Search

Your search keyword '"Picotti, Giovanni"' showing total 33 results
Start Over Author "Picotti, Giovanni" Publication Year Range Last 10 years
33 results on '"Picotti, Giovanni"'

1. Heliostat-field soiling predictions and cleaning resource optimization for solar tower plants

Author

Anderson, Cody B., Picotti, Giovanni, Cholette, Michael E., Leslie, Bruce, Steinberg, Theodore A., and Manzolini, Giampaolo

Subjects
Physics - Physics and Society
Abstract

This paper presents a novel methodology for characterizing soiling losses through experimental measurements. Soiling predictions were obtained by calibrating a soiling model based on field measurements from a 50 MW modular solar tower project in Mount Isa, Australia. The study found that the mean predicted soiling rate for horizontally fixed mirrors was 0.12 percentage points per day (pp/d) during low dust seasons and 0.22 pp/d during high seasons. Autoregressive time series models were employed to extend two years of onsite meteorological measurements to a 10-year period, enabling the prediction of heliostat-field soiling rates. A fixed-frequency cleaning heuristic was applied to optimise the cleaning resources for various operational policies by balancing direct cleaning resource costs against the expected lost production, which was computed by averaging multiple simulated soiling loss trajectories. Analysis of resource usage showed that the cost of fuel and operator salaries contributed 42 % and 35 % respectively towards the cleaning cost. In addition, stowing heliostats in the horizontal position at night increased daily soiling rates by 114 % and the total cleaning costs by 51 % relative to vertically stowed heliostat-field. Under a simplified night-time-only power production configuration, the oversized solar field effectively charged the thermal storage during the day, despite reduced mirror reflectance due to soiling. These findings suggest that the plant can maintain efficient operation even with a reduced cleaning rate. Finally, it was observed that performing cleaning operations during the day led to a 7 % increase in the total cleaning cost compared to a night-time cleaning policy. This was primarily attributed to the need to park operational heliostats for cleaning.

Published
2023

2. Stochastic Soiling Loss Models for Heliostats in Concentrating Solar Power Plants

Author

Picotti, Giovanni, Cholette, Michael E., Anderson, Cody B., Steinberg, Theodore A., and Manzolini, Giampaolo

Subjects
Statistics - Applications
Abstract

Reflectance losses on solar mirrors due to soiling are a significant challenge for Concentrating Solar Power (CSP) plants. Soiling losses can vary significantly from site to site -- with (absolute) reflectance losses varying from fractions of a percentage point up to several percentage points per day (pp/day), a fact that has motivated several studies in soiling predictive modelling. Yet, existing studies have so far neglected the characterization of statistical uncertainty in their parameters and predictions. In this paper, two reflectance loss models are proposed that model uncertainty: an extension of a previously developed physical model and a simplified model. A novel uncertainty characterization enables Maximum Likelihood Estimation techniques for parameter estimation for both models, and permits the estimation of parameter (and prediction) confidence intervals. The models are applied to data from ten soiling campaigns conducted at three Australian sites (Brisbane, Mount Isa, Wodonga). The simplified model produces high-quality predictions of soiling losses on novel data, while the semi-physical model performance is mixed. The statistical distributions of daily losses were estimated for different dust loadings. Under median conditions, the daily soiling losses for Brisbane, Mount Isa, and Wodonga are estimated as $0.53 \pm 0.66$, $0.08 \pm 0.08$, and $0.58 \pm 0.15$ pp/day, respectively. Yet, higher observed dust loadings can drive average losses as high as $2$ pp/day. Overall, the results suggest a relatively simple approach characterizing the statistical distributions of soiling losses using airborne dust measurements and short reflectance monitoring campaigns., Comment: 55 pages, 13 figures

Published
2023
Full Text
View/download PDF

6. Heliostat Consortium Annual Report: 2023

Author

Zhu, Guangdong, primary, Augustine, Chad, additional, Farrell, Tucker, additional, Kesseli, Devon, additional, Kurup, Parthiv, additional, Mitchell, Rebecca, additional, Muller, Matthew, additional, Tsvankin, Daniel, additional, Yellapantula, Shashank, additional, Zolan, Alexander, additional, Armijo, Kenneth, additional, Brost, Randy, additional, Gordon, Margaret, additional, Small, Daniel, additional, Sment, Jeremy, additional, Smith, Braden, additional, Collins, Mike, additional, Coventry, Joe, additional, Pye, John, additional, Wang, Ye, additional, Cholette, Michael, additional, Picotti, Giovanni, additional, Arjomandi, Maziar, additional, and Emes, Matthew, additional

Published
2023
Full Text
View/download PDF

11. Roadmap to Advance Heliostat Technologies for Concentrating Solar-Thermal Power

Author

Zhu, Guangdong, primary, Augustine, Chad, additional, Mitchell, Rebecca, additional, Muller, Matthew, additional, Kurup, Parthiv, additional, Zolan, Alexander, additional, Yellapantula, Shashank, additional, Brost, Randy, additional, Armijo, Kenneth, additional, Sment, Jeremy, additional, Schaller, Rebecca, additional, Gordon, Margaret, additional, Collins, Mike, additional, Coventry, Joe, additional, Pye, John, additional, Cholette, Michael, additional, Picotti, Giovanni, additional, Arjomandi, Maziar, additional, Emes, Matthew, additional, Potter, Daniel, additional, and Rae, Michael, additional

Published
2022
Full Text
View/download PDF

17. Soiling in Solar Energy Systems: The Role of the Thresholding Method in Image Analysis

Author

Micheli, Leonardo, primary, Smestad, Greg P., additional, Zahid Khan, Muhammad, additional, Lange, Katja, additional, Almughary, Huda M. I., additional, Abraim, Mounir, additional, Alamat, Yanal, additional, Anderson, Cody B., additional, Bentouba, Said, additional, Figgis, Benjamin, additional, Fuke, Pavan, additional, Hachicha, Ahmed Amine, additional, Karim, Mounia, additional, Kottantharayil, Anil, additional, Martinez-Morales, Alfredo A., additional, Merrouni, Ahmed Alami, additional, Olivares, Douglas, additional, Picotti, Giovanni, additional, Rabanal-Arabach, Jorge, additional, Wiesinger, Florian, additional, and Ilse, Klemens, additional

Published
2023
Full Text
View/download PDF

18. HelioCon: A roadmap for advanced heliostat technologies for concentrating solar power

Author

Zhu, Guangdong, primary, Augustine, Chad, additional, Mitchell, Rebecca, additional, Muller, Matthew, additional, Kurup, Parthiv, additional, Zolan, Alexander, additional, Yellapantula, Shashank, additional, Brost, Randy, additional, Armijo, Kenneth, additional, Sment, Jeremy, additional, Schaller, Rebecca, additional, Gordon, Margaret, additional, Collins, Mike, additional, Coventry, Joe, additional, Pye, John, additional, Cholette, Michael, additional, Picotti, Giovanni, additional, Arjomandi, Maziar, additional, Emes, Matthew, additional, Potter, Daniel, additional, and Rae, Michael, additional

Published
2023
Full Text
View/download PDF

20. Soiling in Solar Energy Systems: The Role of the Thresholding Method in Image Analysis.

Author

Micheli, Leonardo, Smestad, Greg P., Khan, Muhammad Zahid, Lange, Katja, Almughary, Huda M. I., Abraim, Mounir, Alamat, Yanal, Anderson, Cody B., Bentouba, Said, Figgis, Benjamin, Fuke, Pavan, Hachicha, Ahmed Amine, Karim, Mounia, Kottantharayil, Anil, Martinez-Morales, Alfredo A., Alami Merrouni, Ahmed, Olivares, Douglas, Picotti, Giovanni, Rabanal-Arabach, Jorge, and Wiesinger, Florian

Subjects
IMAGE analysis, SOLAR energy, SOLAR system, SOLAR energy conversion, ENERGY dissipation
Abstract

The use of image analysis has often been suggested as a practical way to monitor the soiling accumulated on the surfaces of solar energy conversion devices. Indeed, the deposited soiling particles can be counted and characterized to calculate the area they cover, and this area can be converted into an energy loss. However, several particle counting methodologies exist and can lead to dissimilar results. This work focuses on the role of thresholding, an essential step where particles are distinguished from a background based on the pixel brightness. Sixteen automatic thresholding methods are assessed using 13 200 micrographs of glass coupons soiled at nine locations globally. In low‐to‐intermediate soiling conditions, the "Triangle" method is found to return the minimum coefficient of variation and a mean deviation closer to zero. On the other hand, methods assuming a bimodal distribution of pixel brightness underestimate the area coverage. In addition, since soiling can be unevenly distributed over a surface, different loss estimations can be returned when the same image analysis process is used on different spots on a sample's surface. For these reasons, image analysis should be repeated at multiple locations on each investigated surface. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

21. A methodology for the creep-fatigue analysis of external receivers for solar tower plants using real weather data.

Author

Gentile, Giancarlo, Picotti, Giovanni, Binotti, Marco, Cholette, Michael E., Steinberg, Theodore A., and Manzolini, Giampaolo

Subjects
*SOLAR receivers, *STRAINS & stresses (Mechanics), *FATIGUE cracks, *MATERIAL plasticity, *HEAT flux
Abstract

Despite the large number of research studies about Solar Tower plants questions, remain on a wide range of topics including methods for the lifetime assessment of the receiver tubes under creep-fatigue damage. Most of the published works dealing with this task do not consider important aspects such as the impact of clouds passages, plastic deformations, or stress relaxation due to creep. In this study a methodology is proposed to assess the creep-fatigue lifetime of solar receivers based on real weather data. The presented approach requires as input the daily DNI profiles for the selected plant location which are used to assess the heat flux maps on the receiver. Then, the heat transfer phenomena occurring within the receiver are dynamically simulated in order to obtain the history of the temperature distributions on the receiver tubes. Lastly, the creep and fatigue damages accumulated during the operation are evaluated in each receiver point considering the effects of plastic deformations and stress relaxation. The proposed methodology is applied to a simple case study to estimate the creep and fatigue damages accumulated in a receiver flow path during a typical cloudy day. The results show that the fourth panel accumulates the maximum damage and the fatigue damage is negligible compared to the creep. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

22. Dynamic thermal analysis of an external cylindrical receiver in an object-oriented modelling paradigm

Author

Richter, Christoph, Shultz, Avi, Picotti, Giovanni, Cholette, Michael E., Casella, Francesco, Binotti, Marco, Steinberg, Theodore A., Manzolini, Giampaolo, Richter, Christoph, Shultz, Avi, Picotti, Giovanni, Cholette, Michael E., Casella, Francesco, Binotti, Marco, Steinberg, Theodore A., and Manzolini, Giampaolo

Abstract

The components exposed to the highest temperature and heat fluxes in Solar Tower plants are the tubes of the panels composing the central receiver. Their structural integrity is weakened due to fatigue and creep phenomena, likely worsened by a corrosive environment, and their solar power harvesting performance suffers from diminished absorptance of their coating. This paper describes a 2D dynamic thermal model of the tubes of a central receiver, developed following an Object-Oriented modelling paradigm, and applies the model to assess the impact of degradation phenomena such as corrosion, coating deterioration, and soiling of heliostats. The model is verified against steady-state data available in literature both on overall receiver metal maximum temperature, HTF outlet temperature and absorbed heat, and on detailed circumferential analysis of the metal external temperature for a specific tube. The dynamic behavior of the receiver is also assessed, with focus on the impact of cloud events and the induced thermal transients.

Published
2022

23. Bi-objective optimization of sectorial cleaning policy for the solar fields of concentrating solar tower plants

Author

Richter, Christoph, Shultz, Avi, Truong-Ba, Huy, Cholette, Michael E., Picotti, Giovanni, Manzolini, Giampaolo, Wang, Ruizi, Steinberg, Theodore A., Richter, Christoph, Shultz, Avi, Truong-Ba, Huy, Cholette, Michael E., Picotti, Giovanni, Manzolini, Giampaolo, Wang, Ruizi, and Steinberg, Theodore A.

Abstract

The reduction of energy production due to heliostat soiling causes generation losses and therefore reduces the contribution and competitiveness of CSP. The optimal cleaning plan for CSP plants must strike the proper balance between the cost for cleaning activities and revenue losses due to a reduced power production. However, uncertainty in future soiling rates, weather conditions, and electricity sale prices (e.g. due to electricity markets, uncertainty in future purchasing agreements) significantly complicate the cleaning optimization. To address these challenges, a bi-objective simulation- optimization approach is developed to optimize the cleaning policy to simultaneously minimize cleaning costs and expected generation losses in the presence of stochastic weather, dust. The outcome of the proposed approach is the optimal number of cleaning trucks and periodic cleaning schedule for non-dominating solutions (Pareto front), which may be used to study the sensitivity of the cleaning schedule to variations in electricity prices. The approach is applied to a case study for a CSP plant located in Woomera, South Australia. The results show that for electricity sale prices between 40-100 AUD/MWh, the optimal number of trucks is 3 and the total cleaning costs are sensitive to the number of trucks purchased, but not to the cleaning frequency. However, as electricity prices increase above 300 AUD/MWh, the total costs become quite sensitive to the cleaning frequency. Finally, a comparison of the simulation-optimization approach and a (simpler) deterministic optimization indicates that the latter approach is suitable for most practical electricity prices.

Published
2022

26. Modelling of critical components in solar tower plants for degradation assessment and maintenance planning

Author

Picotti, Giovanni and Picotti, Giovanni

Abstract

This thesis investigates the detrimental effect of degradation phenomena in key equipment of solar tower plants, paving the path for their optimal maintenance. Physical models were developed to assess the thermal behaviour of central receivers, accurately estimate the soiling of heliostats, and mitigate the impact of optical efficiency losses in the solar field through optimized cleaning strategies. A hypothetical plant located in Woomera (South Australia) was exploited as a case study to evaluate the effectiveness of the optimizations, while successful synergies between thermal and soiling models proved their suitability for the development of comprehensive degradation prediction tools.

Published
2021

27. Object-oriented modelling of an external receiver for solar tower application: Dynamic simulation and impact of soiling

Author

Richter, Christoph, Picotti, Giovanni, de Lena, Edoardo, Casella, Francesco, Binotti, Marco, Manzolini, Giampaolo, Cholette, Michael E., Steinberg, Ted, Richter, Christoph, Picotti, Giovanni, de Lena, Edoardo, Casella, Francesco, Binotti, Marco, Manzolini, Giampaolo, Cholette, Michael E., and Steinberg, Ted

Abstract

The most solar-specific components in a Concentrated Solar Power (CSP) plant are the solar field and the receiver. The latter is exposed to extreme working conditions as it withstands high heat fluxes and temperatures in a corrosive environment during usual and transient conditions. It is then of paramount importance to assess the thermal behavior of such a fundamental component of the plant. The object-oriented modelling paradigm enables precise dynamic analysis of physical systems through the solution of sets of equations derived following an acausal approach. This guarantees modularity and description of interactions through physical connection equations with no causality specification. The application of the object-oriented modelling technique on the external receiver of a CSP tower plant is described in detail in this paper, proving its potentialities and modelling capabilities. The model is first verified against data available in literature and then applied for the analysis of dynamic operations, including typical issues of CSP plants as the impact of clouds and heliostats soiling.

Published
2020

29. Modelling the soiling of heliostats: Assessment of the optical efficiency and impact of cleaning operations

Author

Richter, Christoph, Picotti, Giovanni, Binotti, Marco, Cholette, Michael, Borghesani, Pietro, Manzolini, Giampaolo, Steinberg, Ted, Richter, Christoph, Picotti, Giovanni, Binotti, Marco, Cholette, Michael, Borghesani, Pietro, Manzolini, Giampaolo, and Steinberg, Ted

Abstract

The optical efficiency of the solar field heliostats of a Concentrating Solar Power (CSP) tower plant is a fundamental parameter to assess the productivity of the plant. The optical efficiency is mainly affected by the position of the sun in the sky during the year, and by the cleanliness level of the heliostats, which is related to their reflectance. The reflectance is continuously diminished by the deposition of dust on the heliostat surface (that is, soiling). Natural cleaning events, as rain, are rare in typical locations for CSP plants, so artificial cleaning is the most common technique used to maintain the optical efficiency (heliostat reflectance) as close as possible to its optimal value in order to maximize the overall production and thus the revenues of the CSP plant. This paper provides a methodology to assess the soiling of a heliostat field and then evaluates the impact of artificial cleaning on the optical efficiency, considering different frequencies of cleaning in four different scenarios. The outcome of this study is a considerable step forward towards the optimization of costly cleaning activities to minimize operation costs in solar power technologies.

Published
2019

31. Soiling of solar collectors - Modelling approaches for airborne dust and its interactions with surfaces

Author

Picotti, Giovanni, Borghesani, Pietro, Cholette, Michael, Manzolini, Giampaolo, Picotti, Giovanni, Borghesani, Pietro, Cholette, Michael, and Manzolini, Giampaolo

Abstract

This literature review deals with the well-known problem of soiling in solar plants, which it severely affects the energy yield of solar power plants. A loss of reflectivity due to soiling reduces the entire productivity of the plant by limiting the energy harvested (i.e. the incoming direct normal irradiance is not properly reflected towards the right focus). On the other hand, the costs of maintenance and cleaning of the collectors represent a significant component of the plant operational costs. Therefore, in this paper, a multi-disciplinary literature review is conducted with the aim of collecting existing models for the key processes, organising them into a ‘dust life cycle’. This cycle is divided into four steps: Generation, Deposition, Adhesion, and Removal; with emphasis on the interaction between dust particles and solar collectors’ surfaces. Generation deals with the loading of atmosphere with dust particles, deposition concerns the processes that actually bring airborne dust onto the collectors’ surface, adhesion and removal represent the competing forces whose balance determine which particles remains adherent on the collectors and which are detached. The intent is to provide a complete framework for the development of a future physical model for the prediction and estimation of the actual soiling of the solar collectors, which engineers can implement in order to maximize the revenues of CSP plant, pushing towards more clean and sustainable energy production technologies.

Published
2018

32. Development and experimental validation of a physical model for the soiling of mirrors for CSP industry applications

Author

Picotti, Giovanni, Borghesani, Pietro, Manzolini, Giampaolo, Cholette, Michael, Wang, Norman, Picotti, Giovanni, Borghesani, Pietro, Manzolini, Giampaolo, Cholette, Michael, and Wang, Norman

Abstract

Addressing soiling-related losses of glazed surfaces in solar power technologies is one of the most critical issues to improve the competitiveness of solar power plants in the current energy market. Reliable predictions of soiling rates and performance losses would enable optimisation of cleaning strategies and add a valuable assessment criterion for the evaluation of potential future power plant sites. However, currently available soiling models are data-driven and thus specific to the site and do not allow for reliable extrapolation to different sites and environmental conditions. To address this gap, this paper details the development of a physical soiling model for the prediction of the deposition of airborne dust onto the surface of solar collectors and the subsequent loss of performance (i.e. reflectance in the specific case of heliostats). The model inputs are the measured airborne dust concentration and estimated size distribution, the position of the mirrors, and the recorded wind speed and air temperature. The outputs of the model have been validated using experiments performed at the Queensland University of Technology. A reflectometer was used to measure the reflectance of the mirrors on an almost-daily basis while meteorological and dust data were obtained through a dust sensor and a weather station. The agreement between the experimental data and the simulated results demonstrates the effectiveness of the model in dry conditions. For example, for a mirror tilted at 45° with a daily loss of reflectance between 0.5%/day and 2.1%/day, the model reflectance loss predictions have an average relative error of 14%. Furthermore, the visual trends of the model predictions agree well with those observed in the experimental data. Finally, the model is used to investigate scenarios at three candidate sites to assess reflectance losses in different conditions.

Published
2018

33. Sectorial reflectance-based cleaning policy of heliostats for Solar Tower power plants.

Author

Truong-Ba, Huy, Cholette, Michael E., Picotti, Giovanni, Steinberg, Theodore A., and Manzolini, Giampaolo

Subjects
*HELIOSTATS, *SOLAR collectors, *REFLECTANCE measurement, *OVERHEAD costs, *SOIL weathering
Abstract

For concentrating Solar Tower (ST) power plants, heliostats must be cleaned to maintain high productivity, but this comes at the cost of cleaning expenditures. Striking the correct balance remains challenging, due in part to the fact that soiling losses are location-dependent, stochastic, seasonal, and spatially inhomogeneous across the field. In this paper, novel reflectance-based cleaning policies are developed that trigger and prioritize cleaning of different solar field sectors based on reflectance measurements. In contrast to existing approaches, these policies have the potential to mitigate the effect of stochastic soiling losses and allocate finite cleaning resources by considering the spatial inhomogeneity of soiling. The optimization of the policy is conducted using the approximate Markov Decision Process (MDP) paradigm that utilizes a simulation model based on a recently developed physical soiling model. The proposed approach is applied to a case study on a hypothetical ST plant located in South Australia. The proposed policies are benchmarked with other traditional time-based cleaning policies and a previously developed reflectance-based policy. The results indicate a considerable benefit of sectorial reflectance-based cleaning strategies to other benchmarked policies (i.e. ∼ 2 % savings on total cleaning costs). Moreover, in case where the per-cleaning costs (e.g. water, fuel) are significant compared to the fixed costs (e.g. truck depreciation), the savings of proposed sectorial cleaning policies are greater (∼ 10% savings). • A reflectance-based sectorial cleaning policy for solar collectors is proposed. • Reflectance loss is modelled using a physical soiling model and weather parameters. • Cleaning policy is optimized using an Approximate Markov Decision Process paradigm. • The proposed policy is applied to a hypothetical plant in Woomera, South Australia. • Policies are benchmarked against other time-based and simplified cleaning policies. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results