Dataset for Assessing the Economic Performance of a Residential PV Plant: The Analysis of a New Policy Proposal

: This data article aims at providing a data description about the manuscript entitled “The post COVID-19 green recovery in practice: assessing the proﬁtability of a policy proposal on residential photovoltaic plants”. The deﬁnition of a business plan is a complex decision because the choice of the input data signiﬁcantly inﬂuences the economic assessment of a project. An Excel ﬁle is used to construct an economic model based on the Discounted Cash Flow (DCF) methodology using Net Present Value (NPV) as an indicator. The choice of input data is deﬁned by literature analysis, and policy proposals are identiﬁed by the Revival Decree adopted by Italian Government to contrast human and economic shock e ﬀ ected by COVID-19. The aggregation of these data enabled us to obtain both baseline and alternative scenarios to deﬁne if the realization of a residential photovoltaic (PV) plant is economically feasible. Similar data can be obtained for other countries according to the policy actions adopted, and this work can be easily replicated in di ﬀ erent geographical contexts and considering varying categories of stakeholders (e.g., consumers, which are called upon to implement a green transition). Dataset: Submitted as the Supplementary ﬁle. Dataset License: CC-BY-SA.


Summary
The COVID-19 pandemic has determined a significant socio-economic shock, and the use of fossil fuels has influenced environmental degradation. Photovoltaic (PV) systems are able to favour a green transition in which economic opportunities can be associated with social benefits and environmental improvements. In this phase, policy actors play a key-role in order to identify appropriate proposals. At the same time, it is necessary to implement good practices, and often there is an issue related to the transparency of the economic assessment of projects. The need of data for the PV system is useful not only for a practical use but also to address sustainable goals [1,2] with a particular emphasis on the economic side [3].
This investigation is based on a literature review. Initially, all input data are identified according to works referred to the economic assessment of PV plants, and additionally, the economic model is improved thanks to the reviewers' comments during previous steps of this research oriented to develop the transition towards a low-carbon society pushed by the installation of solar PV plants.
The economic assessment of the PV residential plant was performed using Discounted Cash Flow (DCF) methodology and Net Present Value (NPV) as an indicator. For this scope, all parameters (variables) involved in this analysis were selected. Furthermore, our policy proposal is based on the combination of literature analysis and policy documents useful to identify a synchronization between the growth of PV plants and the development of decentralized systems.
The dataset is built starting from a literature analysis to identify the values associated with the techno-economic variables. Based on this information, a collection of input data has been provided. Additionally, another direction is to associate values with the policy variables through the analysis of Italian Decrees oriented to promote the development of photovoltaic plants. Finally, the values defined in our proposal are based on the mix of literature and policy data.
This work underlines that: • The identification of data is a critical step in a green project.

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The collection of data is determined by literature analysis and can be replied in developed markets.

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The policy proposals significantly influence the economic model of a green project assigning a key-weight to values associated with these data.

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Both input data and the model are oriented to result in the economic assessment of a PV plant.

Data Description
The assessment of projects is typically associated with the identification of input data. An appropriate tool to select adequate input data is a pre-requisite to provide a robust output. Additionally, the economic assessment follows this direction, and the profitability of a project can be obtained following three approaches:

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The identification of data according to literature analysis.

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The identification of data based on an expert panel.

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The definition of data elaborated by subjective considerations.
In some cases, it is not possible to follow the same approach for all categories of data. In this green project, we opted to use data coming from literature analysis, because they permit both reviewers and readers to immediately see the reference of this value. However, we have seen that some of these data are obtained by colleagues through expert panels (e.g., update of investment cost, purchase cost of electricity, and selling price of electricity). Both approaches are valid.
This work is based on input data from literature analysis. A list of papers was selected through the most popular scientific works search engines (e.g., Google™ Scholar, Scopus™, Web of Science™, MDPI™, Science Direct™, Sage™, Springer™, Emerald™, Taylor&Francis™ Online, and Wiley™ Online Libraries). The core of this work (residential photovoltaic system) is associated with several key-words within the title and/or abstract: (i) business plan, (ii) economic analysis, (iii) discounted cash flow analysis, (iv) profitability analysis, (v) self-consumption, and (vi) policy proposal. All periods were considered, but we assigned more relevance to recent works with a special emphasis on manuscripts related to the socio-economic crisis caused by COVID-19.
Furthermore, the renewable sector is growing thanks to the support of subsidies, and consequently, the identification of data referring to the policy adopted in the country/region analysed assumes more relevance. We checked all policy tools adopted in Italy, analysing two actions for this project: Within Revival Decree, an eco-bonus measure provides a subsidized tax deduction of 110% (fixed to 50% before this Decree) for the realization of new PV plants. The period of deduction is fixed at Data 2020, 5, 101 3 of 5 5 years, and the amount is equally subdivided. In particular, Revival Decree identifies two different business scenarios that change in function of the maximum value of investment. The first provides tax deduction of 110% to the entire investment up to a value of 2400 €/kW, if the realization of PV plant is linked to green operations such as air conditioning or thermal insulation (PV2400 scenario). The second provides a tax deduction of 110% to the investment up to a value of 1600 €/kW, if there is not the realization also of a green operation. Finally, our policy proposal is to apply a bonus to the energy produced and self-consumed in a residential context [4]. In this case, we choose the third approach above-cited to identify the value of data.
The dataset is composed of eight Excel files, and each file shows the business plan with relative values to use as input. Within files, the NPV (output of our model) is also calculated. Specifically, the file "Tax Deduction 50%.xlsx" (provided as a Supplementary file) shows the model previous to the application of the eco-bonus, while both files, "Tax Deduction 110%-5 years-PV2400.xlsx" and "Tax Deduction 110%-5 years -PV1600.xlsx" (provided as Supplementary files), identify the scenarios in which the eco-bonus is introduced. The following step is represented by the introduction of the bonus showed in our research project [4]. The file "Tax Deduction 50%-bonus 10 years.xlsx" (provided as a Supplementary file) is applied to the scenario without eco-bonus; instead the synergy and integration between two policy tools is proposed in the following files: "Tax Deduction 110%-5 years-PV2400-bonus 5 years.xlsx", "Tax Deduction 110%-5 years-PV2400-bonus 10 years.xlsx", "Tax Deduction 110%-5 years-PV1600-bonus 5 years.xlsx", and "Tax Deduction 110%-5 years-PV1600-bonus 10 years.xlsx" (provided as Supplementary files). These alternative scenarios change not only in function of business scenario but also for the value assumed by another key-variable (the period of subsidy), which is released for 5 or 10 years. All input data are proposed in Table 1.

Methods
DCF is a consolidated methodology able to measure the economic impact associated with the realization of a project. It is characterized by the following aspects: (i) only cash flows are included; (ii) an incremental approach is used; and (iii) all cash flows are aggregated thanks to the use of an appropriate cost opportunity of capital. As depicted in Figure 1, the dataset construction was based on the literature and policy data.

Methods
DCF is a consolidated methodology able to measure the economic impact associated with the realization of a project. It is characterized by the following aspects: (i) only cash flows are included; (ii) an incremental approach is used; and (iii) all cash flows are aggregated thanks to the use of an appropriate cost opportunity of capital. As depicted in Figure 1, the dataset construction was based on the literature and policy data. The first step is represented by the motivation to study a PV plant as an alternative to the use of fossil fuels. There is a great number of studies that demonstrate its sustainability, and each of them is focused to assess some aspects (economic, social, policy, technological, and environmental) or their integration. Our attention is concentrated on the integration between economic feasibility and policy proposals. The following step is represented by a restriction of works proposed in literature. In fact, we focus our attention on the works titled solar or photovoltaic with the integration of the following keywords within the title of the manuscript: economic analysis, subsidies, net present value, selfconsumption, and profitability. In this way, the analysis of several works is useful to identify the parameters involved in the assessment. The identification of values can be concentrated on the plant size analysed, because the value of variables such as purchase cost of electricity, selling price of electricity, and investment cost changes as a function of the residential, commercial, or industrial context. At the same time, the analysis cannot only be concentrated on the specific context, if the work is aimed not only to assess the profitability but also to suggest policy implications. In this way, the first aim is to aggregate all cash flows in order to calculate NPV: discounted cash inflow (DCI) and discounted cash outflow (DCO). This aggregation is able to define the profitability of the residential PV plant. The second aim is to evaluate the impact of policy proposals. This comparison can be enhanced through the analysis of both baseline and alternative scenarios that quantify the impact of specific measures. All case studies were obtained through the Excel programme as this is an easy way to replicate results, and the economic model is proposed as follows:  The first step is represented by the motivation to study a PV plant as an alternative to the use of fossil fuels. There is a great number of studies that demonstrate its sustainability, and each of them is focused to assess some aspects (economic, social, policy, technological, and environmental) or their integration. Our attention is concentrated on the integration between economic feasibility and policy proposals. The following step is represented by a restriction of works proposed in literature. In fact, we focus our attention on the works titled solar or photovoltaic with the integration of the following keywords within the title of the manuscript: economic analysis, subsidies, net present value, self-consumption, and profitability. In this way, the analysis of several works is useful to identify the parameters involved in the assessment. The identification of values can be concentrated on the plant size analysed, because the value of variables such as purchase cost of electricity, selling price of electricity, and investment cost changes as a function of the residential, commercial, or industrial context. At the same time, the analysis cannot only be concentrated on the specific context, if the work is aimed not only to assess the profitability but also to suggest policy implications. In this way, the first aim is to aggregate all cash flows in order to calculate NPV: discounted cash inflow (DCI) and discounted cash outflow (DCO). This aggregation is able to define the profitability of the residential PV plant. The second aim is to evaluate the impact of policy proposals. This comparison can be enhanced through the analysis of both baseline and alternative scenarios that quantify the impact of specific measures. All case studies were obtained through the Excel programme as this is an easy way to replicate results, and the economic model is proposed as follows: DCI = N t=1 (ω self,c × E Out,t × p c t + (1 − ω self,c ) × E Out,t × p s t + ω self,c × E Out,t × b u inc )/(1 + r) t + N TaxD t=1 ((C inv /N TaxD ) × TaxD u )/(1 + r) t (2) Data 2020, 5, 101 p c t+1 = p c t × (1 + inf el ) (5) DCO = N debt −1 t=0 (C inv /N debt + (C inv − C lcs,t ) × r d )/(1 + r) t + N t=1 (P Cm × C inv × (1 + inf) + P Cass × C inv × (1 + inf) + SP el,t × P Ctax )/(1 + r) t + (P Ci × C inv )/(1 + r) 10 + C ae (6) C inv = C inv,unit × (1 + Vat) × P f × η f (7)