Energy Storage Systems for Electric Vehicles: Performance Comparison based on a Simple Equivalent Circuit and Experimental Tests

The decision to select the most suitable type of energy storage system for an electric vehicle is always difficult, since many conditionings must be taken into account. Sometimes, this study can be made by means of complex mathematical models which represent the behavior of a battery, ultracapacitor or some other devices. However, these models are usually too dependent on parameters that are not easily available, which usually results in nonrealistic results. Besides, the more accurate the model, the more specific it needs to be, which becomes an issue when comparing systems of different nature. This paper proposes a practical methodology to compare different energy storage technologies. This is done by means of a linear approach of an equivalent circuit based on laboratory tests. Via these tests, the internal resistance and the self-discharge rate are evaluated, making it possible to compare different energy storage systems regardless their technology. Rather simple testing equipment is sufficient to give a comparative idea of the differences between each system, concerning issues such as efficiency, heating and self-discharge, when operating under a certain scenario. The proposed methodology is applied to four energy storage systems of different nature for the sake of illustration.

Evaluation of the utilization of electric vehicles for building energy management in hotels

Governments are working in new policies to slow down total energy consumption and greenhouse gases (GHG) emissions, promoting the deployment of electric vehicles (EVs) in all countries. In order to facilitate this deployment and help to reduce the final costs of their batteries, additional utilization of EVs when those are parked has been proposed. EVs can be used to minimize the total electricity cost of buildings (named vehicle to building applications, V2B). In this paper an economic evaluation of EVs in the Building Energy Management System is shown. The optimal storage capacity and its equivalent number of EVs are determined. This value is then used for determining the optimal charging schedule to be applied to the batteries. From this schedule, the total expected profit is derived for the case of a real hotel in Spain.

The cup anemometer, a fundamental meteorological instrument for the wind energy industry

The cup anemometer has been used widely by the wind energy industry since its early beginning, covering two fundamental aspects: wind mill performance control and wind energy production forecast. Furthermore, despite modern technological advances such as LIDAR and SODAR, the cup anemometer remains clearly the most used instrument by the wind energy industry. Together with the major advantages of this instrument (precision, robustness), some issues must be taken into account by scientists and researchers when using it. Overspeeding, interaction with stream wakes due to allocation on masts and wind- mills, loss of performance due to wear and tear, change of performance due to different climatic conditions, checking of the maintenance status and recalibration, etc. In the present work a review of the research campaigns carried out at the IDR/UPM Institute to analyze cup anemometer performance is included. Several aspects of this instrument are examined: the calibration process, the loss of performances due to aging and wear and tear, the effect of changes of air density, the rotor aerodynamics, and the harmonic terms contained in the anemometer output signal and their possible relation to the anemometer performances.

Model Based On-Line Energy Prediction System for Semi-Autonomous Mobile Robots

Maximizing energy autonomy is a consistent challenge when deploying mobile robots in ionizing radiation or other hazardous environments. Having a reliable robot system is essential for successful execution of missions and to avoid manual recovery of the robots in environments that are harmful to human beings. For deployment of robots missions at short notice, the ability to know beforehand the energy required for performing the task is essential. This paper presents a on-line method for predicting energy requirements based on the pre-determined power models for a mobile robot. A small mobile robot, Khepera III is used for the experimental study and the results are promising with high prediction accuracy. The applications of the energy prediction models in energy optimization and simulations are also discussed along with examples of significant energy savings.

Lessons learned on home energy monitoring and management: Smartcity Málaga

The Smartcity Málaga project is one of Europe?s largest ecoefficient city initiatives. The project has implemented a field trial in 50 households to study the effects of energy monitoring and management technologies on the residential electricity consumption. This poster presents some lessons learned on energy consumption trends, smart clamps reliability and the suitability of power contracted by users, obtained after six months of data analysis.

Experiences and methodology in a multidisciplinary energy and architecture competition: Solar Decathlon Europe 2012

Solar Decathlon Europe is an international competition among universities which promotes interdisciplinary learning in engineering and architecture. Students from different disciplines participate in teams guided by several professors during a 29 month preparation period plus five weeks of on-site contest. The educational project involves designing, building and testing a solar energy house connected to the electrical grid with the strategy of maximizing self-consumption, supported by bioclimatic technologies and maintaining a low environmental footprint. It culminates in a on-site contest in which teams must assembly the house themselves, test it with ordinary real life tasks and finally disassembly it. The event has also a divulgative aim, trying to make students and visitors get interested in discovering the problems presented by real engineering and architecture applications. In addition, SDE covers R&D aspects in different fields such as energy efficiency, solar energy and bioclimatic architecture. This article presents the methodology followed during the SDE 2012 edition, in which more than 850 students participated. The obtained results show that the educational competition was a success according to the technical and professional ambitions of the students, most of them considering that their knowledge had increased in areas related to technical and multidisciplinary aspects.

Electrical energy balance contest in Solar Decathlon Europe 2012

Solar Decathlon Europe (SDE) is an international multidisciplinary competition in which 20 universityteams build and operate energy-efficient solar-powered houses. The aim of SDE is not only scientificbut also educational and divulgative, making visitors to understand the problems presented by realengineering applications and architecture. From a research perspective, the energy data gathered dur-ing the competition constitutes a very promising information for the analysis and understanding of thephotovoltaic systems, grid structures, energy balances and energy efficiency of the set of houses. Thisarticle focuses on the electrical energy components of SDE competition, the energy performance of thehouses and the strategies and behaviors followed by the teams. The rules evaluate the houses? electricalenergy self-sufficiency by looking at the electricity autonomy in terms of aggregated electrical energybalance; the temporary generation-consumption profile pattern correlation; and the use of electricityper measurable area. Although the houses are evaluated under the same climatological and consump-tion conditions, production results are very different due to the specific engineering solutions (differentelectrical topologies, presence or absence of batteries, diverse photovoltaic module solutions, etc.)

A game theory based strategy for reducing energy consumption in cognitive WSN

Wireless sensor networks (WSNs) are one of the most important users of wireless communication technologies in the coming years and some challenges in this area must be addressed for their complete development. Energy consumption and spectrum availability are two of the most severe constraints of WSNs due to their intrinsic nature. The introduction of cognitive capabilities into these networks has arisen to face the issue of spectrum scarcity but could be used to face energy challenges too due to their new range of communication possibilities. In this paper a new strategy based on game theory for cognitive WSNs is discussed. The presented strategy improves energy consumption by taking advantage of the new change-communication-channel capability. Based on game theory, the strategy decides when to change the transmission channel depending on the behavior of the rest of the network nodes. The strategy presented is lightweight but still has higher energy saving rates as compared to noncognitive networks and even to other strategies based on scheduled spectrum sensing. Simulations are presented for several scenarios that demonstrate energy saving rates of around 65% as compared to WSNs without cognitive techniques.

Towards energy sustainability in ecolodges for latin America: a case in the bolivian Amazon

This project, funded by the Programa Iberoaméricano de Ciencia y Tecnología para el Desarrollo (CYTED), analyses the energy service requirements in sustainable tourism and will spread knowledge about renewable energies among the ecotourism stakeholders of Latin America. The target groups are local communities in protected areas, because they are the less up to date groups and, frequently, they are living in the most fragile ecosystems, but also the most fertile in biodiversity; their living standard is very low and the ecotourism can be a successful economic resource. The regions considered are ecosystems in Latin America, which have some protection degree, and are managed by local communities. The selected countries to implement renewable energy infrastructures in ecolodges are: Bolivia, Ecuador and Peru. Also low cost telecommunications infrastructures will be installed to improve the diffusion among potential clients of the ecolodges, in order to permit direct reservation of the services.

Vehicle to vehicle energy exchange in smart grid applications

This paper presents a novel vehicle to vehicle energy exchange market (V2VEE) between electric vehicles (EVs) for decreasing the energy cost to be paid by some users whose EVs must be recharged during the day to fulfil their daily scheduled trips and also reducing the impact of charging on the electric grid. EVs with excess of energy in their batteries can transfer this energy among other EVs which need charge during their daily trips. These second type of owners can buy the energy directly to the electric grid or they can buy the energy from other EV at lower price. An aggregator is responsible for collecting all information among vehicles located in the same area at the same time and make possible this energy transfer.

Technology transfer of renewable energy for rural development: historical evolution and lessons of experience from the model WWP

Technology transfer (TT) in the area of renewable energy (RE) throughout history has been an important tool for rural development (RD). Initially, the TT has been conceptualized as the purchase or donation of machinery from first world countries - without any consideration of staff training and contextual conditions for the adaptation of technology to the needs of the country. Various researches have revealed the existence of different approaches to planning the TT of RE, demonstrating the high complexity of projects from the social and contextual dimension. This paper addresses the conceptual evolution of the TT of RE for RD, examining its different periods considered for three criteria: historical events occurred, the role of stakeholders and changing objectives for the TT of RE for RD. For the conceptual analysis of changes the model Working With People (WWP) is used for planning and project management of high social complexity in RD. The analysis defines the existence of four historical periods in the TT of RE and synthesizes the lessons of experience from the three dimensions (ethical-social, technical-entrepreneurial, and political-contextual) of the WWP model.

Energy efficiency evaluation of zero energy houses

Given the global energy and environmental situation, the European Union has been issuing directives with increasingly demanding requirements in term of the energy efficiency in buildings. The international competition of sustainable houses, Solar Decathlon Europe (SDE), is aligned with these European objectives. SDE houses are low energy solar buildings that must reach the near to zero energy houses’ goal. In the 2012 edition, in order to emphasize its significance, the Energy Efficiency Contest was added. SDE houses’ interior comfort, functioning and energy performance is monitored. The monitoring data can give an idea about the efficiency of the houses. However, a jury comprised by international experts is responsible for carrying out the houses energy efficiency evaluation. Passive strategies and houses services are analyzed. Additionally, the jury's assessment has been compared with the behavior of the houses during the monitoring period. Comparative studies make emphasis on the energy aspects, houses functioning and their interior comfort. Conclusions include thoughts related with the evaluation process, the results of the comparative studies and suggestions for the next competitions.

Energy yield determination of concentrator solar cells using laboratory measurements

The annual energy conversion efficiency is calculated for a four junction inverted metamorphic solar cell that has been completely characterized in the laboratory at room temperature using measurements fit to a comprehensive optoelectronic model of the multijunction solar cells. A simple model of the temperature dependence is used redict the performance of the solar cell under varying temperature and spectra characteristic of Golden, CO for an entire year. The annual energy conversion efficiency is calculated by integrating the predicted cell performance over the entire year. The effects of geometric concentration, CPV system thermal characteristics, and luminescent coupling are ighlighted.

Determinación de los parámetros de diseño a aplicar al proyecto de grandes yates a motor, en base a nuevos requerimientos de eficiencia energética y protección del medioambiente marino

Durante los últimos años, la construcción de grandes yates ha evolucionado hacia conceptos y diseños más complejos dónde se ha priorizado en muchas ocasiones la estética arquitectónica y exigencias de confort de los armadores y operadores dejando en segundo plano aspectos clave de seguridad. Diferentes Organismos Internacionales y las Sociedades de Clasificación han venido adaptando sus requisitos a la problemática específica de este tipo de buques, tratando de compatibilizar tendencias de diseño con exigencias de resistencia, integridad estructural, estanqueidad y seguridad entre otras. En la actualidad, la construcción de grandes yates con esloras incluso por encima de los 100 metros, el aumento del número de pasajeros por encima del límite tradicional de 12, las nuevas tendencias de ahorro energético y protección medioambiental que se están implantando en la industria en general y marítima en particular, plantean una serie de desafíos tanto a los diseñadores como a las Sociedades de Clasificación que deben avanzar en sus reglamentaciones para cubrir estos y otros aspectos. Son precisamente estos aspectos medioambientales, tradicionalmente relegados en la industria de grandes yates los que están ocupando en la actualidad un primer plano en los desarrollos de normativa de diferentes Organismos Internacionales y Nacionales. El impacto que estas nuevas normativas van a tener sobre el diseño de grandes yates a motor centra el desarrollo de esta Tesis. Hasta donde ha podido conocer el doctorando, esta es la primera vez que en una Tesis Doctoral se abordan los principales mecanismos que regulan el diseño y la construcción de grandes yates a motor, se estudian y analizan las regulaciones internacionales en materia de protección medioambiental y de eficiencia energética aplicables a los yates, se seleccionan y describen un conjunto de tecnologías maduras de carácter medioambiental, susceptibles de ser empleadas en yates y se determina los parámetros y aspectos del diseño a aplicar al proyecto de grandes yates a motor como resultado de la aplicación de estas tecnologías, analizados bajo la perspectiva de la Sociedad de Clasificación y de los Organismos Internacionales. La Tesis comienza con un análisis de la industria de construcción de grandes yates, la flota existente de grandes yates, la cartera actual de pedidos y la evolución esperada del mercado. Aquí se pone de manifiesto que a pesar de la crisis económica global de los últimos años, este mercado goza relativamente de buena salud y las previsiones son favorables, particularmente para el sector en Europa. A continuación se aborda el estado del arte del diseño de yate grande, sus peculiaridades, particularmente estructurales y de armamento, que le diferencian de otros tipos de buques y las tendencias en su diseño. Se pone de manifiesto cómo el proyecto de estos yates ha evolucionado hacia yates de gran tamaño y complejidad técnica, debido a la demanda y necesidades actuales y cómo ha influido en aspectos como la disposición estructural. Seguidamente se describen los principales mecanismos que regulan el diseño y construcción de grandes yates, particularmente el Código de Grandes Yates Comerciales de la Maritime & Coastguard Agency del Reino Unido, y las Reglas y Reglamentos de la Sociedad de Clasificación Lloyd’s Register para la Clasificación de yates; por ser ambas organizaciones las que lideran el Registro y la Clasificación respectivamente de este tipo de buques, objeto del estudio. El doctorando ejerce su actividad profesional como inspector de Lloyd’s Register en una oficina técnica de apoyo y evaluación de diseño, siendo especialista en grandes yates, lo que ha permitido exponer de primera mano el punto de vista de la Sociedad de Clasificación. En el siguiente Capítulo se describen las principales reglamentaciones internacionales de carácter medioambiental que afectan al diseño, construcción y operación de los yates, algunas de las cuales, como es el caso del Convenio Internacional para el Control y la Gestión del Agua de Lastre y Sedimentos de los buques (BWM 2004) aún no ha entrado en vigor a la fecha de terminación de esta Tesis. Seguidamente se realiza una selección de tecnologías desde el punto de vista de protección medioambiental y ahorro energético y su aplicación al diseño y construcción de grandes yates. Algunas de estas tecnologías son maduras y ya habían sido utilizadas con éxito en otros tipos de buques, pero su aplicación a los yates entraña ciertos desafíos que se describen en este Capítulo. A continuación se determinan y analizan los principales parámetros de diseño de los yates grandes a motor como consecuencia de las tecnologías estudiadas y se indican una serie de aspectos de diseño bajo la perspectiva de la Sociedad de Clasificación y de los Organismos Marítimos Internacionales. Finalmente se llega a una serie de conclusiones y se identifican futuras líneas de investigación en relación a las tecnologías descritas en este trabajo. ABSTRACT In recent years, the building of large yachts has evolved into more complex concepts and designs where often prioritized architectural aesthetics and comfort requirements of owners and operators leaving in the background key security aspects. Several international organizations and classification societies have been adapting their requirements to the specific problems of this type of vessel, trying to reconcile demands design trends with resistance, structural integrity, watertightness and safety among others. At present, the building of large yachts with lengths even above 100 meters, the increase in passenger numbers over the traditional limit of 12, new trends of energy saving and environmental protection are being implemented in the marine industry in particular, they pose a number of challenges to both designers and classification societies that should update and improve their regulations to cover these and other aspects. It is precisely these environmental issues, traditionally relegated to the large yacht industry, which are currently occupying center stage in the development of rules of different international and national bodies. The impact that these new standards will have on the design of large motor yachts focuses the development of this thesis. As far as it is known, this is the first time in a doctoral thesis the main mechanisms regulating the design and construction of large motor yachts are addressed, the international regulations on environmental protection and energy efficiency requirements for yachts are studied and analyzed, a set of mature environmental technologies, capable of being applied to yachts are selected and described, the parameters and design aspects to be applied to large yacht projects as a result of the application of these technologies are determined and analyzed from the perspective of the Classification Society and international organizations. The thesis begins with an analysis of the shipbuilding industry of large yachts, the existing fleet of large yachts, the current backlog and the expected market developments. Here it becomes clear that despite the global economic crisis of recent years, this market enjoys relatively good health and prospects are favorable, particularly for the sector in Europe. Then the state of the art of large yacht design, its peculiarities, particularly structural and outfitting, that differentiate it from other types of ships and trends in design is discussed. It shows how the project of these yachts has evolved to large yachts and technical complexity, due to the demand and needs and how it has influenced the structural arrangement aspects. Then the main mechanisms regulating the design and construction of large yachts, particularly the Large Commercial Yacht Code developed by the Maritime & Coastguard Agency (UK) and the Lloyd’s Register Rules & Regulations for the Classification of Special Service Craft including yachts are described; the two organizations to be leading the registration and classification respectively of such vessels under study. The doctoral student practices his profession as a senior specialist to Lloyd’s Register in a technical support office, dealing with the design assessment of large yachts, which allowed exposing firsthand view of the Classification Society. In the next chapter describes the main international environmental regulations, affecting the design, construction and operation of yachts, some of which, such as the International Convention for the Control and Management of Ships' Ballast Water and Sediments (BWM 2004) has not yet entered into force at the date of completion of this thesis. Following is a selection of technologies from the point of view of environmental protection and energy saving and its application to design and construction of large yachts. Some of these technologies are mature and have already been used successfully in other ship types, but their application to yachts entails certain challenges that are described in this chapter. Then identifies and analyzes the main design parameters of large motor yachts as a result of the technologies studied and a number of design aspects are given from the perspective of Classification Society and international maritime organizations. Finally, a number of conclusions are exposed, and future research is identified in relation to the technologies described in this Thesis.

Pre-investigation of water electrolysis for flexible energy storage at large scales: the case of the Spanish power system

This report analyzes the basis of hydrogen and power integration strategies, by using water electrolysis processes as a means of flexible energy storage at large scales. It is a prospective study, where the scope is to describe the characteristics of current power systems (like the generation technologies, load curves and grid constraints), and define future scenarios of hydrogen for balancing the electrical grids, considering the efficiency, economy and easiness of operations. We focus in the "Spanish case", which is a good example for planning the transition from a power system holding large reserve capacities, high penetration of renewable energies and limited interconnections, to a more sustainable energy system being capable to optimize the volumes, the regulation modes, the utilization ratios and the impacts of the installations. Thus, we explore a novel aspect of the "hydrogen economy" which is based in the potentials of existing power systems and the properties of hydrogen as energy carrier, by considering the electricity generation and demand globally and determining the optimal size and operation of the hydrogen production processes along the country; e.g. the cost production of hydrogen becomes viable for a base-load scenario with 58 TWh/year of power surplus at 0.025 V/kWh, and large number electrolyzer plants (50 MW) running in variable mode (1-12 kA/m2)