|
Search concepts
|
|
Selected Filters
|
- 1 - 50 out of 111 Results
Your concept search for 'csp receiver' did not have any results. Showing results for 'csp receiver' as free text
Search results
-
NREL Particle Receiver Will Enable High-Temperature CSP
Ma, Z., 2014Research output: NREL › Fact Sheet
-
A Novel Scalable, Light Trapping Receiver Under Testing, Modeling, Prototyping Verifications to Enable High-Temperature, High Performance Designs for Gen3 Particle CSP and Thermochemical Processes
Ma, Z., 2024, National Renewable Energy Laboratory (NREL).Research output: NREL › Poster
-
-
Fluidized-Bed Technology Enabling the Integration of High Temperature Solar Receiver CSP Systems with Steam and Advanced Power Cycles
Ma, Z., Sakadjian, B., Hu, S., Maryamchik, M., Flynn, T. & Santelmann, K., 2015, In: Energy Procedia. 69, p. 1404-1411 8 p.Research output: Contribution to journal › Article › peer-review
Open Access27 Scopus Citations -
-
Near-Blackbody Enclosed Particle-Receiver Development
Ma, Z. & Sakadjian, B., 2015, 57 p.Research output: NREL › Technical Report
-
Small-Particle Solar Receiver for High-Temperature Brayton Power Cycles (Fact Sheet)
NREL, 2012Research output: NREL › Fact Sheet
-
-
Particle Receiver Integrated with Fluidized Bed (Fact Sheet)
NREL, 2012Research output: NREL › Fact Sheet
-
Molten Salt vs. Liquid Sodium Receiver Selection Using the Analytic Hierarchy Process
Turchi, C., Libby, C., Coventry, J. & Pye, J., 2020, 12 p.Research output: NREL › Presentation
-
A Planar-Cavity Receiver Configuration for High-Temperature Solar Thermal Processes: Preprint
Martinek, J. & Ma, Z., 2024. 11 p.Research output: Contribution to conference › Paper
-
Development of a Light-Trapping, Planar-Cavity Receiver for Enclosed Solar Particle Heating
Ma, Z. & Martinek, J., 2024, 17 p.Research output: NREL › Presentation
-
Molten Salt vs. Liquid Sodium Receiver Selection Using the Analytic Hierarchy Process: Preprint
Turchi, C., Libby, C., Pye, J. & Coventry, J., 2021. 13 p.Research output: Contribution to conference › Paper
-
Heat-Loss Testing of Solel's UVAC3 Parabolic Trough Receiver
NREL, 2008, 19 p.Research output: NREL › Technical Report
-
Thermal Scout Pinpoints Hard-to-Find Problems in CSP Fields (Fact Sheet)
NREL, 2013Research output: NREL › Fact Sheet
-
Pathways to IEC Standards for Heliostat Design Qualification and Site Acceptance in Central Receiver CSP Applications
Tsvankin, D. & Muller, M., 2024. 12 p.Research output: Contribution to conference › Paper
-
Review and Future Perspective of Central Receiver Design and Performance
Zhu, G. & Libby, C., 27 Jun 2017. 8 p.Research output: Contribution to conference › Paper › peer-review
Open Access25 Scopus Citations -
Thermal Modeling of a Multi-Cavity Array Receiver Performance for Concentrating Solar Power Generation
Fleming, A., Ma, Z., Wendelin, T., Ban, H. & Folsom, C., 2015. 8 p.Research output: Contribution to conference › Paper › peer-review
6 Scopus Citations -
Impact of Aerosols on Atmospheric Attenuation Loss in Central Receiver Systems: Preprint
Sengupta, M., 2011. 8 p.Research output: Contribution to conference › Paper
-
Optical Flow Diagnostics of Counter Fluidization of Gravity-Driven Moving Packed Bed for a CSP Receiver Section Featuring Staggered Array of Cylindrical Pins: Paper No. ES2024-131392
Aider, Y., Ma, Z. & Singh, P., 2024. 11 p.Research output: Contribution to conference › Paper
-
Field Survey of Parabolic Trough Receiver Thermal Performance: Preprint
NREL, 2006. 11 p.Research output: Contribution to conference › Paper
-
Estimating Atmospheric Attenuation in Central Receiver Systems
Sengupta, M. & Wagner, M., 2012, p. 399-403. 5 p.Research output: Contribution to conference › Paper › peer-review
11 Scopus Citations -
Molten Salt vs. Liquid Sodium Receiver Selection Using the Analytic Hierarchy Process: Paper No. 110016
Turchi, C., Libby, C., Pye, J. & Coventry, J., 12 May 2022. 10 p.Research output: Contribution to conference › Paper › peer-review
1 Scopus Citations -
Atmospheric Attenuation in Central Receiver Systems from DNI Measurements
Sengupta, M. & Wagner, M., 2012, p. 129-134. 6 p.Research output: Contribution to conference › Paper › peer-review
7 Scopus Citations -
Long-Term Heating to Improve Receiver Performance: Paper No. 020006
Glatzmaier, G., Cable, R. & Newmarker, M., 2017. 8 p.Research output: Contribution to conference › Paper
4 Scopus Citations -
Performance Assessment of Pakistani Central Receiver Plant Case Study Using Aimpoint Strategy Optimization Tools: Paper No. 030010
Liaqat, K., Zolan, A. & Ordonez, J., 2023. 8 p.Research output: Contribution to conference › Paper
-
Granular Flow and Heat Transfer Study in a Near-Blackbody Enclosed Particle Receiver: Paper No. ES2014-6393
Martinek, J. & Ma, Z., 2014. 11 p.Research output: Contribution to conference › Paper › peer-review
6 Scopus Citations -
CSP Gen3: Liquid-Phase Pathway to SunShot
Turchi, C., Gage, S., Martinek, J., Jape, S., Armijo, K., Coventry, J., Pye, J., Asselineau, C.-A., Venn, F., Logie, W., Fontalvo, A., Wang, S., McNaughton, R., Potter, D., Steinberg, T. & Will, G., 2021, 163 p.Research output: NREL › Technical Report
-
Granular Flow and Heat-Transfer Study in a Near-Blackbody Enclosed Particle Receiver: Paper No. SOL-15-1034
Martinek, J. & Ma, Z., 1 Oct 2015, In: Journal of Solar Energy Engineering, Transactions of the ASME. 137, 5, 9 p., 051008.Research output: Contribution to journal › Article › peer-review
53 Scopus Citations -
Simulation of Utility-Scale Central Receiver System Power Plants: Paper No. ES2009-90132
Wagner, M., 2009, p. Vol. 2: 605-614. 10 p.Research output: Contribution to conference › Paper
-
Evaluation of External Tubular Configurations for a High-Temperature Chloride Molten Salt Solar Receiver Operating Above 700 °C
Martinek, J., Jape, S. & Turchi, C., 1 Jul 2021, In: Solar Energy. 222, p. 115-128 14 p.Research output: Contribution to journal › Article › peer-review
Open Access16 Scopus Citations -
Predictive Performance Modeling Framework for a Novel Enclosed Particle Receiver Configuration and Application for Thermochemical Energy Storage
Martinek, J., Wendelin, T. & Ma, Z., 2018, In: Solar Energy. 166, p. 409-421 13 p.Research output: Contribution to journal › Article › peer-review
Open Access17 Scopus Citations -
A Techno-Economic Analysis of a 50MWth Light-Trapping Cavity-Planar Solar Receiver Tower Capital Expenditures and its Cost Mitigation Strategies: Paper No. ES2024-131174
Farias, M., Ma, Z., Martinek, J. & Xu, B., 2024. 7 p.Research output: Contribution to conference › Paper
-
An Optical Performance Comparison of Three Concentrating Solar Power Collector Designs in Linear Fresnel, Parabolic Trough, and Central Receiver
Kincaid, N., Mungas, G., Kramer, N., Wagner, M. & Zhu, G., 2018, In: Applied Energy. 231, p. 1109-1121 13 p.Research output: Contribution to journal › Article › peer-review
Open Access94 Scopus Citations -
Design and Techno-Economic Analysis of a 150-MW Hybrid CSP-PV Plant
Liaqat, K., Ordonez, J., Schaefer, L. & Zolan, A., 2023, p. 218-224. 7 p.Research output: Contribution to conference › Paper › peer-review
5 Scopus Citations -
Comparison of Supercritical Carbon Dioxide Power Cycle Configurations with an Emphasis on CSP Applications
Neises, T. & Turchi, C., 2014, p. 1187-1196. 10 p.Research output: Contribution to conference › Paper › peer-review
Open Access292 Scopus Citations -
Multiphase Modeling in a Parallel Plate Fluidized Bed Receiver for Concentrating Solar Power: Paper No. ES2023-106824
Appaswamy, K., Schirck, J., Wedikkara, C., Morris, A. & Ma, Z., 2023. 9 p.Research output: Contribution to conference › Paper
-
A Comparison of Supercritical Carbon Dioxide Power Cycle Configurations with an Emphasis on CSP Applications (Presentation): NREL (National Renewable Energy Laboratory)
Neises, T. & Turchi, C., 2013, 14 p.Research output: NREL › Presentation
-
Atmospheric Transmittance Model Validation for CSP Tower Plants
Sengupta, M., Hanrieder, N., Ghennioui, A., Merrouni, A., Wilbert, S., Wiesinger, F., Zarzalejo, L. & Schade, A., 1 May 2019, In: Remote Sensing. 11, 9, 18 p., 1083.Research output: Contribution to journal › Article › peer-review
Open Access14 Scopus Citations -
AATTENUATION - The Atmospheric Attenuation Model for CSP Tower Plants: A Look-Up Table for Operational Implementation
Hanrieder, N., Ghennioui, A., Wilbert, S., Sengupta, M. & Zarzalejo, L., 2020, In: Energies. 13, 20, 18 p., 5248.Research output: Contribution to journal › Article › peer-review
Open Access8 Scopus Citations -
Thermomechanical Behavior of Advanced Manufactured Parts, Subcomponents, and Their Weldments for Gen3 CSP
Augustine, C., Osorio, J., Vidal, J., Zhao, Y., Yu, Z., Pickle, T., Abdelmotagaly, A., Zhang, W., Gao, X., Vidal, E., Iten, J. & Rafferty, B., 2024, 291 p.Research output: NREL › Technical Report
-
Addressing Failures in Molten Salt Thermal Energy Storage Tank for Central Receiver Concentrating Solar Power Plants
Osorio, J., Mehos, M., Hamilton, W., Martinek, J., Imponenti, L., Kelly, B., Price, H., Rivera-Alvarez, A., Nieto, C., Torres, J., Yu, Z. & Ni, C., 2024, 17 p.Research output: NREL › Presentation
-
Modeling of Stress Distribution in Molten Salt Thermal Energy Storage Tanks for In-Service Central Receiver Power Plants
Osorio, J., Mehos, M., Martinek, J., Hamilton, B., Imponenti, L., Kelly, B., Price, H., Yu, Z., Ni, C., Rivera-Alvarez, A., Torres, J. & Nieto, C., 2023, 23 p.Research output: NREL › Presentation
-
Analysis of Thermal and Mechanical Properties with Inventory Level of the Molten Salt Storage Tank in Central Receiver Concentrating Solar Power Plants: Article No. 124984
Guo, H., Zang, C., Wang, Z., Zhao, X., Meng, Y., Osorio, J. & Mehos, M., 2025, In: Applied Thermal Engineering. 260, 16 p.Research output: Contribution to journal › Article › peer-review
1 Scopus Citations -
Mechanism of Hydrogen Formation in Solar Parabolic Trough Receivers
Moens, L., 2008. 8 p.Research output: Contribution to conference › Paper
-
A General Method to Analyze the Thermal Performance of Multi-Cavity Concentrating Solar Power Receivers
Fleming, A., Folsom, C., Ban, H. & Ma, Z., 2017, In: Solar Energy. 150, p. 608-618 11 p.Research output: Contribution to journal › Article › peer-review
Open Access21 Scopus Citations -
-
Structural Design Considerations for Tubular Power Tower Receivers Operating at 650 Degrees C: Preprint
Neises, T., Wagner, M. & Gray, A., 2014. 9 p.Research output: Contribution to conference › Paper
-
Techno-Economic Analysis of CSP Incorporating sCO2 Brayton Power Cycles: Trade-Off Between Cost and Performance
Alfani, D., Neises, T., Astolfi, M., Binotti, M. & Silva, P., 12 May 2022. 11 p.Research output: Contribution to conference › Paper › peer-review
15 Scopus Citations -
Failure Analysis for Molten Salt Thermal Energy Storage Tanks for In-Service CSP Plants
Osorio, J., Mehos, M., Imponenti, L., Kelly, B., Price, H., Torres-Madronero, J., Rivera-Alvarez, A., Nieto-Londono, C., Ni, C., Yu, Z., Hamilton, W. & Martinek, J., 2024, 128 p.Research output: NREL › Technical Report