화학공학소재연구정보센터
검색결과 : 10건
No. Article
1 Investigation of temperature distribution on a new linear Fresnel receiver assembly under high solar flux
Parikh A, Martinek J, Mungas G, Kramer N, Braun R, Zhu GD
International Journal of Energy Research, 43(9), 4051, 2019
2 A comparison of price-taker and production cost models for determining system value, revenue, and scheduling of concentrating solar power plants
Martinek J, Jorgenson J, Mehos M, Denholm P
Applied Energy, 231, 854, 2018
3 Predictive performance modeling framework for a novel enclosed particle receiver configuration and application for thermochemical energy storage
Martinek J, Wendelin T, Ma ZW
Solar Energy, 166, 409, 2018
4 Graphics cards based topography artefacts simulations in Scanning Thermal Microscopy
Klapetek P, Martinek J, Grolich P, Valtr M, Kaur NJ
International Journal of Heat and Mass Transfer, 108, 841, 2017
5 Transient simulation of a tubular packed bed solar receiver for hydrogen generation via metal oxide thermochemical cycles
Martinek J, Viger R, Weimer AW
Solar Energy, 105, 613, 2014
6 Evaluation of finite volume solutions for radiative heat transfer in a closed cavity solar receiver for high temperature solar thermal processes
Martinek J, Weimer AW
International Journal of Heat and Mass Transfer, 58(1-2), 585, 2013
7 Efficient Generation of H-2 by Splitting Water with an Isothermal Redox Cycle
Muhich CL, Evanko BW, Weston KC, Lichty P, Liang XH, Martinek J, Musgrave CB, Weimer AW
Science, 341(6145), 540, 2013
8 Design considerations for a multiple tube solar reactor
Martinek J, Weimer AW
Solar Energy, 90, 68, 2013
9 Computational modeling of a multiple tube solar reactor with specularly reflective cavity walls. Part 2: Steam gasification of carbon
Martinek J, Bingham C, Weimer AW
Chemical Engineering Science, 81, 285, 2012
10 Computational modeling and on-sun model validation for a multiple tube solar reactor with specularly reflective cavity walls. Part 1: Heat transfer model
Martinek J, Bingham C, Weimer AW
Chemical Engineering Science, 81, 298, 2012