OPTIMIZING THE USE OF ENERGY STORAGE AS A DEMAND RESPONSE TOOL

The renewable energies expansion over last years, due to the need to bring electricity production towards ever higher levels of green production and the increase of the demand, have brought further stability problems to the main grid. The handling of the integration of these alternative sources and the optimization of the electricity grid have given high attention on the role of demand response program as a key part for the target. The combination of battery storage units with real-time prices is part of the research effort that aims to reduce the instability of the grid and the energy costs of the users. Literature shows good potential for the control strategies as the relative wide range of technologies developed recently for the scope, even if for the residential customers usually the potential is constrained by the limited controllable loads and their significant share of consumption. However, the aspect of user comfort is not always fully considered leading to less realistic conclusions. The objective of the work described in the dissertation was then to obtain a reduction in residential energy costs through the optimal scheduling of user appliances supported by the use of battery storage, under a real-time price scheme, while limiting the discomfort for the customer. Although the first results of applying a real time pricing scheme based on the current variations in price observed in the Iberian wholesale market led only to small profits when not considering additional self-generation, they increased significantly if a small photovoltaic based production is considered, and reached significant cost savings (circa 70%) in periods of high solar generation. But, when applying a real time price following the fluctuations of the renewable energy supply, which produced much higher variations in price, the results improved considerably, reaching cost savings as high as 85%. The implemented model shows the true relevance of Demand Response and Energy Storage, producing meaningful savings if the supply costs change with the availability of renewable energy supply. With self-generation, the obtained value is even higher in the perspective of the individual customer, maximizing the cost-effectiveness of such investment

Application de la recherche opérationnelle à deux problèmes industriels : ordonnancement d'un laminoir et gestion de barrages hydroélectriques

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal

A review on the complementarity of renewable energy sources: concept, metrics, application and future research directions

It is expected, and regionally observed, that energy demand will soon be covered by a widespread deployment of renewable energy sources. However, the weather and climate driven energy sources are characterized by a significant spatial and temporal variability. One of the commonly mentioned solutions to overcome the mismatch between demand and supply provided by renewable generation is a hybridization of two or more energy sources in a single power station (like wind-solar, solar-hydro or solar-wind-hydro). The operation of hybrid energy sources is based on the complementary nature of renewable sources. Considering the growing importance of such systems and increasing number of research activities in this area this paper presents a comprehensive review of studies which investigated, analyzed, quantified and utilized the effect of temporal, spatial and spatio-temporal complementarity between renewable energy sources. The review starts with a brief overview of available research papers, formulates detailed definition of major concepts, summarizes current research directions and ends with prospective future research activities. The review provides a chronological and spatial information with regard to the studies on the complementarity concept.Comment: 34 pages 7 figures 3 table

European Gas Trade: A Quantitative Approach

This second working paper within the series of reports on the ongoing activities in IIASA's International Gas Study presents some test applications of the GATE-I model (Gas Trade, Integrated Version). The general outline of this model can be found in the report, "Model of European Gas Production, Trade and Consumption". The GATE-I model has been applied to demonstrate the feasibility of modeling natural gas scenarios and the corresponding gas trade among the European subregions. Altogether four scenarios were developed: a base case that provides an initial test of the prospects for natural gas in future energy strategies for the European continent and indicates the trade links needed to meet expected demand; a scenario in which different export price-to-quantity relations are assumed for the gas exporting regions of the Soviet Union and North Africa; a supply security scenario that incorporates some gas import dependency policy considerations; and a scenario in which environmental aspects are considered in terms of the costs of meeting SO2 emission reduction requirements for enhanced natural gas consumption. In sum, given the simplification needed to keep GATE-I relatively compact and computationally fast, the main objectives of the exercise have been fully met. The quantitative results of applying the model to the analysis of gas prospects for the above regions should not be considered conclusive, but are suggestive of possible trends with respect to gas use in these regions. The preliminary analysis is currently being followed up with more detailed investigations

TIMBER HARVEST ADJACENCY ECONOMIES, HUNTING, SPECIES PROTECTION, AND OLD GROWTH VALUE: SEEKING THE OPTIMUM

Spatial forest management models recognize that nontimber benefits cat1 be influenced by the status of adjacent land. For instance, contiguous old growth provides habitat, aesthetic value, and environmental services. Conversely, edge areas provide forage and cover habitat for game and non-game wildlife. However, adjacency externalities are not limited to nontimber concerns. Larger harvest areas generate average cost savings as fixed harvesting costs are spread across greater acreage, a problem excluded from most literature on optimal harvesting. Hence, it is typical that economies and diseconomies of adjacency in harvesting occur simultaneously. This complicates the determination of optimal ecosystem management behavior, which recognizes timber, aesthetic, wildlife protection, and hunting values. This paper conceptually portrays economies of adjacency in competing objectives using multiple management strategies.Resource /Energy Economics and Policy,

Gasification Of Oil Palm Biomass In Hot Compressed Water (HCW) For Production Of Synthesis Gas.

Kaedah penggasan gentian tandan buah kosong kelapa sawit dalam air panas termampat dikaji secara berkelompok menggunakan reaktor autoklaf bertekanan tinggi. The study on the HCW gasification of the oil palm empty fruit bunch (EFB) fibers was investigated in a batch system using a high-pressure autoclave reactor

Trade in Energy Services - GATS and India

Energy plays a vital role in the development of any economy and given its unequal distribution trade in energy, especially fossil fuels, is an important component of international trade. In the past, due to its public good characteristics, energy-related services were mostly supplied by the government. With liberalization and globalization the sector underwent significant transformation. Many new services developed and large multinationals emerged which increased global trade in energy services. Energy services is now an important component of all trade agreements. In the above context, this paper examines Indias opportunities and constraints to trade in energy services within the GATS framework. The study found that India has the capability of exporting high-skilled manpower at competitive prices but is facing various market access, discriminatory and regulatory barriers in markets of export interest. With the entry of energy producing countries such as Saudi Arabia into the WTO, the Doha negotiations provide an important platform to offensively push for liberalization in this sector. India needs foreign investment, technical know-how and international best practices in energy. The country has progressively liberalized this sector and there are no major entry barriers. However, India has not been successful in attracting large foreign investment and technology. This is due to various domestic barriers which make it difficult to set up a competitive operation. The study lists the reform measures which will help the sector become globally competitive, protect the interests of consumers and meet the energy needs of society. Since this sector is sensitive and is closely monitored by governments across the world, government-to-government collaborations would ease the entry process for Indian companies in foreign markets, diversify our energy resource base and improve energy security.GATS, Energy, trade, India & the WTO

Environmental Impact Assessment by Green Processes

Primary energy consumption around the world has been increasing steadily since the Industrial Revolution and shows no signals of slowing down in the coming years. This trend is accompanied by the increasing pollutant concentration on the Earth’s biosystems and the general concerns over the health and environmental impacts that will ensue. Air quality, water purity, atmospheric CO2 concentration, etc., are some examples of environmental parameters that are degrading due to human activities. These ecosystems can be safeguarded without renouncing industrial development, urban and economic development through the use of low environmental impact technologies instead of equivalent pollutant ones or through the use of technologies to mitigate the negative impact of high emissions technologies. Pollutant abatement systems, carbon capture technologies, biobased products, etc. need to be established in order to make environmental parameters more and more similar to the pre-industrialization values of the planet Earth. In 15 papers international scientists addressed such topics, especially combining a high academic standard coupled with a practical focus on green processes and a quantitative approach to environmental impacts

Energy innovation in Latin America: R&D effort, deployment, and capability accumulation

Ibero-America, just as the rest of the world, faces an increasing urgency to transform existing energy systems. In the past, incentives to develop energy systems were induced mainly by changes in demand (derived from industrialization and urbanization) and by price shocks in fuels. Diversification of energy sources followed a growing need of use of particular energy forms. For developing countries, innovating in energy systems meant fundamentally gaining control over natural resources and moving away from primary, export-oriented enclaves into industrial integration, as well as improving energy security. Today, however, environmental constraints and the pressing need to reduce energy poverty forge additional challenges and set new directions to change the ways in which we use and produce energy. Improving current technologies along the same trajectory is simply not enough. Fundamental changes must take place in our economic systems in order to combine energy efficiency with low-carbon, sustainable energy sources, for which new abilities and solutions need to be targeted.energy innovation; Latin America