Browsing by Subject "Microgrid"
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Item Open Access A Business Plan for Residential Microgrid Software(2020-04-21) Sundeen, LisaHave you ever thought about going solar or getting an electric vehicle? Do you know which utility rate would save you the most money? Does getting a battery make sense for your home? BUILD MY GRID is the first customer-centric platform that helps residential homeowners answer some of these questions. BUILD MY GRID relies on backend algorithms that optimize utility rates and renewable energy technologies to show customers how they can save the most money by going green. Specifically, customers can compare utility rates, examine different technology combinations, and see available grid services. The energy landscape is morphing into a sustainable decentralized system of energy resources. Residential customers will become increasingly empowered to participate in bidirectional energy management. BUILD MY GRID will help individuals engage in the energy transformation while simultaneously providing an important dataset for traditional energy players, such as utilities.Item Open Access AN ANALYSIS OF THE FEASIBILITY AND ENVIRONMENTAL IMPACT OF INCORPORATING CLEAN ENERGY INTO AN ISLANDED MICROGRID IN SIERRA LEONE(2014-04-24) Yagjian, Christina; Kelly, IanClarity Project is a fine jewelry company and social enterprise that recently began mining diamonds in Sierra Leone as part of its mission to improve the quality of life of artisanal miners in West African communities. This has presented a new challenge to the company: the site of Clarity Project’s new mining compound is distant from the country’s modest electric grid, leaving Clarity Project to procure its own electric power. The purpose of this project is to determine Clarity Project’s electricity needs, analyze its alternatives for meeting those needs, and evaluate the costs and environmental impacts of those alternatives. Using data obtained on site in Sierra Leone and meteorological data from NASA, we developed a model that predicts the load profile of the mining compound, forecasts the expected amount and temporal availability of electricity from photovoltaic arrays on site, and projects the use of diesel generators and battery storage to supplement the solar power. The model then calculates the present value of the capital and operating expenses for the microgrid as well as the carbon dioxide emissions associated with generating electricity for the compound. Our analysis has determined that (1) the least expensive option, based on capital expenses and operating expenses discounted to present value, would be to rely solely on diesel generators; (2) the cost of relying solely on renewable energy during Sierra Leone’s dry season would be approximately double the all-diesel option over a five-year time horizon and about 60 percent greater over a 25-year time horizon (and the availability of renewable energy falls significantly during the rainy season); and (3) incorporating solar power and battery storage, while more expensive, would allow Clarity Project to avoid emitting nearly 20 metric tonnes of carbon dioxide per year.Item Open Access An Evaluation of Microgrid-Based Enterprise Viability(2020-04-20) Singer, Timithy; Slaughter, AndrewThe global need to meet population housing needs through infrastructure development is at odds with the urgent necessity to mitigate the impacts of climate change. This investigation considers the relationships between built infrastructure and microgrid electricity supply by evaluating technologies that could provide economically-feasible and low- or zero-carbon development solutions. Existing and emerging building and microgrid technologies have significant potential to provide viable energy access solutions across multiple use cases and the potential to integrate well into financially attractive business models. Modular construction, or prefabrication, is an emerging construction technology demonstrating decreased costs and development timelines, with greater flexibility in deployment relative to traditional construction methods. Photovoltaic (PV) and battery storage technology mirror some of these aspects of deployment flexibility, while functioning as mature technologies with predictable financial parameters, especially within the context of microgrids. Evaluating these technologies through the lens of infrastructure costs, geographically specific time-of-use (ToU) rates, and stochasticity of demand and power generation will provide the foundations of financially-sound microgrid business models with insights towards feasibility. The results of this study indicate that microgrid-based business models are highly sensitive to capital cost variances, and the viability of these businesses is contingent upon a multitude of economic, technological, and policy factors.Item Open Access ANALYSIS OF THE MICROGRID MARKET FOR SMALL AND MEDIUM-SIZED MUNICIPALITIES AND ELECTRIC COOPERATIVES(2021-04-30) Hancock, Thomas; Hu, Yuxin; Yang, YueyiA growing number of electricity users ranging from large production facilities to homeowners are installing microgrids to increase the resilience and reliability of their power supply. While this growth has largely been driven by private entities, microgrids also offer municipal utilities, rural cooperatives, and local governments a means to provide improved services to their constituents, provided the costs can be appropriately controlled. In this project, we investigate the market potential for microgrid adoption by small and medium-sized municipalities and electric cooperatives. Insights around this market segment are drawn from semi-structured interviews with representatives from not only municipalities and electric cooperatives, but also major utilities, local government regulatory agencies, and microgrid experts. The findings from these discussions indicate that municipal utilities have potential to be a healthy market for microgrids as they avoid conflicts with monopoly distribution companies and their government affiliation provides an opportunity to improve community resilience. To accelerate microgrid deployment in this sector, a framework is developed for assessing the viability of microgrid adoption for municipalities and cooperatives. This framework is also used to identify a list of representative utilities that demonstrate the key characteristics of this market segment.Item Open Access Evaluating Avoided Carbon Emission Benefits at the Santa Rita Jail(2013-04-26) Lai, JudyThe Santa Rita Jail, located in the city of Dublin, California, is the 5th largest county jail in the country. The site encompasses approximately 45 ha and the main buildings cover a million square feet. It operates year-round and has stringent requirements for reliable power. To this end, the microgrid and distributed energy resources scientists and researchers at the Lawrence Berkeley National Laboratory have been involved in the Chevron Energy Services lead project to convert the various onsite distributed generation (DG) technologies at the Jail into a true microgrid. Currently, the Jail’s technologies include large-scale batteries, photovoltaics (PVs), fuel cells (FCs), and wind turbines. Several research papers and reports have already analyzed and described the performance, bill savings, and return on investment of the equipment individually or together as a microgrid. This document reports the results of the effort at quantifying the value of avoided carbon emissions by analyzing the PV and FC performance and energy data from 2007 to 2011. Using California’s recent cap and trade allowance auction settlement prices, estimates of the avoided value of carbon emissions from PV and FC during the 5-year period are presented and compared to the counter-factual emissions had the Jail purchased all of its electricity from the local utility. The estimated value of avoided emissions is between $116,000 and $177,000.Item Open Access Evaluating Viability of Community Solar Microgrids for Resilience in Puerto Rico(2019-04-26) Deng, Simeng; Hansen, Asger Victor; Hiltbrand, Galen; Maddex, Sean; Sinclair Lecaros, SantiagoHurricane Maria, which hit the Caribbean two weeks after Hurricane Irma in September 2017, caused the largest electricity blackout in U.S. history. After the hurricanes, Toro Negro, a rural community nestled into the mountains of Puerto Rico went without electricity for a staggering 8 months. This experience led the community to build and manage Puerto Rico’s first fully operational community solar microgrid to gain electricity reliability and resilience. The aim of this project is to develop an effective management strategy for community solar microgrid systems in Puerto Rico. Our team established a price rate at which the residents of Toro Negro can pay for their electricity and an operations and maintenance plan to ensure the microgrid remains economically feasible for the lifetime of the system. Additionally, we have established a common governance strategy and policy recommendations for microgrids in Puerto Rico. Our project can serve as a blueprint for other communities looking to transition to clean energy and increase storm resiliency.Item Open Access Three Essays on the Economics of Renewable Electricity Generation Technologies(2018) Alqahtani, BandarThis PhD dissertation presents three studies that individually aim to increase understanding of various aspects of solar and wind energy and the challenge of integrating them in the electricity power system. The first study explores the opportunity to improve the technical and economic performance of concentrated solar thermal power plants (CSPs) through joint installation and operation with fossil-fuel combined cycle power plants (CCPPs). The second study presents an analysis of the feasibility and technical, environmental, and economic effects of integrating large levels of distributed solar Photovoltaic (PV) into a rather inflexible (nuclear-heavy generating base) power system. The last study evaluates the potential of off-grid distributed generation (DG) technologies including solar PV and wind systems to provide a cost-effective solution to supply electricity to isolated loads in Saudi Arabia.
Several tools and models have been developed to accomplish these studies including a thermodynamic model developed in MATLAB environment to simulate ISCC plant operations, a PV production model that estimates hourly PV power output, a unit commitment and real-time economic dispatch (UC−ED) model that simulates hourly system operations and a mixed integer linear programing that determines the optimal off-grid energy mix and capacity.
Although two of three main studies presented do not focus specifically on Saudi Arabia, they provide valuable insights for a transition of its electricity sector towards less dependence on fossil fuels and increased use of renewables.
Saudi Arabia, the world’s largest oil producer, relies on fossil fuels as the primary energy source to meet its electricity needs. Its existing electricity generation fleet consists of a large number of old and inefficient gas combustion and steam turbines, several gas and oil-fired combined cycle power plants, and many diesel combustion engines located in non-interconnected areas. The recently launched governmental plan Saudi Arabia Vision 2030 intends to enhance the resiliency of the Saudi economy by diversifying the electricity generation portfolio through the inclusion of renewable and nuclear energy.
Pertinent to the Kingdom of Saudi Arabia (KSA), the first study shows that Integrated Solar Combined Cycle Power Plants (ISCCs) offer an opportunity to reduce fossil-fuel consumption while reducing the levelized cost of solar thermal energy (LCOE) by 35-40%. The third study shows that the in three non-interconnected regions of KSA, off-grid distributed generation including more than 300 MW of solar PV and wind energy is a cost-effective alternative assuming plausible scenarios for fuel prices and electricity demand. In addition, the results reveal that the local excellent solar resources and the high efficiency of the wind turbine technologies that could be installed make the LCOE of solar PV and wind lower than the LCOE of highly efficient oil-fired combined cycle power plants (CCPP) under moderate and high oil price scenarios.
Finally, the second study illustrates a potential barrier to the integration of a high share of distributed intermittent energy sources into a power network that operates large base-load thermal generation units and rather inflexible nuclear power plants.
Item Open Access Understanding and Contextualizing Micro-Hydro Plant Sustainability in Nepal(2019-04-24) Li, Gordon; Bonney, Caitlin; Ferguson, Ian; Gigil, GhoshSince 1996, the Alternative Energy Promotion Center (AEPC) of the Government of Nepal installed over 1,000 micro-hydro plants (MHPs) ranging from 10 to 100 kW to support off-grid electrification of rural Nepal. As of 2019, one-third of Nepal’s existing MHP infrastructure is untenable, with an additional third at risk of faltering in the coming years. The Master’s Project team conducted in-country data collection, site visits, literature reviews, and technical analysis to understand the current situation and propose recommendations to AEPC for future operational success of the existing and new micro-hydro plants.