Conferences related to Distributed power generation

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2021 IEEE Photovoltaic Specialists Conference (PVSC)

Photovoltaic materials, devices, systems and related science and technology


2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe)

Energy conversion and conditioning technologies, power electronics, adjustable speed drives and their applications, power electronics for smarter grid, energy efficiency,technologies for sustainable energy systems, converters and power supplies


2020 IEEE 29th International Symposium on Industrial Electronics (ISIE)

ISIE focuses on advancements in knowledge, new methods, and technologies relevant to industrial electronics, along with their applications and future developments.


2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC)

The 2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC 2020) will be held in Metro Toronto Convention Centre (MTCC), Toronto, Ontario, Canada. SMC 2020 is the flagship conference of the IEEE Systems, Man, and Cybernetics Society. It provides an international forum for researchers and practitioners to report most recent innovations and developments, summarize state-of-the-art, and exchange ideas and advances in all aspects of systems science and engineering, human machine systems, and cybernetics. Advances in these fields have increasing importance in the creation of intelligent environments involving technologies interacting with humans to provide an enriching experience and thereby improve quality of life. Papers related to the conference theme are solicited, including theories, methodologies, and emerging applications. Contributions to theory and practice, including but not limited to the following technical areas, are invited.


2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


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Periodicals related to Distributed power generation

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Advanced Packaging, IEEE Transactions on

The IEEE Transactions on Advanced Packaging has its focus on the modeling, design, and analysis of advanced electronic, photonic, sensors, and MEMS packaging.


Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Applied Superconductivity, IEEE Transactions on

Contains articles on the applications and other relevant technology. Electronic applications include analog and digital circuits employing thin films and active devices such as Josephson junctions. Power applications include magnet design as well asmotors, generators, and power transmission


Automatic Control, IEEE Transactions on

The theory, design and application of Control Systems. It shall encompass components, and the integration of these components, as are necessary for the construction of such systems. The word `systems' as used herein shall be interpreted to include physical, biological, organizational and other entities and combinations thereof, which can be represented through a mathematical symbolism. The Field of Interest: shall ...


Biomedical Circuits and Systems, IEEE Transactions on

The Transactions on Biomedical Circuits and Systems addresses areas at the crossroads of Circuits and Systems and Life Sciences. The main emphasis is on microelectronic issues in a wide range of applications found in life sciences, physical sciences and engineering. The primary goal of the journal is to bridge the unique scientific and technical activities of the Circuits and Systems ...


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Most published Xplore authors for Distributed power generation

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Xplore Articles related to Distributed power generation

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Transmission Worth of Photovoltaic Generation

IEEE Power Engineering Review, 1992

None


Distribution Planning and Operations with Intermittent Power Production

IEEE Power Engineering Review, 1982

The introduction of small-scale dispersed intermittent power production, such as photovoltaic and wind electric generation into distribution systems, will affect distribution system planning and operations. This paper examines the technical and economic impacts on the delivery system due to the presence of these new production sources, particularly those problems arising from their intermittent nature. A methodology for distribution planners and ...


An Infrared - Visible - Ultraviolet Tunable Optical Parametric Generation System

Digest on Nonlinear Optics: Materials, Phenomena and Devices, 1990

None


Efficient utilization of solar energy for domestic applications

2008 Second International Conference on Electrical Engineering, 2008

Shortage of energy is dangerously affecting the economic growth of the developing countries. Oil, gas and coal reserves are being depleted rapidly and are affecting the environment. Embargo and safety requirements limit the development of nuclear energy. Renewable energy resources need to be embedded with the conventional generation. A lot has been said and done on solar energy. However emphasis ...


Electric utility deregulation: failure or success

IEEE Symposium Conference Record Nuclear Science 2004., 2004

The electric utilities approach for restructuring the power market determines the failure or success of electric utility deregulation. It will cost billions of dollars, if restructuring is not done properly. Federal Energy Regulatory Commission (FERC) Order 2000 endorses competitive power markets, and price signals for the purpose of managing electricity grid congestion and achieving reliability. In a deregulated competitive electricity ...


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Educational Resources on Distributed power generation

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IEEE-USA E-Books

  • Transmission Worth of Photovoltaic Generation

    None

  • Distribution Planning and Operations with Intermittent Power Production

    The introduction of small-scale dispersed intermittent power production, such as photovoltaic and wind electric generation into distribution systems, will affect distribution system planning and operations. This paper examines the technical and economic impacts on the delivery system due to the presence of these new production sources, particularly those problems arising from their intermittent nature. A methodology for distribution planners and operators is presented as a unified framework that assesses the technical and economic impacts on planning and operations. Case studies using distribution system data and renewable resource data from specific utilities are analyzed to gain insights into the technical and economic impacts. The paper concludes with some general observations on how future distribution planning and operating processes may be changed as the distribution system is integrated with increased intermittent power sources.

  • An Infrared - Visible - Ultraviolet Tunable Optical Parametric Generation System

    None

  • Efficient utilization of solar energy for domestic applications

    Shortage of energy is dangerously affecting the economic growth of the developing countries. Oil, gas and coal reserves are being depleted rapidly and are affecting the environment. Embargo and safety requirements limit the development of nuclear energy. Renewable energy resources need to be embedded with the conventional generation. A lot has been said and done on solar energy. However emphasis has been on the conversion to electricity using photovoltaic cells. In the present work, it is proposed that efficient use of solar energy would be to utilize it for direct heating and cooling. Solar chillers based on solar heating coupled with gas firing are proposed for urban houses. Solar pumps for irrigation in the rural areas should be used. This would reduce the demand of electricity hungry air conditioners and diesel hungry tube wells.

  • Electric utility deregulation: failure or success

    The electric utilities approach for restructuring the power market determines the failure or success of electric utility deregulation. It will cost billions of dollars, if restructuring is not done properly. Federal Energy Regulatory Commission (FERC) Order 2000 endorses competitive power markets, and price signals for the purpose of managing electricity grid congestion and achieving reliability. In a deregulated competitive electricity market, companies have to pay for the reactive power losses out of the revenues they earn. If the investors are reimbursed for reliability, there might be more investments. California deregulated in 1998 but the deregulated market was not structured efficiently and allowed some companies to manipulate the market by sending the power out of California and then reselling it back into the state. The utilities were not allowed long-term contracts and were required to sell many of their existing plants. California's experience is unique; in fact, when done well, the success stories in Pennsylvania, Ohio, Texas, England, and Japan show the benefit to both consumers and sellers from electric utility deregulation. Deregulation has been successful in New York, Virginia, and Ontario by protecting the customers from price volatility by price caps. By definition, price caps are not effective in a deregulated market, however, a price cap (i.e., a little regulation) to protect consumers in the transition period to deregulation is good. The price caps can be removed at a later date when the deregulated industry has matured like the power market in New Jersey. Circumstances like the August 14th, 2003 blackout in the northeast of the United States (not caused by deregulation) brought industry uncertainty to investors and consumers. Under deregulation, dispersed power generation (such as co-generation, biomass, microturbines, solar photovoltaic cells, wind turbines, fuel cells, geothermal, and diesel generators) is being promoted vigorously and more prominence is being put in the ancillary services and FACTS devices because of shortage of transmission lines in a deregulated power market. One of the results of economic deregulation of the electric power industry has been the development of a market for advanced nuclear power plants that will be cheaper to build and cheaper to run. In conclusion, by implementing a limited price control, the electric utility deregulation can be successful.

  • Analysis and autonomous distributed control of super distributed energy systems

    This paper focuses on a super distributed energy system that consists of a number of dispersed generation systems such as fuel cells, micro gas-turbines, and so on. The behavior of a customer with a dispersed generation system is modeled on the Ising spin model in statistical mechanics. The validity of the modeling of the behavior of a customer is verified based on the Monte Carlo simulation. The feasibility of autonomous distributed control using vicinity information is also investigated on the basis of stability analysis of the Hopfield neural network model.

  • Opportunities and challenges to power electronics industry in alternative and renewable energy

    Renewable energy and alternative energy have been gaining momentum in the past decade. Even under current distressed economic situation, they are considered to be instrumental to the future economy in many countries. Public is also embracing various clean energy and high efficiency technologies with unprecedented enthusiasm. Billions of dollars are invested on renewable energy, high efficiency technologies, EVs and HEVs. Industries are developing cost effective solutions to address ever-increasing demand in various applications.

  • Distributed and dispersed generation: addressing the spectrum of consumer needs

    Distributed generation (DG) entails using many small generators, of 2-50 MW output, situated at numerous strategic points throughout cities and towns, so that each provides power to a small number of consumers nearby. While these small generators might be solar or wind turbine units, generating units in this category are most often highly efficient gas turbines in small combined cycle plants, because these are the most economical choices. Although small compared to traditional central station generators, such 2-500 MW generating units are large, both physically and electrically compared to the needs of individual energy consumers, producing power for between 50 and 400 homes. Dispersed generation refers to use of still smaller generating units, of less than 500 kW output and often sized to serve individual homes or businesses. These units are small enough to fit into garages or, like central air- conditioners, on a pad behind a house. Micro gas turbines, fuel cells, diesel, and small wind and solar PV generators make up this category.

  • Based on energy efficiency of power dispatch by competition bidding in the power grid of China

    The paper will discuss the new dispatch methodology of power grid. The power grid's new goal is saving and emmission controlling. According to the new conception, the tranditiongal dispacth method will be changed. It is important that study on conpetition dispatch of power grid about energy efficiency in the generator companies.

  • Distributed photovoltaic demand-side generation: an economic evaluation for electric utilities

    From an electric utility's viewpoint, distributed photovoltaic demand-side generation (PV-DSG) systems can be evaluated in a similar manner to other demand-side management (DSM) technologies. This study evaluates the economic benefits of PV-DSG systems, using hourly utility cost and performance data, as a function of the utility's load duration curve (LDC). The analysis focuses on one utility, New England Electric System (NEES), USA. Actual utility hourly system load data for 1991 and corresponding PV output data from a 2.2 kW (DC) grid-connected residential PV system, installed as part of the NEES Gardner project, are used for this study. At NEES's weighted average cost of capital of 8.78% the energy and capacity benefit values calculated equate to an allowable installed PV system cost of $2.41/watt. A social discount rate of 3% allows for an even higher installed cost-per-watt figure of $4.72. The higher the, allowable installed cost, the easier it will be for the PV industry to enter the utility market. These results are represented graphically as a target to emphasize the importance of the utility target market to the PV industry.




Jobs related to Distributed power generation

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