Tuesday, December 16, 2008

Paper downloads Aug 07- Nov 08

These are the statistics per paper in our ERA collection in the period in from Aug 07 to Nov 08.

Take a look and see the most 'popular' ones.

Number of downloads per paper

1,836 The behaviour of concrete structures in fire
1,796 Light Steel Framing: Improving the Integral Design
1,595 How did the WTC towers collapse: a new theory
1,560 Fire Size in Tunnels
1,458 Determination of Fire Induced Collapse Mechanisms of Multi-Storey Steel Framed Structures
1,298 Large-scale pool fires
1,188 A Study of Fire Durability for a Road Tunnel: Comparing CFD and Simple Analytical Models
1,072 Multi-story Fire Analysis for High-Rise Buildings
1,071 Fire Safety in High-rise Buildings, Lessons Learned from the WTC
977 Behavior of Structures in Fire and Real Design - A Case Study
950 Performance of concrete in fire: a review of the state of the art, with a case study of the windsor tower fire
822 Model-based analysis of a concrete building subjected to fire
798 Tall building collapse mechanisms initiated by fire
602 BRE large compartment fire tests – characterising post-flashover fires for model validation
577 Fire Size and Fire Spread in Tunnels with Longitudinal Ventilation Systems.
573 A Case Study on Building Specifications
561 Application of Genetic Algorithms and Thermogravimetry to Determine the Kinetics of Polyurethane Foam in Smoldering Combustion
505 Applications of Computer Modelling to Fire Safety Design
491 Collapse scenarios of WTC 1 & 2 with extension to generic tall buildings
456 Characterisation of Dalmarnock Fire Test 1
449 Caractérisation de la fraction volumique et de la température des suies d'une flamme de diffusion établie en micropesanteur
440 Clyde Tunnel refurbishment: Modelling the performance of the new lining system and drainage channel in the event of a fire
436 Development and validation of a generalised engineering methodology for thermal analysis of structural members in fire
419 Modelling of Structures in Fire: An Example of the Boundary Condition
414 Ignition Performance of New and Used Motor Vehicle Upholstery Fabrics
388 The Application of a Genetic Algorithm to Estimate Material Properties for Fire Modeling from Bench-Scale Fire Test Data
377 The contribution of asphalt road surfaces to fire risk in tunnel fires: Preliminary findings
366 Analysis of thermal fields generated by natural fires on the structural elements of tall buildings
349 Application of a generalised engineering methodology for thermal analysis of structural members in fire
342 Treatment of Design Fire Uncertainty using Quadrature Method of Moments
336 Experimental Observations on the Thermal Degradation of a Porous Bed of Tires
327 In-Depth Temperature Measurements of Timber in Fires
312 Characterisation of the Thermal and Chemical Effects of Energetic Materials not Likely to Detonate
290 Development of an engineering methodology for thermal analysis of protected structural members in fire
288 The Risk Imposed by Fire to Buildings and How to Address It
272 Heat and Mass Transfer in Fires: Scaling Laws and their Application
261 Modeling of One-Dimensional Smoldering of Polyurethane in Microgravity Conditions
260 Modelling the Propagation of Forward and Opposed Smouldering Combustion
256 Smoke buildup and light scattering in a cylindrical cavity above a uniform flow
252 Soot Volume Fraction Measurements in a Three-Dimensional Laminar Diffusion Flame established in Microgravity
248 Sooting Behaviour Dynamics of a Non-Bouyant Laminar Diffusion Flame
245 Computational Model of Forward and Opposed Smoldering Combustion in Microgravity
243 Experiments and Observation of Peat Smouldering Fires
231 Evaluation of a Large Eddy Simulation's Applicability to a Worst Case Fire Scenario
219 Multi-story Fire Analysis for High-Rise Buildings
217 Material Properties that Control Ignition and Spread of a Fire in Micro-Gravity Environments
199 The role of secondary char oxidation in the transition from smoldering to flaming
169 Evaluation of the Extinction Factor in a Laminar Flame Established over a PMMA Plate in Microgravity
166 A novel engineering tool for thermal analysis of structural members in natural fires

No comments:

Post a Comment