Operational costs and reliability in a large rural electrification programme based on solar home systems

Experiences in decentralized rural electrification programmes using solar home systems have suffered difficulties during the operation and maintenance phase, due in many cases, to the underestimation of the maintenance cost, because of the decentralized character of the activity, and also because the reliability of the solar home system components is frequently unknown. This paper reports on the reliability study and cost characterization achieved in a large photovoltaic rural electrification programme carried out in Morocco. The paper aims to determinate the reliability features of the solar systems, focusing in the in-field testing for batteries and photovoltaic modules. The degradation rates for batteries and PV modules have been extracted from the in-field experiments. On the other hand, the main costs related to the operation and maintenance activity have been identified with the aim of establishing the main factors that lead to the failure of the quality sustainability in many rural electrification programmes

Fiabilidad y costes de mantenimiento en un programa de electrificación rural de 13.000 solar home systems

La electrificación rural fotovoltaica ha experimentado últimamente un salto de escala tanto en la dimensión de sus programas como en sus sistemas de gestión. Garantizar la calidad técnica ya no se reduce solamente a la fase de diseño e instalación, sino también a la de operación y mantenimiento. El presente trabajo trata de caracterizar la fase de operación del programa de electrificación rural fotovoltaico de Marruecos sobre el cual se ha llevado a cabo un exhaustivo estudio de fiabilidad de los distintos componentes que integran los sistemas solares (SHS), así como una evaluación de los costes unitarios ligados al mantenimiento, analizando su impacto en la estructura general de costes del programa. Los resultados van dirigidos hacia la caracterización de un modelo de la estructura de mantenimiento que logre asegurar la sostenibilidad de este tipo de programas

Electrificación rural fotovoltaica "Solar Home Systems". Fiabilidad y costes de mantenimiento

La electrificación rural fotovoltaica ha experimentado últimamente un salto de escala tanto en la dimensión de sus programas como en sus sistemas de gestión. Garantizar la calidad técnica ya no se reduce solamente a la fase de dise~o e instalación, sino también a la de operación y mantenimiento. El estudio del Instituto de Energfa Solar de la Universidad Politécnica de Madrid trata de caracterizar la fase de ope ración del programa de electrificación rural fotovoltaico de Marruecos sobre el cual se ha llevado a cabo un exhaustivo estudio de fiabilidad de los distintos componentes que integran los denominados Solar Heme 5ysrems (SHS). Ase como una evaluación de los costes unitarios ligados al mantenimiento, analizando su impacto en la estructura general de costes del programa. Los resultados van dirigidos hacia la caracterización de un modelo de la estructura de mantenimiento que logre asegurar la sostenibilidad de este tipo de programas energéticos

Characterisation and efficiency test of a li-ion energy storage system for PV systems

Li-ion batteries are modern electrical energy storage systems which are undergoing an intense development in their technological features. Their high specific energy, efficiency and durability, together with the lowering of their production costs, are placing them as one of the most promising actors in the field of electrical energy storage technology used as tool for integrating renewable energy sources. But due to the fact that they are in an early stage of development, their reliability must be trusted. This paper describes a method and the results for testing round trip efficiencies of a modern Li-ion battery based energy storage system integrated in a PV system. According to the related standards, the efficiency of a battery and an inverter/charger has been characterised, under technical restrictions and specific operation conditions for its use with PV systems

Performance Analysis of 10,000 Residential PV Systems in France and Belgium

The main objective of this paper is to review the state of the art of residential PV systems in France and Belgium. This is done analyzing the operational data of 10650 PV systems (9657 located in France and 993 in Belgium). Three main questions are posed. How much energy do they produce? What level of performance is associated to their production? Which are the key parameters that most influence their quality? During the year 2010, the PV systems in France have produced a mean annual energy of 1163 kWh/kWp in France and 852 kWh/kWp in Belgium. As a whole, the orientation of PV generators causes energy productions to be some 7% inferior to optimally oriented PV systems. The mean Performance Ratio is 76% in France and 78% in Belgium, and the mean Performance Index is 85% in both countries. On average, the real power of the PV modules falls 4.9% below its corresponding nominal power announced on the manufacturer?s datasheet. A brief analysis by PV modules technology has lead to relevant observations about two technologies in particular. On the one hand, the PV systems equipped with Heterojunction with Intrinsic. Thin layer (HIT) modules show performances higher than average. On the other hand, the systems equipped with Copper Indium (di)Selenide (CIS) modules show a real power that is 16 % lower than their nominal value

Review of the Performance of Residential PV systems in France

The main objective of this paper is to review the state of the art of residential PV systems in France. This is done analyzing the operational data of 6868 installations. Three main questions are posed. How much energy do they produce? What level of performance is associated to their production? Which are the key parameters that most influence their quality? During the year 2010, the PV systems in France have produced a mean annual energy of 1163 kWh/kWp. As a whole, the orientation of PV generators causes energy productions to be some 7% inferior to optimally oriented PV systems. The mean Performance Ratio is 76% and the mean Performance Index is 85%. That is to say, the energy produced by a typical PV system in France is 15% inferior to the energy produced by a very high quality PV system. On average, the real power of the PV modules falls 4.9% below its corresponding nominal power announced on the manufacturer's datasheet. A brief analysis by PV modules technology has led to relevant observations about two technologies in particular. On the one hand, the PV systems equipped with heterojunction with intrinsic thin layer (HIT) modules show performances higher than average. On the other hand, the systems equipped with the copper indium (di)selenide (CIS) modules show a real power that is 16% lower than their nominal value

Detección automática de fallos de operación en instalaciones fotovoltaicas domésticas

El objetivo principal de este trabajo es implementar una herramienta de análisis automático de datos de operación para detectar fallos en instalaciones fotovoltaicas domésticas que disponen de sistemas de monitorización. Para ello se han analizado los datos de productividad de 10.650 sistemas fotovoltaicos (9657 situados en Francia y 993 en Bélgica). El Performance Ratio (PR) promedio ha sido de 76% en Francia y 78% en Bélgica, y el Performance Index (PI) promedio es de 85% en ambos países. La potencia real media de los módulos fotovoltaicos es un 4,9% inferior a su valor nominal anunciado en la ficha técnica del fabricante. Los módulos de heterounión (HIT) muestran productividades superiores a la media, mientras que los módulos de Cobre-Indio-Selenio (CIS) muestran una potencia real un 16% inferior a su valor nominal

Operational costs of A 13,000 solar home systems rural electrification programme

This paper presents an assessment and evaluation of the costs of operation and maintenance (O&M) in a real PV rural electrification (PVRE) programme, with the aim of characterizing its costs structure. Based on the extracted data of the 5-years operational costs of a private operator, the programme has been analyzed to take out the most relevant costs involved in the O&M phase as well as the comparative appraisal between the 3 main activities: installation, O&M and management. Through this study we try to answer to the new challenge of decentralized rural electrification based on larger programmes (with tens of thousands of SHSs) and longer maintenance and operation periods (at least 10 years)

Implementation and validation of a self-consumption maximization energy management strategy in a Vanadium Redox Flow BIPV demonstrator

This paper presents the results of the implementation of a self-consumption maximization strategy tested in a real-scale Vanadium Redox Flow Battery (VRFB) (5 kW, 60 kWh) and Building Integrated Photovoltaics (BIPV) demonstrator (6.74 kWp). The tested energy management strategy aims to maximize the consumption of energy generated by a BIPV system through the usage of a battery. Whenever possible, the residual load is either stored in the battery to be used later or is supplied by the energy stored previously. The strategy was tested over seven days in a real-scale VRF battery to assess the validity of this battery to implement BIPV-focused energy management strategies. The results show that it was possible to obtain a self-consumption ratio of 100.0%, and that 75.6% of the energy consumed was provided by PV power. The VRFB was able to perform the strategy, although it was noticed that the available power (either to charge or discharge) varied with the state of charge

On the relation between battery size and PV power ramp rate limitation

PV power fluctuations caused by clouds are leading operators of grids with high renewable energy penetration rates to impose ramp rate limitations. Costly battery energy storage systems are used for fulfilling these regulations but the question of the power and energy requirements for accomplishing them has not been fully answered. This work analyses the effects of reducing the size of a battery designed to absorb every fluctuation by taking into consideration, both, the fluctuation occurrence and the penalties in case of non-compliance of a given prescribed ramp-rate limitation. A theoretical analysis was carried out in order to assess the relation between size reduction and ramp rate compliance, obtaining as result a model for predicting the probability of non-compliances with a reduced battery. Additionally, the battery size reduction analysis was applied to the particular grid code currently proposed for Puerto Rico, creating new tools for selecting a battery with reduced power and energy capacity