Showing total 3 results

1. Energy homeostasis management strategy for building rooftop nanogrids, considering the thermal model and a HVAC unit installed.

Author

Yanine, Fernando, Sanchez-Squella, Antonio, Barrueto, Aldo, Sahoo, Sarat Kumar, Parejo, Antonio, and Cordova, Felisa M.

Subjects

ENERGY management, ROOFTOP construction, POWER plants, DISTRIBUTED power generation, BATTERY storage plants, SUPERVISORY control systems, GRID energy storage

Abstract

This paper presents a case study on power control and energy management for a 60 apartments' residential building with solar generation and energy storage tied to the grid in Santiago, Chile. A new energy management algorithm based on energy homeostasis is designed for a small electro thermal generation system (nanogrid), with smart metering. The test bed employs supervisory control with energy management that regulates the temperature inside a large room by the action of an HVAC (Heating/Ventilating/Air Conditioning) unit. The main objective of supervisory control is to allow temperature comfort for residents while evaluating the decrease in energy cost. The study considers a room with rooftop grid-tie nanogrid with a photovoltaic and wind turbine generation plant, working in parallel. It also has an external weather station that allows predictive analysis and control of the temperature inside the abode. The electrical system can be disconnected from the local network, working independently (islanding) and with voltage regulation executed by the photovoltaic generation system. Additionally, the system has a battery bank that allows the energy management by means of the supervisory control system. Under this scenario, a set of coordination and supervisory control strategies, adapted for the needs defined in the energy management program and considering the infrastructure conditions of the network and the abode, are applied with the aim of efficiently managing the supply and consumption of energy, considering Electricity Distribution Net Billing Laws 20.571 and 21.118 in Chile (https://www.bcn.cl/historiadelaley/historia-de-la-ley/vista-expandida/7596/), the electricity tariffs established by the distribution company and the option of incorporating an energy storage system and temperature control inside the room. The results show the advantage of the proposed tariffs and the overall energy homeostasis management strategy for the integration of distributed power generation and distribution within the smart grid transformation agenda in Chile. [ABSTRACT FROM AUTHOR]

Published

2022

2. Evolution of Solar Energy in Chile: Residential Opportunities in Arica and Parinacota.

Author

Moraga-Contreras, Claudia, Cornejo-Ponce, Lorena, Vilca-Salinas, Patricia, Estupiñan, Edgar, Zuñiga, Alejandro, Palma-Behnke, Rodrigo, and Tapia-Caroca, Héctor

Subjects

RENEWABLE energy sources, ENERGY consumption, PLANNED communities, HOUSING development, SOLAR energy

Abstract

Chile has set itself to achieve Greenhouse Gas emission neutrality, with at least 70% of electricity coming from renewable energy sources by 2050. To this end, institutional and regulatory frameworks have been improved, resulting in significant progress in medium and large-scale projects. However, solar energy production at residential level and its surplus injection to all distribution networks has been very limited. This paper analyzes the evolution of the regulatory energy policies in Chile in order to contrast it with an economic evaluation of residential projects. The analysis focuses on the city of Arica, one of the highest potential regions in terms of solar energy within the country. There, a particularly low penetration of residential solar energy usage has been observed. Based on the current situation, projections are made for Arica in 2050, through the identification of barriers and opportunities on a residential scale development. According to some recommendations, there is the need to design policies that take into account the particular characteristics of each region within the country. [ABSTRACT FROM AUTHOR]

Published

2022

3. The Scottish experience in community energy development: A starting point for Chile.

Author

Fuentes González, Fabián, Sauma, Enzo, and van der Weijde, AdriaanHendrik

Subjects

*ENERGY development, *NONPROFIT sector, *ENERGY policy, *GOVERNMENT policy, *SUSTAINABLE communities

Abstract

This study presents an overview of the relevant evidence available up to now regarding the Scottish experience in relation to the development of community energy projects. Scotland has a relevant number of community energy projects which are generating energy, improving the quality of life of communities through sustainable initiatives. This is the result of the implementation of successful policies to encourage community energy by the Scottish government (in comparison with other countries). On the contrary, the Chilean community energy sector is still incipient, despite some interest; public policies have been focused on fostering the concept of distributed generation. Chilean community energy developments have not been analysed in any detail; this paper is a first attempt to do so, and to derive lessons from the Scottish experience that can be useful to Chilean policy makers. We summarise and analyse the Scottish and Chilean community energy sectors and their developments. We further analyse the current Chilean net billing scheme using concepts from game theory, showing that it may not be the best support mechanism for citizen-led energy production developments. Based on these analyses, we define a list of policy recommendations for Chile, which can help further development in the community energy sector. • Scotland should be recognised as a worldwide example in community energy. • Community-oriented organisations seem to be leading community energy in Scotland. • Chilean energy policies have focused on distributed generation schemes instead. • Chilean net billing scheme is not always convenient for residential consumers. • Community energy development might be a promising option for Chile. [ABSTRACT FROM AUTHOR]

Published

2019