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commit a7c4b331036bf87f24d7a5106868a7d7d8433d8e
parent 9e3fc91dc643e6d6de943049f4dc53cde42a1f28
Author: Vincent Forest <vincent.forest@meso-star.com>
Date:   Fri, 27 Jun 2025 12:10:21 +0200

Solstice: add related articles

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Msolstice/solstice.md.in | 55+++++++++++++++++++++++++++++++++++++++++++++++++++++++


1 file changed, 55 insertions(+), 0 deletions(-)

diff --git a/solstice/solstice.md.in b/solstice/solstice.md.in
@@ -37,6 +37,61 @@ atmosphere, at any spectral resolution.
 > The image has been rendered with [htrdr](../htrdr/htrdr.html) for
 > illustration purposes.
 
+## Related articles
+
+- [Moulana et al 2024](https://doi.org/10.1016/j.solener.2024.112675),
+  "Concentrated solar flux modeling in solar power towers with a 3D
+  objects-atmosphere hybrid system to consider atmospheric and
+  environmental gains", Solar Energy
+  ([open access](https://hal.science/hal-04751072v1))
+
+- [Wang et al. 2023](https://doi.org/10.1016/j.apenergy.2023.121513),
+  "Co-optimisation of the heliostat field and receiver for concentrated
+  solar power plants", Applied Energy
+
+- [Zhu et al. 2023](https://doi.org/10.3390/en16072997),
+  "A Model Predictive Control Approach for Heliostat Field Power
+  Regulatory Aiming Strategy under Varying Cloud Shadowing Conditions",
+  Energies
+  ([open access](https://psecommunity.org/wp-content/plugins/wpor/includes/file/2304/LAPSE-2023.30743-1v1.pdf))
+
+- [Panagopoulos et al. 2022](https://doi.org/10.1016/j.egyr.2022.05.007),
+  "Optical and thermal performance simulation of a micro-mirror solar
+  collector", Energy Reports
+
+- [Grange et al. 2021](https://doi.org/10.3390/su13073920),
+  "Aiming Strategy on a Prototype-Scale Solar Receiver: Coupling of Tabu
+  Search, Ray-Tracing and Thermal Models ", Sustainability
+  ([open access](https://hal.science/hal-03523266v1))
+
+- [Wang et al. 2020](https://doi.org/10.1016/j.solener.2020.08.008),
+  "Performance enhancement of cavity receivers with spillage skirts and
+  secondary reflectors in concentrated solar dish and tower systems",
+  Solar Energy
+
+- [Wang et al. 2020](https://doi.org/10.1016/j.solener.2019.11.035),
+  "Verification of optical modelling of sunshape and surface slope error
+  for concentrating solar power systems", Solar Energy
+  ([open access](https://hal.science/hal-02358801/))
+
+- [Suntaxi et al. 2019](https://bibdigital.epn.edu.ec/handle/15000/20457),
+  "Sensibilidad de la energía perdida en el receptor debido al control
+  del campo de espejos de un colector lineal Fresnel", Bachelor thesis
+
+- [Caliot et al. 2015](https://doi.org/10.1115/1.4029692),
+  "Validation of a Monte Carlo Integral Formulation Applied to Solar
+  Facility Simulations and Use of Sensitivities", Journal of Solar
+  Energy Engineering
+  ([open access](https://hal.science/hal-03368146))
+
+- [Piaud et al. 2012](https://www.academia.edu/18317802/Application_of_Monte_Carlo_sensitivities_estimation_in_Solfast_4D),
+  "Application of Monte-Carlo sensitivities estimation in Solfast-4D",
+  SolarPaces
+
+- [Roccia et al. 2012](https://dx.doi.org/10.1088/1742-6596/369/1/012029),
+  "SOLFAST, a Ray-Tracing Monte-Carlo software for solar concentrating
+  facilities", Journal of Physics
+
 ## A straight interface
 
 The Solstice program is a *command-line tool* that processes input data,