Heterogeneity in the Adoption of Photovoltaic Systems in Flanders

Groote, Olivier De; Pepermans, Guido; Verboven, Frank

doi:10.2139/ssrn.2676526

Cited by 13 publications

(22 citation statements)

References 34 publications

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“…For this purpose, we consider the approach used in the literature by Bollinger and Gillingham (2012), Muller and Rode (2013) or Graziano and Gillingham (2014). In regression (12), we control in addition for the accumulated number of previously installed PV's in the municipality, in addition to the estimation strategy used in our benchmark regression (1). We observe that this does not have an impact on our main result.…”

Section: Resultsmentioning

confidence: 94%

“…Statistical significance: * p < 0.1, * * p < 0.05, * * * p < 0.01 Table 5 presents various robustness checks with respect to different estimation strategies. In regression (12) and (13), we first control for the presence of social interaction peer effects in the diffusion of PV panels. These social drivers help overcome non-monetary barriers to adoption via localized knowledge sharing among neighbors.…”

Section: Resultsmentioning

confidence: 99%

“…Hence, we believe that reverse causality is not a concern in our particular institutional setting. 12…”

Section: Empirical Strategymentioning

confidence: 99%

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PV adoption: the role of distribution tariffs under net metering

Gautier

Jacqmin

2019

J Regul Econ

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The deployment of decentralized productions units (DPU) like rooftop solar panels is a major challenge for a transition towards greener energy sources. Under a net metering system where the meter runs backward when there is excessive PV production, the electricity produced by a solar panel is valued at the retail price. Higher retail prices thus encourage the deployment of DPU. To identify this relationship, we use data from Wallonia where tariffs are paid on a mostly volumetric base and where there are 13 different tariff zones. Using various specifications, our results suggest that in a municipality where the distribution tariff is one eurocent per kWh higher, the investment in solar PV is, all else equal, around 8% higher.

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Section: Resultsmentioning

confidence: 94%

Section: Resultsmentioning

confidence: 99%

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PV adoption: the role of distribution tariffs under net metering

Gautier

Jacqmin

2019

J Regul Econ

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“…Models that estimate deployments from socioeconomic and environmental variables are key for decision making by regulatory agencies, solar installers, and utilities. Studies have focused on either utilizing surveys [17][18][19][20][21][22][23] or data-driven approaches [14][15][16][24][25][26][27][28] at spatial scales ranging from county-to state-level models, achieving in-sample R 2 values between 0.04 and 0.71. The models are typically linear 28 or log-linear 27 and utilize less than 10,000 samples for regression.…”

Section: Predictive Solar Deployment Modelmentioning

confidence: 99%

“…These 94 factors are the largest set of factors we can collect for all census tracts and part of them have been also utilized and reported in previous works. [14][15][16][24][25][26][27][28] Among all predictive models, the Random Forest-based model, called SolarForest, achieves the tier-1 out-of-sample R 2 value of 0.72 in the 10-fold cross-validation, which is even higher than the in-sample R 2 values of any other models in previous works. [14][15][16][24][25][26]28 SolarForest is a novel machine learning-based hierarchical predictive model that postulates census tract level solar deployment as a two-stage process: whether tracts contain solar panels or not, and, if they do contain them, the number of systems per household is decided ( Figure 6A).…”

Section: Predictive Solar Deployment Modelmentioning

confidence: 99%

DeepSolar: A Machine Learning Framework to Efficiently Construct a Solar Deployment Database in the United States

Wang

Majumdar

et al. 2018

Joule

234

130

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We developed an accurate deep learning framework to automatically localize solar photovoltaic panels from satellite imagery and estimate their sizes. We used it to construct a comprehensive and publicly available solar installation database of the contiguous US. We demonstrated its value by identifying key environmental and socioeconomic factors correlating with solar deployment, such as income and education. We also found that the solar deployment density can be accurately estimated at the microscopic level with these factors using a novel predictive model.

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The prosumers and the grid

2018

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Prosumers are households that are both producers and consumers of electricity. A prosumer has a grid-connected decentralized production unit and makes two types of exchanges with the grid: energy imports when the local production is insufficient to match the local consumption and energy exports when local production exceeds it. There exists two systems to measure the exchanges: a net metering system that uses a single meter to measure the balance between exports and imports and a net purchasing system that uses two meters to measure separately power exports and imports. Both systems are currently used for residential consumption. We build a model to compare the two metering systems. Under net metering, the price of exports paid to prosumers is implicitly set at the price of the electricity that they import. WeThe authors thank the FNRS and the Walloon Region (Grant TECR) for its financial support. They also thank P. Agrell and participants at the Mannheim Energy Conference, the BAAE conference held at CORE/Louvain-la-Neuve, the 65th congress of AFSE Nancy, the Energy Symposium at University of Barcelona, the third FAERE Conference in Bordeaux, the EARIE conference in Lisbon, the IIOC conference in Boston and the workshop on electricity demand at Université Paris-Dauphine for comments and I. Peere for English editing.

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Heterogeneity in the Adoption of Photovoltaic Systems in Flanders

Cited by 13 publications

References 34 publications

PV adoption: the role of distribution tariffs under net metering

PV adoption: the role of distribution tariffs under net metering

DeepSolar: A Machine Learning Framework to Efficiently Construct a Solar Deployment Database in the United States

The prosumers and the grid

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