Yoshifumi Ohmiya, Tomonori Sano and Shuji Kakegawa |
361 |
Development of the Dynamic Simulation Program for Evaluation of Evacuation Safety in the Building Fire Part 1 Outline of Improvements of the Zone Model BRI2002 |
Shigeru Yamada, Takeyoshi Tanaka, Masayuki Mizuno, Shin-ichi Tsuburaya and Takao Wakamatsu |
367 |
Development of the Dynamic Simulation Program for Evaluation of Evacuation Safety in the Building Fire Part 2 Outline of the evacuation behavior model |
Masayuki Mizuno, Shin-ichi Tsuburaya, Shigeru Yamada, Takeyoshi Tanaka, Masahiro Morita and Takao Wakamatsu |
373 |
Development of the Dynamic Simulation Program for Evaluation of Evacuation Safety in the Building Fire Part 3 Case studies |
Shin-ichi Tsuburaya, Masayuki Mizuno, Shigeru Yamada, Takeyoshi Tanaka, Takao Wakamatsu, Masahiro Morita and Shin-ichi Sugahara |
379 |
Study on Human Behavior from High-Rise Building Part 5 Influence to Operation Perfoemance of the Evacuation-Chair by Width Change of the Stairs |
Shutaro Abe, Mitsutaka Ishizuki, Yoshifumi Ohmiya, Tomonori Sano and Ichiro Hagiwara |
385 |
Evacuation of High-Rise Building Part 6 Experiment on Evacuation-Chair Taking Consideration of Change of Rider Weight |
Mistutaka Ishizuki,Yoshifumi Ohmiya, Tomonori Sano, Ichiro Hagiwara and Shutaro Abe |
391 |
Experimental Study on Avoidance Behavior Against a Flame in the Fire Room Development of Evacuation Simulator Based on Potential Method Part 2 |
Masayuki Mizuno, Shinichi Tsuburaya, Yoshifumi Ohmiya, Masahiro Morita, Takao Wakamatsu |
397 |
Empirically-Based Formulation of the Parameter on the Agent Movement Model in the Case of Going Down Stairs Development of Evacuation Simulator at Staircase Based on the Potential Method Part 1 |
Masayuki Mizuno, Shin-ichi Tsuburaya, Yuki Akizuki, Takeyoshi Tanaka, Masahiro Morita and Shin-ichi Sugahara |
403 |
Development of Evacuation Simulator at Staircase Development of Evacuation Simulator at Staircase Based on the Potential Method Part 2 |
Shin-ichi Tsuburaya, Masayuki Mizuno, Yuki Akizuki, Takeyoshi Tanaka, Masahiro Morita and Shin-ichi Sugahara |
409 |
A Study on Human Behavior of a Crowd in a Staircase Based on the Evacuation Simulation Model |
Manabu Ebihara, Shuji Kanegawa, Ai Sekizawa and Hiroaki Notake |
415 |
Fire Dynamics |
- |
- |
A Study on the Generation and Development Mechanisms of Fire Whirls Part 1 Experimental Analysis using the Reductive Scale Model |
Ken Matsuyama, Naohisa Ishikawa, Yoshifumi Ohmiya, Shu-ichi Tanaka, Futoshi Tanaka and Yoshihiko Hayashi |
421 |
A Study on the Generation and Development Mechanisms of Fire Whirls Part 2 Numerical Analysis Using CFD Code |
Naohisa Ishikawa, Yoshihiko Hayashi, Shu-ichi Tanaka, Futoshi Tanaka, Ken Matsuyama and Yoshifumi Ohmiya |
427 |
A Study on the Generation and Development Mechanisms of Fire Whirls Part 3 Analysis by Model Experiment |
Naohisa Ishikawa, Takemasa Kobayashi, Futoshi Tanaka, Ken Matsuyama and Yoshifumi Ohmiya |
435 |
A Study on the Generation and Development Mechanisms of Fire Whirls Part 4 Construction of a Generation and Attenuation Model of Fire Whirls |
Takemasa Kobayashi, Naohisa Ishikawa, Ken Matsuyama, Futoshi Tanaka and Yoshifumi Ohmiya |
441 |
Field Survey Considering Distribution of Fire Location Part 1 Survery Summary and Results |
Yoshifumi Ohmiya, Kazunori Harada, Jun Kitahori, Norichika Kakae and Ken Matsuyama |
449 |
Field Survey Considering Districbution of Fire Location Part 2 Consideration for Two Types of Space Area |
Jun Kitahori, Yoshifumi Ohmiya, Norichika Kakae, Ken Matsuyama and Kazunori Harada |
455 |
A Method for Controlling the Temperature Rise of Steel Panels during a Fire Part 1 Experimental and Numerical Analysis Model Based on Water Discharge Equipment |
Takemasa Kobayashi, Yoshifumi Ohmiya, Kaoru Wakatsuki, Norichika Kakae and Junichi Suzuki |
461 |
A Method for Controlling the Temperature Rise of Steel Panels during a Fire Part 2 Behavior of the Water Film and Heat Transfer |
Yoshifumi Ohmiya, Junichi Suzuki, Takemasa kobayashi, Kaoru Wakatsuki and Norichika Kakae |
467 |
Fire Behavior under a Ceiling in Growing Fire Part 1 Fire Spread and Ceiling Temperature Distribution |
Hiroyuki Sunahara, Takahiro Ishihara, Akimitsu Kikkawa, Masayuki Mizuno, Yoshifumi Ohmiya and Masahiro Morita |
473 |
Fire Behavior under Ceiling in Growing Fire Part 2 Ceiling Jet Velocity and Flame Length |
Takahiro Ishihara, Hiroyuki Sunahara, Akimitsu Kikkawa, Masayuki Mizuno, Yoshifumi Ohmiya and Masahiro Morita |
479 |
Influence of Combustible Dimension and Density on Heat Release Rate |
Norichika Kakae, Tsuneto Tuchihashi, Yoshiaki Tanaka, Yoshifumi Ohmiya and Kazunori Harada |
485 |
Influence of Combustible Dimension and Density on Heat Release Rate Part 2 Relation between Combustible Dimension, Maximum Heart Release Rate and Duration of Maximum Burning |
Norichika Kakae, Tsuneto Tsuchihashi, Yoshiaki Tanaka, Yoshifumi Ohmiya and Kazunori Harada |
491 |
Fire Plume Ejected from an Opening in Unconfined Space Part 1 Experimental Outline |
Tomoaki Nakao, Akito Yanagisawa, Akihide Jo, Kaoru Wakatsuki and Yoshifumi Ohmiya |
497 |
Fire Plume Ejected from an Opening in Unconfined Space Part 2 Generation Limit of the External Flame |
Akito Yanagisawa, Akihide Jo, Tomoaki Nakao, Kaou Wakatsuki and Yoshifumi Ohmiya |
505 |
Fire Plume Ejected from an Opening in Unconfined Space Part 3 Behavior of Fire Plume Ejected from an Opening in the Vicinity of Opposed Walls |
Akihide Jo, Tomoaki Nakao, Akito Yanagisawa, Kaoru Wakatsuki and Yoshifumi Ohmiya |
511 |
Differences between Free and Compartment Burning of Furniture Part 1 Experiment Outline and Results Regarding Heat Flux and Smoke Layer |
Takayuki Orito, Akihide Jo, Norichika Kakae, Yoshifumi Ohmiya and Kaoru Wakatsuki |
517 |
Differences between Free and Compartment Burning of Furniture Part 2 Maximum Heat Release Rate and Fire Growth Rate |
Akihide Jo, Takayuki Orito, Norichika Kakae, Yoshifumi Ohmiya and Kaoru Wakatsuki |
523 |
Behavior of Fire Plume Ejected from Opening with Soffit |
Akito Yanagisawa and Yoshifumi Ohmiya |
529 |
Experimental Clarification of Flame Ejection in the Presence of Wind and its Application in Models - Development of a Model for Fire Propagation between Buildings in Urban Areas - |
Naofumi Kodama, Yoshihiko Hayashi, Yoshufumi Ohmiya and Tatsuya Iwami |
537 |
Flame Length of Wood Crib during Fire Extinguishing Experiments |
Hiroyuki Sunahara, Takahiro Ishihara, Akimitsu Kikkawa, Masayuki Mizuno, Ken Matsuyama and Masahiro Morita |
545 |
A Study of Smoke Behavioe in a Compartment with Sprinkler System Activation - Theory and Validity on the Flow Rate of the Fire Plume dueing Sprinkler System Activation- |
Mitsuru Ota, Jun-ichi Yamaguchi, Yuta Kuwana and Yoshifumi Ohmiya |
551 |
Study of Smoke Behavior in a Compartment with Sprinkler System Activation - Measurement and Analysis of Fire Plumes- |
Yuta Kuwana, Jun-ichi Yamaguchi, Mitsuru Ota and Yoshifumi Ohmiya |
557 |
| A Study of Smoke Cotrol Systems Using Convective Flow in Undergroulnd Station Buildings |
Takeshi Tokunaga, Kenji Amano, Seiji Uchiyama, Masayuki Mizuno, Yoshifumi Ohmiya, Takao Wakamatsu and Makoto Tsujimoto |
565 |
| 26 |
3 |
2007 |
Structural Redundancy and Effect of Seismic Design on Ultimae Temperature of Steel Frames Exposed to Fire - Chapter 1 |
Jun-ichi Suzuki |
93 |
Structural Redundancy and Effect of Seismic Design on Ultimae Temperature of Steel Frames Exposed to Fire - Chapter 2 |
Jun-ichi Suzuki |
113 |
Structural Redundancy and Effect of Seismic Design on Ultimae Temperature of Steel Frames Exposed to Fire - Chapter 3 |
Jun-ichi Suzuki |
145 |
Structural Redundancy and Effect of Seismic Design on Ultimae Temperature of Steel Frames Exposed to Fire - Chapter 4 |
Jun-ichi Suzuki |
177 |
Structural Redundancy and Effect of Seismic Design on Ultimae Temperature of Steel Frames Exposed to Fire - Chapter 5 |
Jun-ichi Suzuki |
259 |
| Structural Redundancy and Effect of Seismic Design on Ultimae Temperature of Steel Frames Exposed to Fire - Chapter 6 |
Jun-ichi Suzuki |
283 |
| 26 |
2 |
2007 |
An Overview of the Current Fire Research and Fire Safety Design in Korea |
Sang-Dae Kim, Myeong-Han Kim and Seong-Deok Kang |
43 |
Behavior of iTECH Composite Beam in Fire - Experimental Study |
Myeong-Ham Kim, Sang-Dae Kim and Seong-Deok Kang |
51 |
Local Buckling Behaviour of Steel Sections Subjected to Fire |
Markus Knobloch |
61 |
Fire Engineering of Buildings - Some Aspects on the Situation in Switzerland and Europe Recent Research at ETH Zurich |
Mario Fontana |
67 |
| Redundancy and Stress Redistribution of Rigidly Connected Steel Frames Subject to Fire |
Hiroyuki Suzuki |
87 |
| 26 |
1 |
2007 |
A Correlation for the Flame Height in "Group" Fires |
Michael A. Delichatsios |
1 |
| An Experimental Study on the Smoke Behavior and Ensuring the Safety of Staircases in a Station Building During a Fire - Air Current Control in an Underground Station by a Passive Safety System - |
Takeshi Tokunaga, Kenji Amano, Daisuke Oiwa, Seiji Uchiyama, Masayuki Mizuno, Yoshifumi Oymiya, Takao Wakamatsu and Makoto Tsujimoto |
9 |
| 25 |
3 |
2006 |
Fire Sourse Model Based on the Ignited Material and Its Burning Property in the Early Stages of Fire in Residential Accommondations |
H.Satoh and T.Mizuno |
163 |
| A Proposal of a Visual Communication Tool for the Reduction of Early Stage Fire Spread Risk in Dwelling Units |
H.Satoh, H.Kurioka and H.Sato |
189 |
A Demonstrational Test of Pressurization Smoke Control System at a Large-Scale Shopping Store |
M.Hiirota, H.Mizuochi and S. Kakegawa |
213 |
| 25 |
2(Special Issue) |
2006 |
Overview of Standards for Fire Risk Assessment |
John R.Hall, JR. |
55 |
| Death Risk by Building Fires in Japan and Its Usage |
M.Tsujimoto |
63 |
| Overview of Fire Risk Assessment Projects by Arup in Americas, Australasia, East Asia and Europe Regions |
M.C.Hui and M.Salisbury |
69 |
| A Study of Fire Risk Performance Paramenters |
D. Charters |
81 |
| The Use of Relative Risk-Based Assessment to Identify Cost-Effective Fire Safety Design Options for a Large Office Building |
N.Benichou |
87 |
| Fire Risk Assessment of the Chip-Pan Fire Hazard in a Large London Hostel |
G.Cooke |
105 |
| A Consideration on Determination of Design Fire Based on Fire Risk Concept |
T.Takeyoshi and Y.Jun-Ichi |
115 |
| Building Fire Safety, Structural Fire Tests, and Performance based Codes |
T.D.Lin |
133 |
| Performance Requirment for Building Fire Safety from the Viewpoint of Firefighting and Rescue Activity |
A.Sekizawa and H.Notake |
147 |
| 25 |
1 |
2006 |
An Experimental Study on the Evacuation Flow of Crowd Including Wheelchair Users |
Taku Shimada and Hideo Naoi |
1 |
| Effect of Shape and Size of a Fire Source on Fire Properties in Vicinity of a Fire Source in a Tunnnel |
Yasushi Oka and Hitoshi Kurioka |
15 |
| Development of a Simple Esitimation Method of Heat Release Rate Based on Classification of Common Combustibles into Category Groups |
Akiko Natori, Norichika Kakae, Jun Kitahori, Tsuneto Tsuchihashi, Toshihiko Abe, Tsutomu Nagaoka, Yoshihumi Ohmiya and Kazunori Harada |
31 |
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Vol.24 - 21 |
| Vol. |
No. |
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| 24 |
4 |
2005 |
Simple Equations for Predicting Smoke Filing Time in Fire Rooms with Irregular Ceiling |
J.Yamaguchi and T.Tanaka |
165 |
| A Calculation Method for Predicting Heat and Smoke Detector's Response |
Y.Yamauchi, A.Mammoto, M.Dohi, H.Ebata and M.Morita |
179 |
| An Analytical Method of Deflection Behavior Concerning Three-Dimensional Steel Frame Exposed to Fire which Takes Account of the Thermal Expansion of a Flooe Slab |
Y.Li, H.Lin, T.Hirashima, H.Uesigi and T.Wakamatsu |
211 |
Evaluation of Fire Resistance of Aluminum Alloy Members |
J.Suzuki, Y.Ohmiya, T.Wakamatsu, K.harada, S.Yusa and M.Kohno |
237 |
| 24 |
3 |
2005 |
Experimental Studies on Wheelchair Passing Through Fire Doors |
T.Sano and K.Nunota |
121 |
| A New Method for Selecting the Design Fire for Safety Provision |
W.W.Yuen and W.K.Chow |
133 |
Prediction of Ceiling Jet Smoke Concentration Under Two Layer Environment |
J.Watanabe and T.Tanaka |
151 |
| 24 |
2(Special Issue) |
2005 |
On Expected Role of Center for Fire Science and Technology of Tokyo University of Science |
T.Tanaka |
39 |
| Research Vision at Fire Sert, University of Ulster |
M.Delichatsios |
43 |
The Development During 18 Years and a Look at the Future |
R.Jönsson |
51 |
Fire Research and Education at the University of Maryland |
J. Quintiere |
61 |
Progress in Fire Research and Education at SKLFS |
W.Fan |
71 |
An Overview of the Current Changes of Fire Safety Education and Research in Central Police University Taiwan |
T-S.Shen |
85 |
Revising of the Edicational Program to Improve the Fundamental Basis of Fire & Disaster Management System in Korea |
M-O.Yoon |
93 |
Research and Education in Fire Engineering in Hong Kong |
W.K.Chow |
99 |
Research and Practice on Building Fire Safety in Brazil |
R.Ono |
113 |
| 24 |
1 |
2005 |
A Model for Ceiling Flame Spread |
W.G.Weng, Y.Hasemi |
1 |
Temperature Profiles of Window Jet Plume |
J.Yamaguchi, T.Tanaka |
17 |
| 23 |
5(Special Issue) |
2004 |
A Three-Dimensional Heat Flow Analysis Model of Steel Structural Members upon Fire Exposure -Prediction of Temperature Properties of Exterior Steel Structural Members Exposed to Fire- |
T.Wakamatsu, K.Mizuno, T.Tanaka |
338 |
Analysis on Target Safety Level, for Egress from a Fire Room and a Fire Floor in Typical Office Buildings |
M.Mizuno, K.Harada, T.Wakamatsu |
402 |
| 23 |
4(Special Issue) |
2004 |
The First Symposium of the 21st century COE program |
|
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| Part1 |
|
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Opening Address |
T.Wakamatsu |
240 |
Chief Director's Address |
T.Tsukamoto |
242 |
President's Address-Formation of a COE center and the concept of university reform- |
H.Okamura |
244 |
The Ceter for Advanced Fire Safety Science and Technology for Buildings-Overview and Summary |
M.Morita |
248 |
History and Future Concept of Fire Research at Tokyo University of Science |
Y.Ohmiya |
254 |
Parts 2 |
|
|
Fire Research:Yesterday,Today,and Tomorrow-Focusing on Japan |
Y.Hasemi |
262 |
The Role of Fire Prevention Technology:Discussions on Recent Examples of Fire |
K.Harada |
270 |
The Assessment of Fire Using Probability Theory |
Y.Aoki |
274 |
Fire Safety Engineering Based on Risk Assessment |
Y.Yashiro |
280 |
Future Prospects of Building Fire Safety Assessment/Design Method |
T.Tanaka |
288 |
Human Factors in Fire Safety Measures |
A.Sekizawa |
296 |
Engineering for Urban Disaster Measures |
M.Tsujimoto |
304 |
Parts 3: Panel Discussion on "Objectives of Fire Science in the Twenty-First Century" |
|
312 |
| 23 |
3 |
2004 |
A Burning Model for Charring Materials and Its Application to the Compartment Fire Development |
K.Himoto, T.Tanaka |
170 |
| Fire Resistance of Composite Beams Composed of Rolled Steel Profile Concreted Between Flanges | A.Kodaira, H.Fujinaka, H.Ohashi, T.Nishimura |
192 |
Analytical Method for High Temperature Collapse of a 3D Steel Frame |
A.Hori |
208 |
Experimental Study on the Fire-Spreading Prevention Effect in Buildings by Drencher Equipment |
M.Hirota, H.Mizuochi, K.Ikeda, Y.Ohmiya, Y.Yoshiba, T.Yamana, S.Yusa |
222 |
| 23 |
2 |
2004 |
Simulation of City Fire |
T.Iwami, Y.Ohmiya, Y.Hayashi, K.Kagiya, W.Takahashi, T.Naruse |
132 |
| Real-Scale Fire Wind Tunnel Experiment on Generation of Firebrands from a House on Fire |
H.Yoshioka, Y.Hayashi, H.Masuda, T.Noguchi |
142 |
CFD Simulation of Thermal Plume and Firebrands Scattering in Urban Fire |
H.Huang, R.Ooka, S.Kato, H.Otake, Y.Hayashi |
152 |
Flame Characteristics of Group Fires |
Y.Fukuda, D.Kamikawa, Y.Hasemi, K.Kagiya |
164 |
| 23 |
1(Special Issue) |
2004 |
BRI2002: Two Layer Zone Smoke Transport Model |
|
|
| Introduction |
| Chapter1: Outline of the Model |
1 |
| Chapter2: Outline of the Computer Program | 45 |
| Chapter3: Use of the Program |
100 |
| Chapter4: Limitations and Future Issues | 129 |
| 22 |
1 |
2003 |
A risk-based approach to verification of fire safety design solutions |
J.Lundin, H.Johansson |
1 |
| Experimental study on fire and plume properties using bri's fire wind tunnel facility |
Y.Hayashi, Y.Ohmiya, T.Iwami, T.Saga |
17 |
| 21 |
1 |
2001 |
Fire Tests in a Large Hall, Using Manually Applied High-and Low-pressure Water Sprays |
S.Särdqvist, S.Svensson |
1 |
| Comparison of Japanese and European Fire Classification Systems for Surface Linings |
T.Hakkarainen, Y.Hayashi |
19 |
| A Systematic Experiments of Room and Corridor Smoke Filling for use in Calibration of Zone and CFD Fire Models for Engineering Fire Safety Design of Buildings |
K.Matsuyama, M.Mizuno, T.Wakamatsu, K.Harada |
43 |
| Symple Estimation Model on Ceiling Temperature and Velocity of Fire Induced Flow under Ceiling |
O.Sugawa |
57 |
|
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Vol.20 - 16 |
| Vol. | No. |
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| 20 |
1 |
2000 |
Heating Mechanism of Building Components Exposed to a Localized Fire |
T.Wakamatsu, Y.Hasemi, A.V.Ptchelintsev |
1 |
| Fire Safety Design Based on Risk Assessment |
R.Jönsson, J.Lundin |
13 |
| An Investigation on the Distribution of Fire Brands and Spot Fires due to a Hotel Fire |
Y.Ohmiya, T.Iwami |
27 |
| CFD Modelling of Garage Fire and Gaseous Fire Suppression |
D.Makarov, O.Sugawa, A.Karpov, T.Tsuruda |
37 |
| 19 |
1 |
1999 |
Performance Based Codes and Performance Based Fire Safety Design |
K.Harada |
1 |
| Survey and Analysis on Surface Area of Fire Load |
K.Aburano, H.Yamanaka, Y.Ohmiya, K.Suzuki,T.Tanaka, T.Wakamatsu |
11 |
| Closed-Form Equations for Room Smoke Filling During an Initial Fire |
K.Matsuyama, Y.Misawa, T.Wakamatsu, K.Harada |
27 |
| The Effect on Fireproof Cost and Evacuation Safety by The Installation and Reliability of Fire Prevention Devices |
M.Nakano, K.Aburano, T.Yutani, Y.Murosaki |
39 |
| 18 |
1 |
1998 |
Experimental Study on Fire Resistance of Fire-Resistant Steel Beams |
Y.Sakumoto, I.Nishida |
1 |
| A Room Fire Model for Predicting Fire Spread by External Flames |
Y.Ohmiya, T.Tanaka, T.Wakamatsu |
11 |
| A Simple Predictive Method for Room Fire Behavior |
K.Matsuyama, T.Fujita, H.Kaneko, Y.Ohmiya, T.Tanaka, T.Wakamatsu |
23 |
| Practical Design and Performance Based Regulations |
P-A.Marberg, H.Frantzich, R.Jönsson, J.Lundin, T.Rantatalo |
33 |
| A Pilot Case Study of a Performance-Based Fire Safety Design Method to a Multi-Tenant Office Building |
K.Koya, Y.Ohmiya, K.Harada, T.Tanaka, A.Hokugo, I.Hagiwara |
43 |
| 17 |
Special Issue |
1997 |
Kawagoe Memorial Symposium |
|
|
| Opening Address- Kawagoe Memorial Symposium |
Yoshio Mimura |
1 |
| Memory of Professor Kawagoe |
Jack E. Snell |
3 |
| Recollection of Meetings with Kunio Kawagoe |
Alexander F. Robertson |
4 |
| Behavior of Wind Blown Crib Fires |
Takashi Sekine |
6 |
| Fire Investigation: An Analysis of the Waldbaum Fire, Brooklyn, NY August 3, 1978 |
James G. Quintiere |
10 |
| Simple Formula for Ventilation Controlled Fire Temperatures |
Takeyoshi Tanaka, Masafumi Sato and Takao Wakamatsu |
15 |
| Zone Model Plume Algorithm Performance |
John A. Rockett | 28 |
| Mathematical Modeling for Building Fire |
Masahiro Morita |
40 |
| Performance Based Fire Safety |
H.E.Nelson |
49 |
| Flame Length and Width Produced by Ejected Propane Gas Fuel from a Pipe |
Osami Sugawa and Kikuko Sakai |
55 |
| The Effect of Pool Diameter on the Property of Smoke Produced by Crude Oil Fires |
George W.Mulholland, W.Liggett and H.Koseki |
64 |
| Heat and Mass Transfer in the Walls Subjected to Fire |
Kazunori Harada and Toshio Terai |
70 |
| Full-Scale Burn Test of Wooden Three-story Apartment Building |
Yuji Hasemi |
78 |
| 16 |
1&2 |
1996 |
Technology |
|
|
| Burning Rate of Fuels and Generation Limit of The External Flames in Compartment Fire |
Yoshifumi Ohmiya, Takeyoshi Tanaka and Takao Wakamatsu |
1 |
| Mathematical Modelling of The Dynamics of Fire Formations in The Open Atmosphere |
A.M.Ryzhov, Yu.A.Gostintsev |
13 |
| Burning of Vegetable Raw Material and Fire Safety of Elevators |
L.P.Vogman, A.Ya.Korolchenko, A.G.Degtyarev, Yu.V.Plyushkevich |
29 |
| A Prospect of Development Sub Surface Injection Method Extinguishing of Fires of Petroleum |
A.F.Sharovarnikov, A.A.Efimov, |
35 |
| 2. Approximate Solution of Powered Materials Spontaneous Combustion Problem for Reaction of ν-order |
V.I.Gorsnkov, L.P.Vogman, A.G.Degtyarev |
41 |
|
|
<
tr>
Vol.15 - 11 |
| Vol. |
No. |
|
| |
|
| 15 |
1&2 |
1995 |
Technology |
| |
| Zone Model Plume Algorithm Performance |
John A. Rockett |
1 |
| A Strategy to Develop Engineering Upward Flame-Spread Evaluation Methodology Based on The Linearized Flame Height Approximation |
Y.Hasemi and N.Yasui |
17 |
| Science |
|
|
| The Influence of Moving Water Film on a Flame Propagation in Mixtures of H2, and Air in a Tube |
Yu.N.Shebeko, A.Ya.Korolchenko, R.R.Ionaitls, S.G.Tsarichenko, V.Yu.Navzenya, A.V.Trunev, A.A.Zaitzev and S.N.Papkov |
29 |
| Fire and Explosion risk Assessment for LPG Storages |
Yu.N.Shebeko, A.Ya.Korolchenko, A.P.Shevchuk, V.A.Kolosov and I.M.Smolin |
37 |
| Fire Hazard of Vegetable Raw Materials |
L.P.Vogman and A.G.Degtyarev |
47 |
| 14 |
1&2 |
1994 |
In Memory of Emeritus Professor Kunio Kawagoe,
Ex-Editor-In-Chief of Journal of "Fire Science and Technology" and Ex-Director of "Center for Fire Science and Technology" |
|
|
| Science |
| Local, Small-Scale Interaction of Turbulence with Chemical Reactions in H2-O2 Combustion |
J.M.McDonough and K.Saito |
1 |
| Technology |
|
|
| An Empirical Model of the Yield of Carbon Monoxide in Fires |
Takeyoshi Tanaka |
19 |
| Computing Radiative Heat Transfer Occuring in a Zone Fire Model |
Glenn P.Forney |
31 |
| Analyzing and Exploiting Numerical Characteristics of Zone Fire Models |
Glenn P.Forney |
49 |
| The Pressure Equations in Zone-Fire Modeling |
Ronald G.Rehm and Glenn P.Forney |
61 |
| 13 |
Special Issue |
1993 |
Special Issue for SMiRT 11 Seminar #6 Fire Safety for Nuclear Power Plants |
|
|
| Introduction |
Kunio Kawagoe |
i |
| Conclusions from the Seminar |
Ulrich Schneider |
ii |
| Introduction of Nuclear Power Plants in Japan |
Kunio Kawagoe |
1 |
| Fire Hazards Assessment for Pickering Nuclear Generation Station |
Steven P.Lee and Malcolm Rawlingson |
5 |
| Fire Risk Assessment and Management in Nuclear Power Plants |
George E.Apostolakis |
12 |
| Fire Safety Problems with Older Nuclear Power Plants |
Ulrich Schneider and Ulrich Max |
40 |
| A Review of Experimental and Nuclear Studies Performed at CADARACHE on Hydrocarbon Fires |
R.Rzekiecki, J.C.Malet, C.Casselman and J.M.Such |
54 |
| Study of Force-Ventilated Fires in Closed Space |
K.Mizuno, S.Tanaka and Y.Hasemi |
63 |
| Fire Experiments in a Closed Subcompartment of a Nuclear Power Plant |
K.Müller and R.Dobbernack |
83 |
| Fire Code Assessment During HDR Experiments |
M.Röwekamp, R.Dobbernack and K.Müller |
92 |
| Fire Simulation in Nuclear Power Plants with the Code MRFC |
Ulrich Schneider and Ulrich Max |
102 |
| HDR Reactor Containment Fire Simulation |
John A.Rockett, Esko.Eloranta and Olavi.Keski-Rahkonen |
116 |
| An HMS/RRAC Analysis of a High-Level Radioactive Waste Tank Farm |
J.R.Travis, B.D.Nichols, J.W.Spore and T.L.Win |
135 |
| Fire Risk from Electric Parts - Fire Cases Initiated from Non-fused Breaker - |
Osami Sugawa and Kunio Kawagoe |
168 |
| Standards for Fire Safety of Indian Pressurized Heavy Water Reactors(PHWRs) |
N.K.Agarwal |
176 |
| 13 |
1&2 |
1993 |
Science |
| |
Fire-Plume-Generated Ceiling Jet Characteristics and Convective Heat Transfer to Ceiling and Wall Surfaces in A Two-Layer Fire Environment:
Uniform Temperature Ceiling and Walls |
Leonard Y.Cooper |
1 |
| Technology |
|
|
Large-Scale Experiments with Roof Vents and Sprinklers
Part1: Temperature and Velocity Measurements in Immersed Ceiling Jets Compared with a Simple Model |
P.L.Hinkley and G.O.Hansell |
19 |
Large-Scale Experiments with Roof Vents and Sprinklers
Part2: The Operation of Sprinklers and the Effect of Venting with Growing Fires |
P.L.Hinkley and G.O.Hansell |
43 |
| Experience in the Use of Zone Type Building Fire Models |
John A.Rockett | 61 |
| Experimental Studies on Forced - Ventilated Fires |
W.K.Chow and W.L.Chan |
71 |
| Letter to the Editors |
| |
| Letter to the Editors: Comments on "Thermal Response of Sprinkler Heads in Hot Air Stream with Speed Less Than 1 M/S" |
R.G.Bill, Jr. and G.Heskestad |
89 |
| 12 |
2 |
1992 |
Science |
|
|
| Development and Evaluation of Fire Retardant Cotton Fabrics |
N.K.Saxena, Sunil K. Sharma and D.R.Gupta |
1 |
| A Non-Linear Model of Flashover |
Alan Beard, Dougal Drysdale, Paul Holborn and Steven Bishop |
11 |
| Technology |
|
|
| Products of Combustion of The Metal Powders |
T.P.Sharma and Surendra Kumar |
29 |
| 12 |
1 |
1992 |
Science |
|
|
| Short Communication on Self-ignition of Potato Chip Waste |
Osami Sugawa |
1 |
| Thermal Responses of Sprinkler Heads in Hot Air Stream with Speed Less Than 1 MS-1 |
W.K.Chow and P.L.Ho |
7 |
| Numerical Simulation of Fire in The Temperature Stratified Atrium with a Mathematical Field Model |
Masahiro Morita, Yukio Yamauchi and Atsushi Manmoto |
23 |
| 11 |
1&2 |
1991 |
Special Issue for CIB W14(FIRE)
sub group on the Fire Protection of Historical Buildings |
|
|
| Announcement | |
i |
| Introduction |
Chairman of W14 sub group |
ii |
| Fire Safety in Historic Buildings and Sites |
Kyriakos K. Papaioannou | 1 |
| Preservation of Historical Monuments and Fire Safety |
Veit Geissler |
5 |
| The Necessity of Precautionary Fire Protection from The Restorer's Viewpoint |
Jochen Seebach |
9 |
| Fire Engineering Strategies |
Eric W.Marchant |
13 |
| A Management Strategy to Establish Life Safety Equivalency for Historic Buildings |
T.J.Shields, K.E.Dunlop and G.W.H Silcock |
21 |
| Fire Insurance Aspects Regarding Historical Buildings |
Cäsar Rohlfs and Jean-Paul Favre |
27 |
| Protecting Libraries and Museums from Fire |
John Morris |
35 |
| Fire Protection at The Smithsonian Institution |
J.Andrew Wilson |
45 |
| Restoring and Safeguarding Koldinghus Castle |
Torben Jacobsen |
51 |
| Basic Thoughts on Structural Fire Protection of Protected Historic Buildings |
Gert Beilicke |
57 |
| An Insight to Museums from Fire Hazards Assessment and Fire Protection Point of View |
Tribhuvan Pati Sharma, Suvir Singh, Suresh Kumar and A.S.Srivastava |
61 |
| Framework for a CIB Guide on Fire Safety for Historic Buildings |
H L Malhotra and Kyriakos Papaioannou |
69 |
|
Vol.10 - 6 |
| Vol. |
No. |
|
|
|
|
| 10 |
1&2 |
1990 |
Announcement |
Yuko Shigekura and Kunio Kawagoe |
i |
| Science |
|
|
| Theoretical Consideration on the Ignition of Hot Iron in High Pressure Oxygen |
Hideo Ohtani |
1 |
| Technology |
| |
Smoke Control in Atrium Buildings Using Depressurisation
Part1: Design Principles |
G.O.Hansell and H.P.Morgan |
11 |
Smoke Control in Atrium Buildings Using Depressurisation
Part2: Considerations Affecting Practical Design |
G.O.Hansell and H.P.Morgan |
27 |
| 9 |
2 |
1989 |
Science |
|
|
| On Formulae for the Movement of Smoke in Fires |
P.H.Thomas |
1 |
| Burning Behavior in a Poorly-Ventilated Compartment Fire - Ghosting Fire - |
Osami Sugawa, Kunio Kawagoe, Yasushi Oka and Iichi Ogahara |
5 |
| Technology |
| |
| Temperature Visualization of Extened Flame from Opening Using Infrared Image Processor |
Yasushi Oka and Osami Sugawa |
15 |
| 9 |
1 |
1989 |
Science |
| |
| Reduction of Smoke Particles from Fire Retarded Wood |
Osami Sugawa and Hirochika Yamamoto |
1 |
| Numerical Analysis and Experiments of Convective Heat Flow in Fire Compartment |
Masahiro Morita and Masayuki Hirota |
11 |
| Technology |
|
|
| An Estimation Method on Life Risk in Case of Hospital Fires |
Makoto Tsujimoto and Kouji Shida |
25 |
| 8 |
2 |
1988 |
Technology |
|
|
| Sprinklered Executive Office Fire Tests |
Bennie.G.Vincent, Hsiang-Cheng Kung and Edward E.Hill |
29 |
| Residential Sidewall Sprinkler Fire Tests with Limited Water Supply |
Bennie.G.Vincent, Hsiang-Cheng Kung and Edward E.Hill |
41 |
| Remarks |
|
|
| Table of Contents in Fire Science and Technology |
From Vol.1 to Vol.8 no.2 |
55 |
| 8 |
1 |
1988 |
Science |
|
|
| Comparison of an Established Method of Calculation of Smoke Filling of Large Scale Spaces with Recent Experiments |
P.L.Hinkley |
1 |
| Measurement of Radiative Heat Emission from Wood Frame Building in Fire |
Isao Tsukagoshi |
9 |
| Numerical Study on Interactions of Turbulent Convection and Radiation in Compartment Fires |
Toru Fusegi and Bakhtier Farouk |
15 |
| 7 |
2 |
1987 |
Science |
|
|
| Estimation of Fire Damage of Reinforced Concrete Beams |
Takao Wakamatsu |
1 |
Interaction Between Hot Layer and Updraft from a Smoldering Fire Source
- Part1 An Experimental Approach - |
Hirobumi Hotta, Yasushi Oka and Osami Sugawa |
17 |
| Deterministic Properties of Turbulent Diffusion Flames From low Q Fires |
Yuji Hasemi and Mitsuru Nishihata |
27 |
| Technology |
| |
| Basic Concepts into Methodologies on Systems Approach to Building Fire Safety |
Shinnichi Sugahara |
35 |
| Load Bearing and Deformation Capacity of H Shaped Steel Members at Elevated Temperature |
H.Saitoh, H.Uesugi and K.Miyamoto |
43 |
| Software Controlled Fire Detection Systems |
Heintz O.Luck and Udo Schlossarek |
53 |
| 7 |
1 |
1987 |
Science |
|
|
| Effects of Ignition Source in Room Fire Tests |
A.I.Ahonen, C.Holmlund, M.A.Kokkala | 1 |
| A Trial of Flashover Prediction in Compartment Fire Modeling |
Hisahiro Takeda |
15 |
| The Thermal Characteristics of Silicone Oil by the High Radiative Heat Flux Furnance |
Masahiro Morita, Muneyoshi Yamatani, Tetsuya Nishimoto, Kunio Kawagoe, Hirochika Yamamoto |
25 |
| 6 |
1&2 |
1986 | Science and Technology | | |
| Spontaneous Combustion of Coal (III) (Isothermal Method) | Tetsuya Nishimoto, Masahiro Morita and Hirofumi Yajima | 1 |
| Spontaneous Combustion of Coal (IV) (Computer Simulation) | Masahiro Morita, Tetsuya Nishimoto, Jun Kodama, Takehiko Ohsawa and Kenji Hayashi |
7 |
| Wall Fire Behavior in the Dual Opening Compartment | Hisahiro Takeda | 21 |
| Burning Behaviour of Upholstered Chairs: Part3 Flame and Plume Characteristics in Fire Test | Tomoyuki Mizuno and Kunio Kawagoe | 29 |
| Report | | |
| Public and Private Fire Laboratories in Asian Countries | Kunio Kawagoe and Osami Sugawa | 39 |
|
|
Vol.5 - 1 |
| Vol. |
No. |
|
| |
|
| 5 |
2 |
1985 |
In Memory of Emeritus Professor Takashi Handa,
Editor-In-Chief of "Fire Science and Technology" and Director of Center for Fire Science and Technology, Science University of Tokyo | | i-ii |
| Science | | |
Spontaneous combustion of Coal (II)
(Studying The Effects of Oxygen Concentration in The Method of Thermogravimetric Analysis) | Tetsuya Nishimoto, Masanori Hosoya, Jun Kodama and Masahiro Morita | 123 |
| Telecommunications Cable Combustion Characteristics in Tunnels | Fumio Hayashi and Takanobu Watanabe | 129 |
| An Example of Human Behavior in A Wooden Hotel Fire | Soichiro Okishio and Takashi Handa | 141 |
| Technology | | |
| The NBS/Harvard Mark VI Multi-Room Fire Simulation | John A.Rockett and Masahiro Morita | 149 |
| Report | | |
| "Mt.Athos" A Special Fire Safety Problem of Historic Buildings and Areas | Kyriakos K. Papaioannou | 165 |
| 5 | 1 | 1985 | Science | | |
| A Stochastic Model of Fire Spread |
Yasaburo Morishita |
1 |
| Experimental Investigation of PMMA Compartment Fire | Hisahiro Takeda | 11 |
| Spontaneous Combustion of Coal (I) (Method of Oxygen Consumption) | Takashi Handa, Tetsuya Nishimoto, Masahiro Morita and Jun Kodama | 21 |
Smoke Control in Large Scale Spaces
(Part1: Analytic Theories for Simple Smoke Control Problems) | Takeyoshi Tanaka and Toshio Yamana | 31 |
Smoke Control in Large Scale Spaces
(Part2: Smoke Control Experiments in A Large Scale Space) | Toshio Yamana and Takeyoshi Tanaka | 41 |
| Thermal Degradation of Wood and its Constituents on Smoldering Combustion in Oxygen Atmosphere | Takashi Handa, Yoshinori Hashizume, Hidetoshi Tsushima and Shuji Yoshizawa | 55 |
| Technology | | |
| Burning Behaviour of Upholstered Chairs: Part2 Burning Rate of Chairs in Fire Tests | T.Mizuno, K.Kawagoe | 69 |
| Heat Transport in Fire Compartment: Prediction and Experiment with Small Scale Model | Tokiyoshi Yamada | 79 |
| Irritating Effects of Fire Smoke on Visibility | Tadahisa Jin and Tokiyoshi Yamada | 91 |
| Erratum; Experimental Wall Flame Heat Transfer Correlations for the Analysis of Upward Wall Flame Spread | Y.Hasemi | 121 |
| 4 | 2 | 1984 | Science | | |
| On a Relationship between Certain Zone Models of Two Layer and Uniform Compartment Fires | P.H.Thomas | 65 |
| Experimental Wall Flame Heat Transfer Correlations for the Analysis of Upward Wall Flame Spread | Y.Hasemi | 75 |
| Numerical Simulation of Early Stage of a Compartment Fire | T.Handa, K.Kawagoe, T.Yoshikawa, J.Mashige and T.Joh | 91 |
| Polycyclic Aromatic Hydrocarbon Emissions from Wood-Pyrolysis | T.Handa, T.Yamauchi and H.Ikeda | 111 |
Fire Safety Representation of City Facilities by Colored Face Graph
1st Report: Use of Face Graphs to Categorize City Facilities | F.Hara | 121 |
Park Service Room Fire Test Simulations Using the Harvard Level
5.2 Computer Fire Model | J.A.Rockett | 135 |
| Technology | | |
| Experimental Study on Structural Behavior of Steel Frames in Building Fire | M.Hirota, K.Shinoda, K.Nakamura and K.Kawagoe | 151 |
Erratum
An Assessment of Fire Induced Flows in Compartments | [Fire Science and Technology, 4, 13,(1984)] | 163 |
| 4 | 1 | 1984 | Science | | |
| An Assessment of Fire Induced Flows in Compartments | J.G.Quintiere, K.Steckler and D.Corley | 1 |
| Flame Geometry Effects on the Buoyant Plumes from Turbulent Diffusion Flames | Yuji Hasemi and Tazo Tokunaga | 15 |
| Evolution of Soot and Polycyclic Aromatic Hydrocarbons from Combustion and Pyrolysis of Polymers and Low Molecular Weight Hydrocarbons | Tokio Morikawa | 27 |
| Burning Behaviour of Upholstered Chair: Part1 | Tomoyuki Mizuno and Kunio Kawagoe | 37 |
| Technology | | |
| Analyses of the Fire Protection Costs | Hiroyuki Nakamura | 47 |
| 3 | 2 | 1983 | Science | | |
| A Scientific Analysis of Stored Plastic Fire Tests | M.A.Delichatsios | 73 |
| A Model of Multiroom Fire Spread | Takeyoshi Tanaka | 105 |
| Technology | | |
| Thermal Stress of Steel Structures of Tall Buildings in Fire | Hikaru Saito, Hideki Uesugi, Akio Kodaira and Shu Kondo | 123 |
| An Example of Human Behavior in a Hotel Fire | Soichiro Okishio and Takashi Handa | 131 |
| 3 | 1 | 1983 | Science | | |
| Calcination Temperature Effects to CO-Gas Sensor of Pt-Dispersed Hydrous SnO2 Gel | Takashi Handa, Hiroshi Fukaya, Osami Sugawa, Yoshinori Terasawa, Koichi Endoh and Yoshiaki Okayama | 1 |
| Computer Simulation of the Spontaneous Combustion of Coal Storage | Takashi Handa, Masahiro Morita, Osami Sugawa, Tadahiro Ishii and Kenji Hayashi | 13 |
| Flame Reterdation Mechanism of Polypropyrenes & Phenolic Laminates | Naofumi Ebihara, Takashi Handa, Hirochika Yamamoto and Toshiaki Nagashima | 25 |
| Flammability of Wood and Flame-Retarded Wood | Takashi Handa, Yoshinori Hashizume and Shuji Yoshizawa | 35 |
| Technology | | |
| Experimental Study on Thermal Stress within Steel-Frames | Noriyuki Ooyanagi, Masayuki Hirota, Kenichi Nakamura and Kunio Kawagoe | 45 |
| Using the Harvard Fire Simulation | John A.Rockett, Masahiro Morita and Takashi Handa | 57 |
| Some Examples of Application of Harvard V Fire Computer Code to Fire Investigation | Takashi Handa, Masahiro Morita, John A.Rockett, Osami Sugawa and Kenji Hayashi | 63 |
| 2 | 1 | 1982 | Science | | |
Thermal Instability in Transient Compartment Fire
An Approach to Characterize Flashover and Estimate its Mechanisms | Yuji Hasemi | 1 |
| Controlling Mechanisms of Flame Spread | A.Carlos Fernandez-Pello and Toshisuke Hirano | 17 |
| Statistical Analysis of Flashover | Yasaburo Morishita | 55 |
| Technology | | |
| Sprinkler Protection for Barrel Storage of Distilled Spirits | Masatomi Ohta and Shoichi Kimura | 67 |
| 1 | 1 | 1981 | Smoke Filling in an Enclosure | George Mulholland, T.Handa, O.Sugawa and H.Yamamoto | 1 |
| Burning Behaviour of Urethane foam Mattresses | T.Mizuno, F.Sasagawa, S.Horiuchi and K.Kawagoe | 33 |
| Characterization of Flow Behavior of Hot Fire Products in a Concrete Full-Scale Corridor | T.Handa and O.Sugawa | 45 |
| Computer Simulation Model for Civil Evacuation from Large-Scale Fires | F.Hara | 71 |
| Computer Simulation of the Motion of Heat Flow Induced by the Fire in the Long-Scale Tunnel | T.Handa, M.Morita, K.Hayashi and T.Ishii | 91 |
|
|
