Analysis of Natural and Power Plant CO2 Emissions in the Mount Amiata (Italy) Volcanic–Geothermal Area Reveals Sustainable Electricity Production at Zero Emissions

Sbrana, Alessandro; Lenzi, Alessandro; Paci, Marco; Gambini, Roberto; Sbrana, Michele; Ciani, Valentina; Marianelli, Paola

doi:10.3390/en14154692

Cited by 9 publications

(4 citation statements)

References 35 publications

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“…The energy transition towards carbon waste-free urban districts relies on local renewable energy assets. As part of the ecological transition, some things will have to change, and this document investigates the possible circular uses of geothermal carbon dioxide, which represents a waste in electricity production, but also a fraction that would still have been released naturally from underground [20]. The scenario investigated in this study lies in some fundamental pillars:…”

Section: Discussionmentioning

confidence: 99%

Possible Circular Use of CO2 Waste Streams from Geothermal Power Plants

Manfredi,

Manfrida,

Veltroni

et al. 2023

36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 20

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Geothermal fluid is usually characterized by the presence of water and minor percentages of non-condensable gases (NCG), including CO2. Relevant CO2 streams are currently released from the cooling towers of geothermal power plants operating in Tuscany. These emissions are largely of natural origin. The output streams of NCG are treated for removal of contaminants (Hg and H2S) and consist in nearly-pure CO2: that is the reason why it is worth to investigate about its potential circular use. Specifically, the possibility of transport and use as a long-distance heating or cooling fluid stream for local communities is investigated; integration with hydrogen production is also considered, with production of methanol to be used as synfuel or energy storage. Hydrogen can be harvested from several sources: a) from the captured H2S stream b) from industrial facilities already existing along the transport path c) from integrating an electrolyser in the power plant premises thereby providing load flexibility (currently not present in geothermal power plants). The study is tailored on the local geographical, productive structure and population situation. The remaining part of the CO2 stream is delivered to the sea where it can be finally destinated to transportation (pipeline or ship) and sequestration. The results are encouraging in inspiring a potentially new sustainable economy structure.

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Section: Discussionmentioning

confidence: 99%

Possible Circular Use of CO2 Waste Streams from Geothermal Power Plants

Manfredi,

Manfrida,

Veltroni

et al. 2023

36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 20

View full text Add to dashboard Cite

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“…Modern technologies of drilling and solutions for the treatment of emissions occurring during the operation of the plant (Baldacci et al, 2005) have reduced significantly the environmental impact and extensive epidemiology studies (Bustaffa et al, 2020) have demonstrated that the effects on public health are marginal. The near-future technologies will allow cancelling also the global effect of greenhouse gas emissions, which are in any case of natural origin and for many sites correspond to the level of global diffusive flux from the surface (Sbrana et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Exergo-Economic and Exergo-Environmental Assessment of Two Large Chp Geothermal Power Plants

Manfrida

Talluri

Ungar

et al. 2023

Preprint

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“…Geothermal energy is considered a key base-load resource for transitioning to a zeroemissions sustainable energy future (Sbrana et al, 2021). Geothermal energy currently accounts for 0.4% of net electricity generation in the United States (EIA, 2021).…”

Section: Introductionmentioning

confidence: 99%

Using Dark Fiber and Distributed Acoustic Sensing to Characterize a Geothermal System in the Imperial Valley, Southern California

Cheng

Ajo‐Franklin

Nayak

et al. 2022

Preprint

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The Imperial Valley, CA, is a tectonically active transtensional basin located south of the Salton Sea; the area hosts numerous geothermal fields, including significant hidden hydrothermal resources without surface manifestations. Development of inexpensive, rugged, and highly-sensitive exploration techniques for undiscovered geothermal systems is critical for accelerating geothermal power deployment as well as unlocking a low-carbon energy future. We present a case study utilizing distributed acoustic sensing (DAS) and ambient noise interferometry for geothermal reservoir imaging utilizing an unlit fiberoptic telecommunication infrastructure (dark fiber). The study utilizes passive DAS data acquired from early November 2020 over a ˜28-kilometer section of fiber from Calipatria, CA to Imperial, CA. We apply ambient noise interferometry to retrieve coherent signals from DAS records, and develop a spatial stacking technique to attenuate effects from persistent localized noise sources and to enhance retrieval of coherent surface waves. As a result, we are able to obtain high-resolution two-dimensional (2D) S wave velocity (Vs) structure to 3 km depth based on joint inversion of both the fundamental and higher overtones. We observe a previously unmapped high Vs and low Vp/Vs ratio feature beneath the Brawley geothermal system that we interpret to be a zone of hydrothermal mineralization and lower porosity. This interpretation is consistent with a host of other measurements including surface heat flow, gravity anomalies, and available borehole wireline data. These results demonstrate the potential utility of DAS deployed on dark fiber for geothermal system exploration and characterization in the appropriate contexts.

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Analysis of Natural and Power Plant CO2 Emissions in the Mount Amiata (Italy) Volcanic–Geothermal Area Reveals Sustainable Electricity Production at Zero Emissions

Cited by 9 publications

References 35 publications

Possible Circular Use of CO2 Waste Streams from Geothermal Power Plants

Possible Circular Use of CO2 Waste Streams from Geothermal Power Plants

Exergo-Economic and Exergo-Environmental Assessment of Two Large Chp Geothermal Power Plants

Using Dark Fiber and Distributed Acoustic Sensing to Characterize a Geothermal System in the Imperial Valley, Southern California

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