Geothermal Gas Compositions In Yellowstone National Park Usa




Hazardous Gases Underground

Author : Barry Doyle

Publisher : CRC Press

Page : 396 pages

File Size : 46,29 MB

Release : 2001-02-21

Category : Technology & Engineering

ISBN : 9780824704834

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Book Description

Applies detailed knowledge toward the design and construction of underground civil works projects. Develops critical skills for managing risk and designing reliable gas control measures within project time and cost constraints.



Applied Geothermics

Author : Lev Eppelbaum

Publisher : Springer Science & Business

Page : 757 pages

File Size : 46,95 MB

Release : 2014-04-29

Category : Science

ISBN : 3642340237

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Book Description

This book describes origin and characteristics of the Earth’s thermal field, thermal flow propagation and some thermal phenomena in the Earth. Description of thermal properties of rocks and methods of thermal field measurements in boreholes, underground, at near-surface conditions enables to understand the principles of temperature field acquisition and geothermal model development. Processing and interpretation of geothermal data are shown on numerous field examples from different regions of the world. The book warps, for instance, such fields as analysis of thermal regime of the Earth’s crust, evolution and thermodynamic conditions of the magma-ocean and early Earth atmosphere, thermal properties of permafrost, thermal waters, geysers and mud volcanoes, methods of Curie discontinuity construction, quantitative interpretation of thermal anomalies, examination of some nonlinear effects, and integration of geothermal data with other geophysical methods. This book is intended for students and researchers in the field of Earth Sciences and Environment studying thermal processes in the Earth and in the subsurface. It will be useful for specialists applying thermal field analysis in petroleum, water and ore geophysics, environmental and ecological studies, archaeological prospection and climate of the past.



Composition of Gases from the Norris-Mammoth Corridor, Yellowstone National Park, USA; Evidence for a Mamgmatic Source Near Mammoth Hot Springs

Author : Yousif K. Kharaka

Publisher :

Page : 5 pages

File Size : 43,41 MB

Release : 1992

Category : Hot springs

ISBN :

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Book Description

Mammoth Hot Springs has one of the highest thermal water and gas discharges of the thermal areas outside the 0.6 Ma Yellowstone caldera. Thermal waters with surface temperatures of up to 73°C and calculated subsurface temperatures of about 100°C issue from nearly 100 hot springs scattered over a score of steplike travertine terraces that range in age from about 0.4 Ma to recent. Hydrologic and tracer tests conducted in 1989-1991 indicate that a very large flow, about 590 L/s, of thermal water from the Mammoth system enters the Gardner River. The heat flux from this system is comparable to that from the Norris Geyser Basin. The isotopic and chemical compositions of thermal waters and solutes from the Norris-Mammoth corridor can be interpreted to indicate a common magmatic source for heat and volatile solutes located near Norris for the entire corridor. However, the chemical and isotopic compositions of gases in general, and the distribution of ^3He/^4He ratios that could indicated proximity to a magmatic source in the corridor are obtained from Mammoth Hot Springs (R/Ra [less than or equal to] 8.4) and Norris Geyser Bason (R/Ra [less than or equal to] 9.0). A Norris to Mammoth flow path for the hydrothermal fluids at Mammoth, however, is likely precluded by the fact that fluids from all the six major thermal areas between them have R/Ra values that are appreciably lower than those from Mammoth Hot Springs.



Dissolved Gases in Hydrothermal (phreatic) and Geyser Eruptions at Yellowstone National Park, USA

Author : Shaul Hurwitz

Publisher :

Page : 4 pages

File Size : 44,66 MB

Release : 2016

Category : Geysers

ISBN :

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Book Description

Multiphase and multicomponent fluid flow in the shallow continental crust plays a significant role in a variety of processes over a broad range of temperatures and pressures. The presence of dissolved gases in aqueous fluids reduces the liquid stability field toward lower temperatures and enhances the explosivity potential with respect to pure water. Therefore, in areas where magma is actively degassing into a hydrothermal system, gas-rich aqueous fluids can exert a major control on geothermal energy production, can be propellants in hazardous hydrothermal (phreatic) eruptions, and can modulate the dynamics of geyser eruptions. We collected pressurized samples of thermal water that preserved dissolved gases in conjunction with precise temperature measurements with depth in research well Y-7 (maximum depth of 70.1 m; casing to 31 m) and five thermal pools (maximum depth of 11.3 m) in the Upper Geyser Basin of Yellowstone National Park, USA. Based on the dissolved gas concentrations, we demonstrate that CO2 mainly derived from magma and N2 from air-saturated meteoric water reduce the near-surface saturation temperature, consistent with some previous observations in geyser conduits. Thermodynamic calculations suggest that the dissolved CO2 and N2 modulate the dynamics of geyser eruptions and are likely triggers of hydrothermal eruptions when recharged into shallow reservoirs at high concentrations. Therefore, monitoring changes in gas emission rate and composition in areas with neutral and alkaline chlorine thermal features could provide important information on the natural resources (geysers) and hazards (eruptions) in these areas.





Geothermal Energy Update

Author :

Publisher :

Page : 668 pages

File Size : 27,14 MB

Release : 1976

Category : Geothermal engineering

ISBN :

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Book Description