Combustion Processes Laboratories

Parent: UC Berkeley

eScholarship stats: Breakdown by Item for July through October, 2024

ItemTitleTotal requestsDownloadView-only%Dnld
7wz5m7dgA Generalized Pyrolysis Model for Combustible Solids115457039.1%
66b5995fA Comparison of Three Fire Models in the Simulation of Accidental Fires95672870.5%
8fv775b6Application of Genetic Algorithms and Thermogravimetry to Determine the Kinetics of Polyurethane Foam in Smoldering Combustion66303645.5%
2t05897wFlame Height Measurement of Laminar Inverse Diffusion Flames52153728.8%
9x75r07qFlame Structure and Soot Formation in Inverse Diffusion Flames (Ph.D. Dissertation)50133726.0%
8xf9z5wnLES of Sandia Flame D with Eulerian PDF and Finite-Rate Chemistry47153231.9%
0d439075A Comparison of Infrared Light Emitting Diodes (IR-LED) versus Infrared4463813.6%
5cg7f8hvForced forward smoldering experiments in microgravity44212347.7%
7pn0x893Transition from Forward Smoldering to Flaming in Small Polyurethane Foam Samples44212347.7%
7x42c7jdThe effect of buoyancy on opposed smoldering44212347.7%
6cd5b6vqDirect Use of Wet Ethanol in a Homogeneous Charge Compression Ignition (HCCI) Engine: Experimental and Numerical Results41182343.9%
7fg575cmEffect of Varied Air Flow on Flame Structure of Laminar Inverse Diffusion Flames40221855.0%
2j80r0t5The Effect of the Di-Tertiary Butyl Peroxide (DTBP) additive on HCCI Combustion of Fuel Blends of Ethanol and Diethyl Ether35112431.4%
9q66m1j1SMOLDER IGNITION OF POLYURETHANE FOAM: EFFECT OF OXYGEN CONCENTRATION353328.6%
0bq9n8pnComputational Model of Forward and Opposed Smoldering Combustion with Improved Chemical Kinetics (PhD. Thesis)34102429.4%
5p11f68bA numerical investigation into the anomalous slight NOx increase when burning biodiesel; A new (old) theory3492526.5%
9qz491vxMicrophones and Knock Sensors for Feedback Control of HCCI Engines34151944.1%
5t34j9m4Numerical Issues of Monte Carlo PDF for Large Eddy Simulations of Turbulent Flames3172422.6%
00x644fdIgnition of Combustion Modified Polyurethane Foam30131743.3%
5zb7w2p5An enthalpy-temperature hybrid method for solving phase change problems and its application to polymer pyrolysis and ignition3062420.0%
6t2213hgSpace shuttle based microgravity smoldering combustion experiments3072323.3%
0fq8c495Development of Isooctane Skeletal Mechanisms for Fast and Accurate Predictions of SOC and Emissions of HCCI Engines based on LLNL Detailed Mechanism2982127.6%
3277951mA Generalized Pyrolysis Model for Simulating Charring, Intumescent, Smoldering, and Noncharring Gasification2872125.0%
0qp039spLandfill Gas Fueled HCCI Demonstration System25101540.0%
52h298s5Using Biofuel Tracers to Study Alternative Combustion Regimes2532212.0%
5xq8441tLaser Extinction in Laminar Inverse Diffusion Flames2532212.0%
05h2t55hField performance of a nephelometer in rural kitchens: effects of high humidity excursions and correlations to gravimetric analyses2241818.2%
36q6790wField performance of a nephelometer in rural kitchens: effects of high humidity excursions and correlations to gravimetric analyses (Journal of Exposure Science and Environmental Epidemiology 2006)2241818.2%
74p7b65xInvestigation of HCCI Combustion of Diethyl Ether and Ethanol Mixtures Using Carbon 14 Tracing and Numerical Simulations2161528.6%
5st5w2gzBidimensional Numerical Model for Polyurethane Smoldering in a Fixed Bed2041620.0%
7xb9t2gkCOSMIC: Carbon Monoxide and Soot in Microgravity Inverse Combustion201195.0%
76s259zpFlow-Assisted Flame Propagation Through a Porous Combustible in Microgravity1931615.8%
3104664pModeling of One-Dimensional Smoldering of Polyurethane in Microgravity Conditions1831516.7%
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