ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

Monograph available for loan

Geologic storage of carbon dioxide with monitoring and verification; Vol. 2.

Benson, Sally M.

Amsterdam [u.a.] : Elsevier

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Call number: M 05.0395/2

In: Carbon dioxide capture for storage in deep geologic formations - results from the CO2 capture project

Type of Medium: Monograph available for loan

Pages: xiv, S. 663-1331

ISBN: 0080445721

Location: Upper compact magazine

Branch Library: GFZ Library

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2

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Soil selenium fractionation, depth profiles and time trends in a vegetated site at Kesterson Reservoir (1991)

Tokunaga, Tetsu K. ; Lipton, Douglas S. ; Benson, Sally M. ; [et al.]

Springer

Water, air & soil pollution 57-58 (1991), S. 31-41

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ISSN: 1573-2932

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Kesterson Reservoir, in the San Joaquin Valley of California, was used for disposal of saline, seleniferous agricultural drain waters during the years 1981 - 1986. The combined effects of infrequent drain water application, reduction and oxidation of Se, and evapotranspirative removal of soil water within the upper 1 m of the soil profiles appear to provide explanations for distribution patterns of Se in soils of upland sites. From 1987 to 1990, an approximate doubling in average soil solution Se concentrations was observed. It is shown that currently only relatively insignificant quantities of Se have been transported into the Pond 11 soils from the shallow water table. Sequential extraction of these upland soils indicated that substantial inventories of Se were associated with soluble, adsorbed, carbonate, and soil organic matter fractions, while Se retained within refractory inorganic fractions were minor. The mobilization of Se from these potentially labile pools may account for the observed increases in soil solution concentrations of Se following the draining of Kesterson Reservoir.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00282866

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3

Electronic Resource

Temporal and spatial monitoring of soil selenium at Kesterson Reservoir, California (1994)

Wahl, Carolyn ; Benson, Sally ; Santolo, Gary

Springer

Water, air & soil pollution 74 (1994), S. 345-361

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ISSN: 1573-2932

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract The selenium and salt content of the top 15 cm of the soil profile at Kesterson Reservoir (Merced County, California) have been monitored annually to develop a data set that provides a foundation for: (1) evaluating the status of the selenium inventory and biological hazards at Kesterson Reservoir; (2) understanding selenium fluxes near the soil surface; and (3) making long-term predictions of the selenium concentrations available for plant uptake and dissolution into rainwater ephemeral pools. Results of this monitoring program indicate that the soil selenium inventory at Kesterson may be categorized in terms of three main patterns: (1) spatial trends associated with historic Reservoir operations; (2) temporal trends due to the oxidation and remobilization of the selenium inventory and; (3) temporal trends due to seasonal cycles. It is evident that the selenium inventory and distribution within the soil profile will evolve slowly whereby the fraction of the total inventory that is now immobile (est. at 93%) will oxidize to more mobile and bioavailable forms. Two major issues with broad importance were raised concerning sampling the surface soil selenium environment at Kesterson which may be helpful to others conducting investigations of similar nature. These issues include: (1) the recognition that variations in surface soil contaminant concentrations due to seasonal redistribution may obscure long term trends and; (2) large spatial variability in soil contaminant concentrations make it difficult to obtain large enough data sets to detect statistically significant changes in the contaminant inventory until large changes have already taken place. A combination of both process-oriented and synoptic type sampling are recommended to better define time trends.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00479799

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The impact of geological heterogeneity on CO2 storage in brine formations: a case study from the Texas Gulf Coast (2007)

Hovorka, Susan D. ; Doughty, Christine ; Benson, Sally M. ; [et al.]

In: Geological Society Special Publication 233: 147-163.

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Publication Date: 2007-10-08

Description: Geological complexities such as variable permeability and structure (folds and faults) exist to a greater or lesser extent in all subsurface environments. In order to identify safe and effective sites in which to inject CO2 for sequestration, it is necessary to predict the effect of these heterogeneities on the short- and long-term distribution of CO2. Sequestration capacity, the volume fraction of the subsurface available for CO2 storage, can be increased by geological heterogeneity. Numerical models demonstrate that in a homogeneous rock volume, CO2 flowpaths are dominated by buoyancy, bypassing much of the rock volume. Flow through a more heterogeneous rock volume disperses the flow paths, contacting a larger percentage of the rock volume, and thereby increasing sequestration capacity. Sequestration effectiveness, how much CO2 will be sequestered for how long in how much space, can also be enhanced by heterogeneity. A given volume of CO2 distributed over a larger rock volume may decrease leakage risk by shortening the continuous column of buoyant gas acting on a capillary seal and inhibiting seal failure. However, where structural heterogeneity predominates over stratigraphic heterogeneity, large columns of CO2 may accumulate below a sealing layer, increasing the risk of seal failure and leakage.

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The role of hydrogeological and geochemical trapping in sedimentary basins for secure geological storage of carbon dioxide (2007)

Gunter, William D. ; Bachu, Stefan ; Benson, Sally

In: Geological Society Special Publication 233: 129-145.

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Publication Date: 2007-10-08

Description: Sedimentary basins throughout the world are thick piles of lithified sediments that, in many cases, are the hosts for fossil fuel resources. They may become even more important in the future if they are used for the storage of anthropogenic carbon dioxide. The efficiency of CO2 geological storage is determined by the structure of the sedimentary basins, which have an intricate plumbing system defined by the location of high and low permeability strata that control the flow of fluids throughout the basin and define hydrogeological' traps. The most secure type of hydrogeological trapping is found in stratigraphic' and structural' traps in oil and gas reservoirs that have held oil and gas for millions of years. Another form of hydrogeological trapping is hydrodynamic' trapping which has been recognized in saline aquifers of sedimentary basins that have extremely slow flow rates. A volume of carbon dioxide injected into a deep hydrodynamic trap may take millions of years to travel by buoyancy forces updip to reach the surface before it leaks back into the atmosphere. Moreover, as the carbon dioxide migrates towards the surface, it dissolves in the surrounding brine ( solubility' trapping) and may react geochemically with rock minerals to become permanently trapped in the sedimentary basin by ionic' or mineral' trapping. The efficiency of the CO2 geological storage in sedimentary basins depends on many factors, among the most important being CO2 buoyancy, formation water density, lithological heterogeneity and mineralogy. A risk analysis must be completed for each site chosen for the geological storage of CO2 to evaluate the trapping security.

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Selenium in Kesterson Reservoir Ephemeral Pools Formed by Groundwater Rise: I. A Field Study (1992)

Tokunaga, Tetsu K. ; Benson, Sally M.

Wiley

In: Journal of Environmental Quality. 1992; 21(2): 246-251. Published 1992 Apr 01. doi: 10.2134/jeq1992.00472425002100020015x.

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Publication Date: 1992-04-01

Print ISSN: 0047-2425

Electronic ISSN: 1537-2537

Topics: Energy, Environment Protection, Nuclear Power Engineering , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Published by Wiley

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Bare Soil Evaporation and Solute Movement in Selenium‐Contaminated Soils of Kesterson Reservoir (1992)

Zawislanski, Peter T. ; Tokunaga, Tetsu K. ; Benson, Sally M. ; [et al.]

Wiley

In: Journal of Environmental Quality. 1992; 21(3): 447-457. Published 1992 Jul 01. doi: 10.2134/jeq1992.00472425002100030024x.

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Publication Date: 1992-07-01

Print ISSN: 0047-2425

Electronic ISSN: 1537-2537

Topics: Energy, Environment Protection, Nuclear Power Engineering , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Published by Wiley

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Selenium Immobilization in a Pond Sediment at Kesterson Reservoir (1990)

Long, Robert H. B. ; Benson, Sally M. ; Tokunaga, Tetsu K. ; [et al.]

Wiley

In: Journal of Environmental Quality. 1990; 19(2): 302. Published 1990 Jan 01. doi: 10.2134/jeq1990.00472425001900020017x.

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Publication Date: 1990-01-01

Print ISSN: 0047-2425

Electronic ISSN: 1537-2537

Topics: Energy, Environment Protection, Nuclear Power Engineering , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Published by Wiley

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Geospatial analysis of near-term potential for carbon-negative bioenergy in the United States (2018)

Baik, Ejeong ; Sanchez, Daniel L. ; Turner, Peter A. ; [et al.]

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences of the United States of America. 2018; 115(13): 3290-3295. Published 2018 Mar 12. doi: 10.1073/pnas.1720338115.

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Publication Date: 2018-03-12

Description: Bioenergy with carbon capture and storage (BECCS) is a negative-emissions technology that may play a crucial role in climate change mitigation. BECCS relies on the capture and sequestration of carbon dioxide (CO2) following bioenergy production to remove and reliably sequester atmospheric CO2. Previous BECCS deployment assessments have largely overlooked the potential lack of spatial colocation of suitable storage basins and biomass availability, in the absence of long-distance biomass and CO2 transport. These conditions could constrain the near-term technical deployment potential of BECCS due to social and economic barriers that exist for biomass and CO2 transport. This study leverages biomass production data and site-specific injection and storage capacity estimates at high spatial resolution to assess the near-term deployment opportunities for BECCS in the United States. If the total biomass resource available in the United States was mobilized for BECCS, an estimated 370 Mt CO2⋅y−1 of negative emissions could be supplied in 2020. However, the absence of long-distance biomass and CO2 transport, as well as limitations imposed by unsuitable regional storage and injection capacities, collectively decrease the technical potential of negative emissions to 100 Mt CO2⋅y−1. Meeting this technical potential may require large-scale deployment of BECCS technology in more than 1,000 counties, as well as widespread deployment of dedicated energy crops. Specifically, the Illinois basin, Gulf region, and western North Dakota have the greatest potential for near-term BECCS deployment. High-resolution spatial assessment as conducted in this study can inform near-term opportunities that minimize social and economic barriers to BECCS deployment.

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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Tracking emissions in the US electricity system (2019)

de Chalendar, Jacques A. ; Taggart, John ; Benson, Sally M.

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences of the United States of America. 2019; 116(51): 25497-25502. Published 2019 Dec 02. doi: 10.1073/pnas.1912950116.

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Publication Date: 2019-12-02

Description: Understanding electricity consumption and production patterns is a necessary first step toward reducing the health and climate impacts of associated emissions. In this work, the economic input–output model is adapted to track emissions flows through electric grids and quantify the pollution embodied in electricity production, exchanges, and, ultimately, consumption for the 66 continental US Balancing Authorities (BAs). The hourly and BA-level dataset we generate and release leverages multiple publicly available datasets for the year 2016. Our analysis demonstrates the importance of considering location and temporal effects as well as electricity exchanges in estimating emissions footprints. While increasing electricity exchanges makes the integration of renewable electricity easier, importing electricity may also run counter to climate-change goals, and citizens in regions exporting electricity from high-emission-generating sources bear a disproportionate air-pollution burden. For example, 40% of the carbon emissions related to electricity consumption in California’s main BA were produced in a different region. From 30 to 50% of the sulfur dioxide and nitrogen oxides released in some of the coal-heavy Rocky Mountain regions were related to electricity produced that was then exported. Whether for policymakers designing energy efficiency and renewable programs, regulators enforcing emissions standards, or large electricity consumers greening their supply, greater resolution is needed for electric-sector emissions indices to evaluate progress against current and future goals.

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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