PPT-Heat release modeling

FPVAbased model V Terrapon and H Pitsch 1 Stanford PSAAP Center Working draft Why is turbulent combustion challenging QUALITATIVE A large range of scales is involved Typical engineering application. Girts Karnitis, Janis Bicevskis, . Jana . Cerina-Berzina. The work is supported by a European Social Fund Project . No. . 2009/0216/1DP/1.1.1.2.0/09 /APIA/VIAA/044. Problems of Business process modeling. Scales of Measurement. Celsius scale – based on where water freezes (0. . C) and where water boils (100. . C). Kelvin scale – based on the movement of particles. . Absolute Zero. At 0 K, all particle movement has ceased. Claude . Remillard. Arun. Chandrasekhar. DEV-B216. A Knight’s Story. Knight Capital. Financial services firm on NYSE. New order handling feature – create child orders. Replaced old code with new code . Nuclear System/Hydrogen Lab.. KAIST. Chapter 2: Reactor Heat Generation. Contents. . 2.1 Energy release and deposition. . 2.2 Fission energy generation after reactor scram. . 2.3 Decay heat generation. On the front counter there is a perpetually thirsty bird. Do NOT touch him.. Write down all your . observations. of the motion. Do not try to explain why it’s happening—just look at WHAT is happening. . Fins and Extended Surfaces. 1. Chapter 3c : One-dimensional, Steady state conduction (with thermal energy generation) (Section 3.5 – Textbook). 2. 3.1 Implications of energy generation. Involve a local source of thermal energy due to conversion from another form of energy in a conducting medium.. The material: conductor or insulator?. Area. Ex: a bigger window vs. a smaller one.. Thickness. Ex: heat escapes a thinner . styrofoam. cup than a thicker one.. Heat and State of Matter. Does the absorption or release of heat always cause a temp change? . How does heat energy get from the Sun to the Earth?. There are no particles between the Sun and the Earth so it CANNOT travel by conduction or by convection. . ?. RADIATION. How can we relate our new understanding to the greenhouse effect?. Fanxu Meng, PhD, PE - Research Associate. DOE Upper-West CHP TAP. Houston Advanced Research Center (HARC). Denver, CO. October 31. th. , 2018. 1. In Today’s . Presentation. :. DOE CHP Technical Assistance Partnerships (TAP). DYNAMIC MODELING OF WASTE HEAT RECOVERY ORC SYSTEMS IN THE AMESIM PLATFORM L. Guillaume a , B. Ameel b , C. Criens c , I. Siera c , D. Maes c , A. Hernandez d , M. De Paepe b,c , V. Lemort a a INTRODUCTION TO NUMERICAL MODELING IN GEOTECHNICAL ENGINEERING WITH EMPHASIS ON FLAC MODELING www.zamiran.net By Siavash Zamiran, Ph.D., P.E. Geotechnical Engineer, Marino Engineering Associates, Inc. Agenda. Why Safety Matters. Heat Illness: What to Look For. Heat Stroke: What to Look For. Tips on Prevention. Test Your Knowledge. Why safety. Matters. Every day in the United States 11 workers are seriously injured or die from heat stress.*. Flows from higher-temperature object to lower-temperature object. System. (T. 1. ). Surroundings. (T. 2. ). Heat. If T. 1. > T. 2. q . system. = -. exothermic. System. (T. 1. ). Surroundings. (T. Qnet. = (. Downwelling. Shortwave + Upwelling Shortwave (albedo)) + (. Downwelling. . Longwave – Upwelling Longwave). Substituting the GEOS-5 expressions for each of these fields gives:. Sfc. .