| 1 |
Investigation of the influence of soil moisture on thermal response tests using active distributed temperature sensing (A-DTS) technology
Cao DF, Shi B, Loheide SP, Gong XL, Zhu HH, Wei GQ, Yang LM
Energy and Buildings, 173, 239, 2018 |
| 2 |
Long-term district-scale geothermal exchange borefield monitoring with fiber optic distributed temperature sensing
McDaniel A, Fratta D, Tinjum JM, Hart DJ
Geothermics, 72, 193, 2018 |
| 3 |
Distributed thermal response test to analyze thermal properties in heterogeneous lithology
McDaniel A, Tinjum J, Hart DJ, Lin YF, Stumpf A, Thomas L
Geothermics, 76, 116, 2018 |
| 4 |
Use of fiber-optic distributed temperature sensing to investigate erosion of the non-convective zone in salt-gradient solar ponds
Sarabia A, Meza F, Suarez F
Solar Energy, 170, 499, 2018 |
| 5 |
Evaluation of inert tracers in a bedrock fracture using ground penetrating radar and thermal sensors
Hawkins AJ, Becker MW, Tsoflias GP
Geothermics, 67, 86, 2017 |
| 6 |
Understanding the expected performance of large-scale solar ponds from laboratory-scale observations and numerical modeling
Suarez F, Ruskowitz JA, Childress AE, Tyler SW
Applied Energy, 117, 1, 2014 |
| 7 |
Evaporation suppression and solar energy collection in a salt-gradient solar pond
Ruskowitz JA, Suarez F, Tyler SW, Childress AE
Solar Energy, 99, 36, 2014 |
