Advanced Thermoelectric Power Generation Simulator for Waste Heat Recovery and Energy Harvesting

By Je-Hyeong Bahk1, Kevin Margatan2, Kaz Yazawa, Ali Shakouri2

1. University of Cincinnati 2. Purdue University

Tool to simulate thermoelectric power generation device/system with temperature-dependent material properties for waste heat recovery and wearable energy harvesting

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Version 1.0 - published on 11 Jan 2016

doi:10.4231/D3XW47X4X cite this

This tool is closed source.

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Usage

World usage

Location of all "Advanced Thermoelectric Power Generation Simulator for Waste Heat Recovery and Energy Harvesting" Users Since Its Posting

Simulation Users

249

7 26 32 39 46 50 53 56 72 81 88 94 98 104 112 119 120 122 130 135 150 158 164 168 170 174 177 182 187 191 193 196 213 214 224 230 235 239 241 249

Users By Organization Type
Type Users
Unidentified 224 (89.96%)
Educational - University 17 (6.83%)
Industry 4 (1.61%)
Government Agency 2 (0.8%)
Educational - Pre-College 1 (0.4%)
National Lab 1 (0.4%)
Users by Country of Residence
Country Users
in INDIA 8 (30.77%)
us UNITED STATES 6 (23.08%)
cn CHINA 3 (11.54%)
gb UNITED KINGDOM 2 (7.69%)
kr KOREA, REPUBLIC OF 2 (7.69%)
sg SINGAPORE 1 (3.85%)
be BELGIUM 1 (3.85%)
dk DENMARK 1 (3.85%)
tr TURKEY 1 (3.85%)
bd BANGLADESH 1 (3.85%)

Simulation Runs

13,458

168 417 587 1734 1777 1794 1798 1807 2203 2669 4296 5013 5397 5803 6464 7236 7383 7395 7505 7738 8322 8567 9760 10594 10693 10935 11057 11101 11166 11370 11456 11518 11765 11806 12732 13256 13290 13383 13387 13458
Overview
Average Total
Wall Clock Time 47.7 minutes 404.8 days
CPU time 36.56 seconds 5.17 days
Interaction Time 25.71 minutes 218.17 days