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This paper provides an assessment of the large-scale implementation of distributed solar photovoltaics in Wisconsin with regard to its interaction with the utility grid, economics of varying levels of high penetration, and displaced emissions. These assessment factors are quantified using simulations with measured hourly solar radiation and weather data from the National Solar Radiation Database as primary inputs. Hourly utility load data for each electric utility in Wisconsin for a complete year were used in combination with the simulated PV output to quantify the impacts of high penetration of distributed PV on the aggregate Wisconsin electric utility load. As the penetration rate of distributed PV systems increases,...
Categories: Publication; Types: Citation; Tags: Electricity, Photovoltaics, Solar
Flat roofs present a large potential of suitable areas for installation of PV (photovoltaic) plants. Flat roof PV installations have the advantage of being able to be optimally positioned with support structures, and the inclination angle can be adjusted. Due to the important technological development existing in the PV sector, there are different PV technologies in the market, whose energy and economic features substantially differ. This paper describes some useful parameters to assess the technology and distribution of modules to be installed in flat roofs and terraces of buildings. The effect on the energy parameters of the modules tilt and disposition is analyzed in a case study, considering different technologies.
The history of hydrocarbon generation, expulsion and migration from the Upper Devonian Bakken and Mississippian Lodgepole source rocks in the Williston Basin has been successfully replicated by a 330-km long TEMISPACK model, running from the centre of Williston Basin to the Wapella oilfield in Saskatchewan. The model shows that oil generation is the cause of overpressures in the Bakken Fm., where shale vertical permeabilities must be as low as 10-2-10 -3 nD when overpressures are around 15 MPa. Hydraulic fracturing threshold was not commonly reached. Yet, our model suggests that expulsion efficiencies are as high as 0.85. Observed very low Bakken shale porosities (0.03) are entirely consistent with this result....
In this paper, a probabilistic methodology for estimating the energy costs in the market for wind generators associated with wind prediction errors is proposed. Generators must buy or sell energy production deviations due to prediction errors when they bid in day-ahead or hour-ahead energy markets. The prediction error is modeled through a probability density function that represents the accuracy of the prediction model. Production hourly energy deviations and their associated trading costs are then calculated. Three study cases based on real wind power installations in Spain are analyzed. The three study cases show that the error prediction costs can reach as much as 10% of the total generator energy incomes.
Categories: Publication; Types: Citation; Tags: Electricity, Photovoltaics, Solar
Solar power plants positioned in space for terrestrial electricity use have been proposed due to the ever-rising world energy consumption and its environmental impacts. This idea is analysed here in the context of sustainability of such power generation. To that end we have performed some new economic, environmental and social effects analysis of electricity generation by solar space power plants of both photovoltaic and solar thermal types power using the best currently available technology. The plants in the analysis were assumed to be in different Earth orbits, or on the Moon built by a robotised factory. One of our results is that both economically and environmentally the best scenario may be to launch a thermal...