Showing total 30 results

1. A Study of Outsourcing and Self-Run Business Decision- Making in the Distribution Transportation of International Logistics.

Author

Yuzhong, Mao and Guangming, Yang

Subjects

TRANSPORTATION, DECISION making, DISTRIBUTION (Probability theory), COST control, ECONOMIC models, EXPORT marketing

Abstract

Abstract: In the distribution of international logistics, the choice of the ways of transportation is one of the key factors to reduce the costs of distribution. In view of the countermeasures for the outsourcing and self-run business of the distribution transportation, the author of present paper aims at establishing analytical models, providing solutions which are confirmed by a case study from the investigation conducted in the United States of America, solving the high-cost question that plagues the network of international distribution over a long time, and providing a kind of decisionmaking tools for Chinese products to squeeze into the international market and establish the distribution networks. [Copyright &y& Elsevier]

Published

2012

2. An approach to decreasing the peak electrical demand in residences.

Author

Boehm, Robert F.

Subjects

ELECTRIC power consumption, HOUSING development, ENERGY conservation in buildings, PHOTOVOLTAIC power systems, ENERGY storage equipment

Abstract

Abstract: A project to reduce the peak electrical demand by 65% for a new residential housing development in the Desert Southwest portion of the US is described. The period of the peak demand is considered to be 1:00 pm to 7:00 pm local daylight savings time. Four general approaches are being used to accomplish this. One is the use of a very energy conserving design for the buildings. Second, all of the residences have a photovoltaic array on them. Third, some new approaches to demand side management are being developed whereby the utility and the customer interact. Finally, a Battery Energy Storage System (BESS) is being evaluated. Results found to date are summarized in this paper. Predictions for success are given and work remaining is outlined. [Copyright &y& Elsevier]

Published

2012

3. Research on Clean Development Mechanism Market in China.

Author

Jun, Zhang and Jiaoxu, Niu

Subjects

ECOLOGICAL engineering, SUSTAINABLE development, UNITED Nations Framework Convention on Climate Change (1992). Protocols, etc., 1997 December 11, GAME theory

Abstract

Abstract: Since Kyoto Protocol is going to be expired in 2012, all the develop ed and developing countries are very concerned about the future of clean development mechanism. By using the game theory the paper analyzes the market of clean development mechanism, especially the projects of CDM between the U.S., EU, Japan and China. Based on this, the prospects of Chinese CDM market are provided. [Copyright &y& Elsevier]

Published

2011

4. Study on How U.S. Imposing Carbon Tariffs will Influence China's Export Trade and Its Countermeasure Strategy.

Author

Ruihua, Sun and Yuanyuan, Jiao

Subjects

CARBON taxes, TARIFF, EXPORTS, EMISSION control, FOREIGN investments, CHINA-United States relations

Abstract

Abstract: The United States, China''s biggest export market, is planning to impose a carbon tariff against countries without strict GHG emissions reduction standards, which will necessarily have immense influence on China''s export trade. In this dissertation, its background and imposing methods are initially discussed. Impact on China''s export trade volume, commodity prices, various industrial sectors, foreign investment manner, corporate operation modes and so forth are then analyzed explicitly. Lastly, the paper presents several policy suggestions in allusion to these impacts. [Copyright &y& Elsevier]

Published

2011

5. The Research on Sino-US Green Building Rating System.

Author

Jingwei, Chen, Ping, Zhao, and Xue, Wang

Subjects

SUSTAINABLE buildings, LOW energy electron diffraction, EVALUATION, POWER resources, ENERGY development, TREND analysis

Abstract

Abstract: This paper describes the more commonly used domestic and international green building rating systems and details of the evaluation of U.S. LEED, its old and new versions, the trend of improvement in LEED; Compared Chinese “Evaluation Standard for Green Building” (GB/T 50378-2006)with the LEED2009, the paper points out their shortcomings, and identify the existing differences between them. Then comes out the conclusion that LEED2009 is still target to the U.S. buildings, Chinese engineers should learn from its advantage, make use in our evaluation of green building, which is suitable for China''s actual conditions. But we make full use of Chinese buildings of the LEED rating system is not appropriate. Finally, we make a suggestion for “Evaluation Standard for Green Building” that we should add incentives for new energy sources can effectively develop our new energy, give a positive role in environment protection. [Copyright &y& Elsevier]

Published

2011

6. CO2 capture system–Confirmation of oxy-combustion promises through pilot operation.

Author

Kluger, Frank, Prodhomme, Bénédicte, Mönckert, Patrick, Levasseur, Armand, and Leandri, Jean-Francois

Subjects

CARBON sequestration, CARBON dioxide mitigation, PILOT plants, COMBUSTION, PULVERIZED coal

Abstract

Abstract: Alstom is developing a portfolio of solutions to address CO2 emission reductions. Among them is CO2 Capture and Storage (CCS) for which Alstom is developing several CO2 capture systems based on post-combustion and oxycombustion processes. This paper will be oriented to utility and industrial companies that would like to be prepared to CCS challenges and understand the key features of the CO2 capture technologies, in this article focus will be on oxy-combustion. This paper is also oriented to “oxy-experts” community for an update coming from pilots operation. It will describe key features of the different pilot projects with Alstom’s involvement and will describe the work performed in there. The development of CO2 capture technologies are being pursued by European and US suppliers in collaboration with utility companies, academia, the US DOE, the European Union, and universities. The first part of this article will address the work of Alstom and corresponding results in three major oxy pilots: • Vattenfall Schwarze Pumpe Oxy-combustion pilot plant (30 MWth, coal)) and corresponding results (pilot is in operation since September 2008, a full PC oxy-combustion chain has been under evaluation there). • An oxy tangentially fired boiler development project (coal) with co-funding from the US DOE and other organizations, which includes pilot testing at the 15 MWth scale, conducted in Windsor CT (US). This pilot has started operation in September 2009. • The TOTAL Lacq Oxy-combustion pilot plant (30 MWth, natural gas) where Alstom did the retrofit of a conventional boiler for its conversion into oxy-combustion. Considerable knowledge has been gained with these pilots through different considerations, both on boiler components but also on the integrated oxy chain. All these positive outcomes confirm the expectations of the community in oxy-development and open the door to the next development step of ∼250 MWel large scale oxy-fired carbon capture and storage (CCS) demonstration plants. This paper provides an update about the CO2 capture pilot plant operation and also present the technical challenges expected to be demonstrated during large scale demonstration plants. [Copyright &y& Elsevier]

Published

2011

7. Comparing large scale CCS deployment potential in the USA and China: A detailed analysis based on country-specific CO2 transport & storage cost curves.

Author

Dahowski, R.T., Davidson, C.L., and Dooley, J.J.

Subjects

CARBON sequestration, GREENHOUSE gas mitigation, FOSSIL fuels, SALINE solutions

Abstract

Abstract: The United States and China are the two largest emitters of greenhouse gases in the world and their projected continued growth and reliance on fossil fuels–especially coal–make them strong candidates for the large-scale deployment of carbon dioxide capture and storage (CCS) systems in a greenhouse gas constrained world. Previous work has revealed that both nations have over 1600 large electric utility and other industrial point CO2 sources as well as very large CO2 storage resources on the order of 2000 billion metric tons (Gt) of onshore storage capacity. In each case, the vast majority of this capacity is found in deep saline formations. In both the USA and China, candidate storage reservoirs are likely to be widely accessible with over 80% of these large industrial CO2 sources having a CO2 storage option within just 80 km. This suggests a strong potential for CCS to help bring about meaningful, sustained CO2 emissions reductions for these large, vibrant economies. However, while the USA and China possess many similarities with regards to the potential value that CCS might provide, including the range of costs at which CCS may be available to most large CO2 sources in each nation, there are a number of more subtle differences that may help us to understand the ways in which CCS deployment may differ as the the two nations work together–and in step with the rest of the world–to most efficiently reduce greenhouse gas emissions. This paper details the first ever analysis of CCS deployment costs in these two countries based on methodologically comparable CO2 source and sink inventories, economic analysis, geospatial source-sink matching and cost curve modeling. This type of analysis provides valuable insight into the degree to which early and sustained opportunities for climate change mitigation via commercial-scale CCS are available to the two countries, and could facilitate greater collaboration in areas where those opportunities overlap. [Copyright &y& Elsevier]

Published

2011

8. Combined sustainable biomass feedstock combustion, CO2/EOR, and Saline Reservoir Geological Carbon Sequestration in Northern Lower Michigan, USA: Towards negative CO2 emissions.

Author

Barnes, David, Froese, Robert E., Mannes, R.G., and Warner, Brian

Subjects

GEOLOGICAL carbon sequestration, BIOMASS chemicals, ENHANCED oil recovery, CARBON dioxide mitigation, RENEWABLE energy sources, SUSTAINABILITY

Abstract

Abstract: This paper presents the results of a combined biomass combustion and geological carbon sequestration feasibility study in Northern Lower Michigan, USA related to a proposed solid fuel-fired 600 MW electric power plant, the Wolverine Clean Energy Venture (WCEV), near Rogers City, MI, USA. The biomass feedstock resource assessment, focused on low intensity, high diversity forest and agriculture in the proposed plant bioshed (<120 Km), has the potential to provide sustainable, dry biomass fuel well in excess of the maximum annual co-firing potential of 20% and offset as much as 1 Tgy−1 of the estimated annual 5.1 Tgy−1 of CO2 emissions (using 100% western coal). CO2/EOR potential in the Northern Niagaran Pinnacle Reef Trend is substantial. To date, seven reef reservoirs have been converted to CO2/EOR floods and three of these fields are sufficiently mature to project recovery efficiency in excess of 40% of primary oil recovery. Using these observations and historic oil production data CO2/EOR potential, in a region adjacent to a proposed CO2 pipeline originating from the plant site, is estimated to be at least 7.2 Mm3 (45 MMB) of incremental oil. Analysis of produced fluids in the same region indicates 55 Mmt of geological carbon sequestration (GCS) potential in abandoned oil and gas fields. GCS capacity is estimated at 271 Mmt in two, Paleozoic, saline reservoir targets providing a combined GCS (with abandoned oil and gas field GCS) of 326 Mmt in the pipeline study area. Estimated, combined, GCS in the proposed pipeline fairway alone is in excess of CO2 emissions for a hypothetical 50 year design life of the WCEV project burning 100% coal of 255 Mmt. Realization of biomass co-firing potential at 20% would result in a 50 MMt offset of CO2 emissions during this 50 year period. Carbon capture and sequestration, including beneficial use in CO2/EOR, GCS in abandoned oil and gas fields, and saline reservoir GCS Sequestration at 90% of CO2 emissions from the proposed plant for a 50 year design life could result in the sequestration of 229.5 Mmt of CO2. These considerations support the potential for a net negative emissions profile of −24.5 Mmt for a hypothetical 50 year design life of the proposed WCEV project. [Copyright &y& Elsevier]

Published

2011

9. Applying monitoring, verification, and accounting techniques to a real-world, enhanced oil recovery operational CO2 leak.

Author

Wimmer, Bracken T., Krapac, Ivan G., Locke, Randy, and Iranmanesh, Abbas

Subjects

ENHANCED oil recovery, CARBON dioxide, OIL fields, CARBON sequestration

Abstract

Abstract: The use of carbon dioxide (CO2) for enhanced oil recovery (EOR) is being tested for oil fields in the Illinois Basin, USA. While this technology has shown promise for improving oil production, it has raised some issues about the safety of CO2 injection and storage. The Midwest Geological Sequestration Consortium (MGSC) organized a Monitoring, Verification, and Accounting (MVA) team to develop and deploy monitoring programs at three EOR sites in Illinois, Indiana, and Kentucky, USA. MVA goals include establishing baseline conditions to evaluate potential impacts from CO2 injection, demonstrating that project activities are protective of human health and the environment, and providing an accurate accounting of stored CO2. This paper focuses on the use of MVA techniques in monitoring a small CO2 leak from a supply line at an EOR facility under real-world conditions. The ability of shallow monitoring techniques to detect and quantify a CO2 leak under real-world conditions has been largely unproven. In July of 2009, a leak in the pipe supplying pressurized CO2 to an injection well was observed at an MGSC EOR site located in west-central Kentucky. Carbon dioxide was escaping from the supply pipe located approximately 1 m underground. The leak was discovered visually by site personnel and injection was halted immediately. At its largest extent, the hole created by the leak was approximately 1.9 m long by 1.7 m wide and 0.7 m deep in the land surface. This circumstance provided an excellent opportunity to evaluate the performance of several monitoring techniques including soil CO2 flux measurements, portable infrared gas analysis, thermal infrared imagery, and aerial hyperspectral imagery. Valuable experience was gained during this effort. Lessons learned included determining (1) hyperspectral imagery was not effective in detecting this relatively small, short-term CO2 leak, (2) even though injection was halted, the leak remained dynamic and presented a safety risk concern during monitoring activities and, (3) the atmospheric and soil monitoring techniques used were relatively cost-effective, easily and rapidly deployable, and required minimal manpower to set up and maintain for short-term assessments. However, characterization of CO2 distribution near the land surface resulting from a dynamic leak with widely variable concentrations and fluxes was challenging. [Copyright &y& Elsevier]

Published

2011

10. Numerical modeling of CO2 injection into a typical US Gulf Coast anticline structure.

Author

Choi, Jong-Won, Nicot, Jean-Philippe, Meckel, Timothy A., and Hovorka, Susan D.

Subjects

CARBON sequestration, ENHANCED oil recovery, RESERVOIRS, OIL fields, NUMERICAL analysis

Abstract

Abstract: This paper summarizes recent numerical modeling activities investigating geological CO2 sequestration project at the Cranfield field, Mississippi, USA, performed with the commercial compositional flow simulator CMG-GEM. The oilfield was produced from the 1940’s to the 1960’s but has been the recent recipient of an enhanced oil recovery (EOR) CO2 flood. The subset of actual site operations of interest to the BEG consists of (1) an early phase, object of this paper, in which CO2 is injected into the oil-bearing reservoir (the so-called Phase II) and (2) a second phase (started on December 1, 2009) in which CO2 is injected at a high rate (>100 kt/yr for several years) in the saline aquifer down dip of the reservoir (Phase III). We present the modeling efforts related to the early phase of injection (Phase II, started in July 2008) in which CO2 is injected into the oil-bearing reservoir. The objectives of the modeling effort are to (i) to gain insights on how to approach CO2 injection modeling at the site, (ii) to match recent pressure measurements at several wells including a dedicated observation well, and (iii) to vindicate the necessity of monitoring of reservoir pressure. Its intent is not necessarily to do a full-fledged history match of the historical production period (1940’s–1960’s). We conducted numerous repeat simulation runs to modify boundary conditions, fluid properties, and reservoir properties to match observed fluid responses to production and to injection. A good understanding of subsurface heterogeneities, and composition of the oil and gas components, and boundary conditions of the reservoir is the key to successful history matching. However, allocating the correct distribution of rock properties based on historical geophysical logs remained an area of uncertainty even as additional new data were obtained during characterization because of the complex interplay between depositional environment and strong overprint of diagenetic events. Parameters of utmost importance for a correct description of a flow field, in particular the relationship between porosity and permeability and the nature of permeability spatial variations remain uncertain as well as boundary conditions. The uncertainty was dealt with through sensitivity analyses. Ultimately, the constructed model shows a reasonable match with the data. [Copyright &y& Elsevier]

Published

2011

11. Investigation of geochemical interactions of carbon dioxide and carbonate formation in the Northwest McGregor oil field after enhanced oil recovery and CO2 storage.

Author

Holubnyak, Yevhen I., Mibeck, Blaise A., Bremer, Jordan M., Smith, Steven A., Sorensen, James A., Gorecki, Charles D., Steadman, Edward N., and Harju, John A.

Subjects

ENHANCED oil recovery, OIL fields, CARBON dioxide, GEOCHEMICAL modeling, ANALYTICAL geochemistry, CARBONATE rocks

Abstract

Abstract: The Plains CO2 Reduction Partnership, one of the seven U.S. Department of Energy National Energy Technology Laboratory Regional Carbon Sequestration Partnerships, is conducting a carbon dioxide (CO2) huff ‘n’ puff (HnP) project in the Northwest McGregor oil field in North Dakota to determine the effects CO2 has on the productivity of the reservoir, wellbore integrity, and the carbonate formation into which the CO2 was injected. This paper outlines the approach and current observations derived from numerical modeling and laboratory simulations of potential geochemical reactions to evaluate the short-term risks for operations (e.g., porosity and permeability decrease) and long-term implications for CO2 storage via mineralization. The integration of data obtained during mineralogical analyses, fluid sampling, and laboratory experiments proved to be a key for the better understanding of the dynamic geochemical processes that happen in the reservoir after CO2 injection and was necessary for successful completion of the numerical modeling. Results of the numerical modeling suggest that the already acidic and highly saline environment (pH <4.5 and total dissolved solids ∼300,000 mg/kg) of the Northwest McGregor oil field should not experience any significant changes in mineralogy as a result of CO2 injection, especially in the near term, which correlates with the postinjection field geochemical analyses. [Copyright &y& Elsevier]

Published

2011

12. The Wallula basalt sequestration pilot project.

Author

McGrail, B.P., Spane, F.A., Sullivan, E.C., Bacon, D.H., and Hund, G.

Subjects

GEOLOGICAL carbon sequestration, FLOOD basalts, PILOT projects, PAPER mills, SURVEYS

Abstract

Abstract: The U.S. Department of Energy Big Sky Regional Carbon Sequestration Partnership completed drilling the world’s first continental flood basalt sequestration pilot borehole to a total depth (TD) of 1253 m at a paper mill site near the town of Wallula located in Southeastern Washington State. Site suitability was assessed prior to drilling by acquisition, processing and analysis of a four-mile, five-line, three component seismic swath, which was processed as a single data-dense line. Analysis of the seismic survey data indicated absence of major geologic structures that would preclude CO2 injection at the site. Drilling of Wallula pilot borehole was initiated on January 13, 2009 and reached TD on April 6, 2009. Hydrogeologic information was obtained primarily during borehole drilling/advancement utilizing a progressive drill-and-test characterization strategy. A general decreasing transmissivity trend with depth pattern was observed, which is consistent with results exhibited for Columbia River basalt interflow zones at a number of other deep wells in the region. Based on the comparative results from 10 test intervals, a candidate injection test zone was identified between the general depth interval of ∼828 and 875 m bgs. Over this interval, three brecciated interflow zones were intersected and isolated for CO2 injection. The flow tops have moderate permeability (75 to 150 millidarcies) and are bounded by thick flow interiors that have extremely low (microdarcy) permeability. The borehole configuration established at the Wallula pilot site provides a unique opportunity to scientifically study the reservoir behaviour of three connected reservoir intervals confined between primary and secondary caprock zones. The permitting process for the CO2 injection has proceeded in accordance with formal rules for geologic sequestration projects enacted in June 2008 into the underground injection control program administered by the Washington State Department of Ecology. The permitting process is expected to conclude in October 2010 and injection would begin soon thereafter. Post-injection monitoring includes long-term sampling of water retrieved from the injection zone, shallow groundwater and soil gas monitoring, and PSInSAR. [Copyright &y& Elsevier]

Published

2011

13. A comparative analysis of regulations for the geologic storage of carbon dioxide.

Author

Condor, Jose, Unatrakarn, Datchawan, Asghari, Koorosh, and Wilson, Malcolm

Subjects

GEOLOGICAL carbon sequestration, COMPARATIVE studies, INTERNATIONAL relations

Abstract

Abstract: This paper presents a summary of the main international and national regulations for geologic storage of carbon dioxide. The international group includes the EU Directives, London Convention, and OSPAR. For the national regulations, three countries were covered in this study: United States, Canada, and Australia. In addition to these regulations, a group of guidelines and best practice manuals were also included in this study. As discussion, although this paper recognizes that current legislations have contributed for the regulation of this technology, it is still necessary the development of new rules in other regions. Industry will not invest in large CCS plants without such regulations because of high CCS costs and large financial risks related to CCS. [Copyright &y& Elsevier]

Published

2011

14. Meeting CCS communication challenges head-on: Integrating communications, planning, risk assessment, and project management.

Author

Greenberg, Sallie, Gauvreau, Lori, Hnottavange-Telleen, Ken, Finley, Robert, and Marsteller, Scott

Subjects

GEOLOGICAL carbon sequestration, CARBON dioxide mitigation, RISK assessment in chemical plants, PROJECT management

Abstract

Abstract: The Midwest Geological Sequestration Consortium, Schlumberger Carbon Services, and Archer Daniels Midland has implemented a comprehensive communications plan at the Illinois Basin–Decatur Project (IBDP), a one million metric tonne Carbon Capture and Storage project in Decatur, IL, USA funded by the U.S. Department of Energy’s National Energy Technology Laboratory. The IBDP Communication Plan includes consortium information, funding and disclaimer citations, description of target audiences, media communications guidelines, paper and presentations guidelines, site visit information, crisis communication, on-site photography regulations, and other components. The creation, development, and implementation processes for the IBDP Communication Plan (the Plan) are shared in this paper. New communications challenges, such as how to address add-on research requests, data sharing and management, scope increase, and contract agreements have arisen since the Plan was completed in January 2009, resulting in development of new policies and procedures by project management. Integrating communications planning, risk assessment, and project management ensured that consistent, factual information was developed and incorporated into project planning, and constitutes the basis of public communications. Successful integration has allowed the IBDP to benefit from early identification and mitigation of the potential project risks, which allows more time to effectively deal with unknown and unidentified risks that may arise. Project risks and risks associated with public perception can be managed through careful planning and integration of communication strategies into project management and risk mitigation. [Copyright &y& Elsevier]

Published

2011

15. Road-testing the outreach best practices manual: Applicability for implementation of the development phase projects by the regional carbon sequestration partnerships.

Author

Daly, Dan, Bradbury, Judith, Garrett, Gary, Greenberg, Sallie, Myhre, Richard, Peterson, Tarla, Tollefson, Lindsey, Wade, Sarah, and Sacuta, Norm

Subjects

GEOLOGICAL carbon sequestration, CARBON dioxide mitigation, OUTREACH programs, PUBLICATIONS, AWARENESS

Abstract

Abstract: Geologic carbon dioxide (CO2) storage verification tests by the U.S. Department of Energy’s (DOE’s) seven Regional Carbon Sequestration Partnerships (RCSPs) provided the experience base for the Public Outreach and Education for Carbon Storage Projects, a best practices manual, published in December 2009. This paper summarizes these outreach best practices; discusses their application in Aquistore, a greenfield CO2 storage project under way in western Canada; and reviews the implications for applying the best practices to new projects during the Development Phase of the DOE’s RCSP Program. [Copyright &y& Elsevier]

Published

2011

16. A comparative state-level analysis of carbon capture and storage (CCS) discourse among U.S. energy stakeholders and the public.

Author

Feldpausch-Parker, Andrea M., Chaudhry, Rumika, Stephens, Jennie C., Fischlein, Miriam, Hall, Damon M., Melnick, Leah L., Peterson, Tarla Rai, Ragland, Chara J., and Wilson, Elizabeth J.

Subjects

GEOLOGICAL carbon sequestration, ENERGY policy, RISK assessment in biotechnology, DISCOURSE, SOCIAL perception, ENERGY development, SAFETY

Abstract

Abstract: Perceptions of the potential of emerging technologies like carbon capture and storage (CCS) are constructed not just through technical and economic processes but also through discourse, i.e. through compelling narratives about what a technology is, what a technology might become and why it is needed and preferable to competing technologies. The influence of discourse is particularly important in the innovation phases prior to commercialization when innovation activities are focused on research, development and demonstration, and when feasibility and costs of alternatives systems cannot yet be tested by market dynamics. This paper provides a state-level comparative analysis of CCS discourse in the U.S. to provide insights about the socio-political context in which CCS technology is advancing and being considered in four different states: Massachusetts, Minnesota, Montana, and Texas. This research combines analysis of interviews of state-level energy stakeholders and media analysis of state-level newspapers. In semi-structured interviews, state-level energy policy stakeholders were asked to explain their perceptions of the potential opportunities and risks of CCS technology within their unique state context. Interview texts were coded to assess the frequency and extent of various different frames of CCS opportunities and risks including technical, political, economic, environmental, aesthetic, and health/safety. A similar coding scheme was applied to analysis of state-level newspaper coverage of CCS technology. Here, the frequency of these different framings of CCS opportunities and risks in state-level print media was assessed. This analysis demonstrates wide variation in state-level CCS discourse and perceptions of the potential opportunities and risks associated with CCS technology. This mixed-methods approach to characterizing the socio-political context for CCS advancement in these four states contributes to improved understanding of state-level variation in energy technology innovation, provides valuable information about energy technology development in these specific states, and also offers insight into the very different sub-national discourses associated with emerging low-carbon energy technologies in the U.S. [Copyright &y& Elsevier]

Published

2011

17. Integration of Gas Separation Membranes with IGCC Identifying the right membrane for the right job.

Author

Marano, John J. and Ciferino, Jared P.

Subjects

GAS separation membranes, CARBON sequestration, TECHNOLOGICAL innovations, ELECTRIC power production, INTEGRATED gasification combined cycle power plants, SEPARATION of gases

Abstract

Abstract: A core mission of the U.S. Department of Energy’s (DOE) Carbon Sequestration Program is to foster the development of commercially-ready technologies for CO2 capture and sequestration. An R&D program goal of 90% carbon capture, at an increase in the cost of electricity (COE) no greater than 10% above current state-of-the-art designs without capture, has been established for electric power generation from next-generation Integrated-Gasification Combined-Cycle (IGCC) plants. Advanced gas separation membranes for separating H2 from CO2 are one possible technology for achieving these goals. For IGCC CO2-capture applications, membranes will need to out-perform existing chemical and physical absorption processes. Gas separation membranes, however, can be integrated into a number of different locations in the IGCC process in addition to post water-gas-shift (WGS), the preferred location for current absorption technologies. Due to the many integration options possible, membranes could potentially be required to operate over a wide range of conditions. It is preferred that the membrane operate at pressures and temperatures normally encountered at that point in the IGCC flowsheet where it is being placed. And, clearly it is beneficial that the membrane be placed in a location with relatively high pressure in order to maximize separation. If this is possible, the feed and product gases need not be compressed/expanded or heated/cooled. In addition, membrane materials being considered, whether ceramic, metallic or polymeric, have physical and chemical limitations in regards to operating temperature and tolerance to various compounds that might be present in synthesis gas. It is therefore unlikely that one type of membrane will be able to perform over the entire range of conditions possible. In this paper, we identify preferred membrane locations and quantify performance requirements for a wide range of membrane materials currently under consideration for H2/CO2 separation. [Copyright &y& Elsevier]

Published

2009

18. Comparing Existing Pipeline Networks with the Potential Scale of Future U.S. CO2 Pipeline Networks.

Author

Dooley, J.J., Dahowski, R.T., and Davidson, C.L.

Subjects

NATURAL gas pipelines, CARBON sequestration, INFRASTRUCTURE (Economics), GAS distribution, NATURAL gas transportation, CLIMATE change, COMPARATIVE studies

Abstract

Abstract: Interest is growing regarding the potential size of a future U.S.-dedicated carbon dioxide (CO2) pipeline infrastructure if carbon dioxide capture and storage (CCS) technologies are commercially deployed on a large scale within the United States. This paper assesses the potential scale of the CO2 pipeline system needed under two hypothetical climate policies (WRE450 and WRE550 stabilization scenarios); a comparison is then made to the extant U.S. pipeline infrastructures used to deliver CO2 for enhanced oil recovery and to move natural gas and liquid hydrocarbons from areas of production and importation to markets. The analysis reveals that between 11,000 and 23,000 additional miles of dedicated CO2 pipeline might be needed in the United States before 2050 across these two cases. While either case represents a significant increase over the 3900 miles that comprise the existing national CO2 pipeline infrastructure, it is important to realize that the demand for additional CO2 pipeline capacity will unfold relatively slowly and in a geographically dispersed manner as new dedicated CCS-enabled power plants and industrial facilities are brought online. During the period 2010–2030, this analysis indicates growth in the CO2 pipeline system on the order of a few hundred to less than 1000 miles per year. By comparison, during the period 1950–2000, the U.S. natural gas pipeline distribution system grew at rates that far exceed these growth projections for a future CO2 pipeline network in the U.S. This analysis indicates that the need to increase the size of the existing dedicated CO2 pipeline system should not be seen as a major obstacle for the commercial deployment of CCS technologies in the United States. While there could be issues associated with siting specific segments of a larger national CO2 pipeline infrastructure, the sheer scale of the required infrastructure should not be seen as representing a significant impediment to U.S. deployment of CCS technologies. [Copyright &y& Elsevier]

Published

2009

19. Assessing the impacts of future demand for saline groundwater on commercial deployment of CCS in the United States.

Author

Davidson, Casie L., Dooley, James J., and Dahowski, Robert T.

Subjects

WATER supply, WATER consumption, GEOLOGICAL carbon sequestration, GROUNDWATER quality, SALINE water conversion, DRINKING water, BRACKISH waters

Abstract

Abstract: This paper provides a preliminary assessment of the potential impact that future demand for groundwater might have on the commercial deployment of carbon dioxide capture and storage (CCS) technologies within the United States. A number of regions within the U.S. have populations, agriculture and industries that are particularly dependent upon groundwater. Moreover, some key freshwater aquifers are already over-utilized or depleted, and others are likely to be moving toward depletion as demand grows. The need to meet future water demands may lead some parts of the nation to consider supplementing existing supplies with lower quality groundwater resources, including brackish waters that are currently not considered sources of drinking water but which could provide supplemental water via desalination. In some areas, these same deep saline-filled geologic formations also represent possible candidate carbon dioxide (CO2) storage reservoirs. The analysis presented here suggests that future constraints on CCS deployment–due to potential needs to supplement conventional water supplies by desalinating deeper and more brackish waters–are likely to be necessary only in limited regions across the country, particularly in areas that are already experiencing water stress. [Copyright &y& Elsevier]

Published

2009

20. Risk Assessment for future CO2 Sequestration Projects Based CO2 Enhanced Oil Recovery in the U.S.

Author

Duncan, Ian J., Nicot, Jean-Philippe, and Choi, Jong-Won

Subjects

GEOLOGICAL carbon sequestration, RISK assessment, ENHANCED oil recovery, GAS reservoirs, GAS distribution, GAS wells, NATURAL gas pipelines, SAFETY

Abstract

Abstract: This paper is the first of a series that attempts to assess the possible health and safety risks associated with large scale CO2 sequestration in deep brine reservoirs. The approach is based on analysis of available data on the operational track record from CO2 transportation and injection associated with enhanced oil recovery (CO2-EOR) in the US. This paper is particularly concerned with identification of the main business risks facing a company engaged in geological sequestration. Such risks include both the operational risks of capturing, compressing, transporting and injecting CO2, as well as the risk of accidental, rapid CO2 release from wells (including an analysis of blow out data from CO2 injection wells, worked over wells as well as abandoned wells). Observations of the outcomes from accidents in real pipelines and CO2 injection wells in CO2-EOR projects provide the most concrete basis to predict the future safety of the above ground operations of CO2 sequestration in deep brine reservoirs. [Copyright &y& Elsevier]

Published

2009

21. Analysis of GHG Abatement Opportunities under America’s Climate Security Act of 2007.

Author

Nichols, Chris, Phares, Lisa, Dipietro, Phil, and vanLeeuwen, Tyler

Subjects

GREENHOUSE gas mitigation laws, ELECTRIC power production, COAL-fired power plants, CARBON sequestration, TRANSPORTATION industry

Abstract

Abstract: Over the past few years, several pieces of legislation have been introduced in Congress aimed at reducing US greenhouse (GHG) emissions by setting emission targets by specified years. One of the latest bills, America’s Climate Security Act of 2007 (S.2191) was introduced in October 2007 and sets a US GHG emissions target for 2050 that is 85% below the governments business-as-usual forecast. DOE/NETL has employed a multi-sector emissions accounting tool, CarBen, that identifies emission abatement options and their contribution, via a wedge analysis, to the total GHG emissions reduction needed to meet the 2050 emissions target laid out in S.2191. This paper begins with a review of expected greenhouse (GHG) emissions in the United States through 2050. Historical and projected trends in U.S. energy use per GDP and GHG emission per unit of energy delivered are assessed. The paper then explores “technical possibilities” that exist for the U.S. to mitigate its GHG emissions in line with S.2191. Within the power sector, these options include nuclear power, renewable power generation, refurbishing existing coal power plants, retrofitting existing coal power plants with carbon capture and storage (CCS) and deploying new coal and natural gas power plants with CCS Outside of the power sector abatement options cover non-CO2 GHG emissions abatement, terrestrial offsets, international credits, improved vehicle efficiency and electrification of the transportation sector through hybrid electric vehicles. The methodology for calculating the wedges and allocating emissions reduction among the different options is described. [Copyright &y& Elsevier]

Published

2009

22. The impact of electric passenger transport technology on the demand for coal-fired power with CCS under a climate policy.

Author

Wise, Marshall, Page Kyle, G., Dooley, Jim, and Kim, Son H.

Subjects

HYBRID electric vehicles, ELECTRIC power production, COAL-fired power plants, CARBON sequestration, ENVIRONMENTAL policy, CARBON dioxide mitigation, CLIMATE change

Abstract

Abstract: Plug-in hybrid electric vehicles (PHEVs) have the potential to be an economic means of reducing direct (or tailpipe) carbon dioxide (CO2) emissions from the transportation sector. However, without a climate policy that places a limit on CO2 emissions from the electric generation sector, the net impact of widespread deployment of PHEVs on overall US CO2 emissions is not as clear. A comprehensive analysis must consider jointly the transportation and electricity sectors, along with feedbacks to the rest of the energy system. In this paper, we use the Pacific Northwest National Laboratory MiniCAM model to perform an integrated economic analysis of the penetration of PHEVs and the resulting impact on total US CO2 emissions. Under the assumptions used in this analysis where PHEVs obtain 50–60% of the market for passenger and light-duty trucks, the ability to deploy PHEVs under the two climate policies modeled here results in 6000–7300 Mt CO2 of additional cost -effective emissions reductions from the US economy over the period 2005–2050. The additional demand for geologic CO2 storage created by the introduction of the PHEVs is approximately equal to the cumulative geologic CO2 storage demanded by two to three large 1000 MW IGCC+CCS power plants over a 50 -year period. The introduction of PHEVs into the US transportation sector, coupled with climate policies such as those examined here, can also reduce US demand for oil by 20–30% by 2050 compared to today’s levels. [Copyright &y& Elsevier]

Published

2009

23. Legal and regulatory developments associated with carbon dioxide capture and storage: A global update.

Author

Kerr, Tom, Havercroft, Ian, and Dixon, Tim

Subjects

CARBON sequestration laws, TECHNOLOGY assessment, ENVIRONMENTAL policy, ELECTRIC utilities

Abstract

Abstract: Carbon dioxide capture and storage (CCS) is widely seen as a critical technology to de-carbonise the power and industrial sectors. As such, many nations have ambitious plans to demonstrate and then promote commercial scale development of CCS. To facilitate early demonstrations and lay the groundwork for widespread use of CCS, governments are rapidly developing new CCS regulations and policies. There have been a number of important regulatory and legal developments in the European Union, United States, Australia, Canada, Norway and several other jurisdictions. This paper and presentation will provide a brief but comprehensive update of these developments and will document and synthesise discussions and activities that were undertaken as part of the IEA’s International CCS Regulator’s Network. It is hoped that information sharing of this kind can help to facilitate harmonised global approaches to regulating CCS. [Copyright &y& Elsevier]

Published

2009

24. Financing carbon capture and storage projects the results of two expert meetings.

Author

Kessels, John and Beck, Brendan

Subjects

CARBON sequestration, PILOT projects, RESEARCH funding, FOSSIL fuels, CLEAN coal technologies, ENVIRONMENTAL policy

Abstract

Abstract: The IEA 2007 World Energy Outlook forecasts that fossil fuels will continue to dominate the energy mix until 2030, including large economies such as the EU, Japan, US and China. A growing concern among many countries is the design o f mechanism s that will finance clean coal technologies and in particular carbon capture and storage projects. To illustrate, it is estimated that the United States will require 170 GW of new coal -fired capacity prior to 2030 with 90% of that being post 2015. Therefore substantial government and private investment into carbon capture and storage (CCS ) projects will be required and m echanisms designed to facilitate that investment. Many organizations are examining this issue including the IEA Clean Coal Centre, IEA Greenhouse Gas R&D Programme, Clean Coal Power Initiative and the Carbon Sequestration Leadership Forum (CSLF). In 2007 and 2008 two expert meetings on financing post-demonstration CCS projects were organised in London and New York by the IEA Greenhouse Gas R&D Programme and the IEA Clean Coal Centre, with the support of the World Coal Institute and sponsorship from Chevr on and Rio Tinto. This paper reports back the results of those meetings in regard to identifying the key drivers for financing post-demonstration CCS projects in Europe and North America. This is of particular interest with the restructuring of the USA Fut ureGen Programme as well as the proposed inclusion of CCS within the European Union Emissions Trading Scheme (EU-ETS) in the future. Different options for financing such projects are explored and compared with a focus on how they could assist in the realisation of commercial CCS projects. In addition, this paper examines the response by the insurance, banking and other financial sectors to the potential investment opportunities CCS projects could provide in dealing with issues such as liability and project investment. Lastly, the paper analyses the knowledge and awareness of CCS technology within the financial community in general. [Copyright &y& Elsevier]

Published

2009

25. Cost and U.S. public policy for new coal power plants with carbon capture and sequestration.

Author

Hamilton, Michael R., Herzog, Howard J., and Parsons, John E.

Subjects

COAL-fired power plants, CARBON sequestration, INDUSTRIAL costs, GOVERNMENT policy on climate change, GREEN technology, ELECTRIC power production

Abstract

Abstract: This paper provides a financial analysis for new supercritical pulverized coal plants with carbon capture and sequestration (CCS) that compares the effects of two relevant climate policies. First, an updated cost estimate is presented for new supercritical pulverized coal plants, both with and without CCS. The capital cost escalation of recent years can be attributed to rising materials, plant supply, and plant contractor constraints. This estimate is then compared with recent estimates from public sources. Second, several current and proposed public policies relevant to CCS are presented. Finally, a financial analysis is performed to evaluate the effectiveness of two likely US carbon regulations on deploying Nth-plant CCS technology. The major conclusion is that the leading US carbon cap-and-trade bills will likely not be sufficient to deploy CCS technology in a manner consistent with a 550 ppm CO2 stabilization scenario. A more aggressive carbon policy including CCS research, development, and demonstration must be considered to achieve this goal with significant CCS deployment. [Copyright &y& Elsevier]

Published

2009

26. Carbon capture and storage in context: The importance of state policy and discourse in deploying emerging energy technologies.

Author

Wilson, Elizabeth J., Stephens, Jennie C., Rai Peterson, Tarla, and Fischlein, Miriam

Subjects

CARBON sequestration, TECHNOLOGICAL innovations, ENERGY policy, INFRASTRUCTURE (Economics), POLICY analysis, STAKEHOLDERS

Abstract

Abstract: As a technology that may involve new risks, large-scale infrastructure, and significant government involvement, carbon capture and storage (CCS) faces a wide variety of deployment challenges. Because energy policy in the U.S. is negotiated at the state level, it is important to evaluate what might influence CCS related decisions in the U.S. at that level. This paper presents a detailed analysis of how deployment discussions and decisions regarding CCS are negotiated within Texas, Minnesota, and Massachusetts. These states were chosen based upon their current involvement in CCS research (high, medium, low), potential for deploying CCS (direct, indirect, or absent), and regulation (restructured, regulated). We explore nuances within the policy debates and public discourse surrounding CCS in these three states through the use of legislative and policy analysis, interviews with stakeholders, and media analysis. Using information generated from legislative dockets and state-level newspaper coverage we construct a template of CCS discussions, framing, and policy creation within each study state. [Copyright &y& Elsevier]

Published

2009

27. Assessing a Liability Regime for Carbon Capture and Storage.

Author

Wilson, Elizabeth J., Klass, Alexandra B., and Bergan, Sara

Subjects

CARBON sequestration, FEDERAL aid to research, RISK assessment, LEGAL liability, BONDS (Finance), FINANCIAL security

Abstract

Abstract: As the private sector and government begin to spend billions of dollars to research and deploy carbon capture and storage (CCS) technology, the question of legal liability for managing short-term and long-term environmental, health and safety risks must be addressed. We examine potential CCS liability within a U.S. context and survey the existing environmental and tort law liability regimes that may affect CCS. We conclude that while existing liability regimes are insufficient on their own to govern the CCS industry, they could provide important risk management tools and serve as safeguards to private parties and governments in the event of harm. We also propose a model for long term stewardship, blending including bonding, insurance, and pooled federal funding into commercial CCS project management to better provide financial security to investors without destroying existing liability protections for those who may suffer harm from CCS. This proposal offers a starting point to develop a model to integrate liability for the nascent CCS industry. A longer version of this paper can be found in the Emory Law Review, Fall 2008. [Copyright &y& Elsevier]

Published

2009

28. Tipping Fees Can’t Save us from the Tipping Point: The Need to Create Rational Approaches to Risk Management that Motivate Geologic CO2 Storage Best Practices.

Author

Dooley, James J., Trabucchi, Chiara, and Patton, Lindene

Subjects

GEOLOGICAL carbon sequestration, RISK management in business, LEGAL liability, CARBON sequestration, ENVIRONMENTAL engineering, PORTFOLIO management (Investments), GOVERNMENT policy

Abstract

Abstract: This paper explores the mismatch between the widely held public policy view of the long-term risk profile for carbon dioxide (CO2) storage with the emerging science and engineering of CO2 storage. We review the key issues of fit, interplay, and scalability associated with a trust fund funded by a hypothetical $ 1/ton CO2 tipping fee for each ton of CO2 stored in the United States under WRE450 and WRE550 climate policies. Left to grow unchecked, this hypothetical tipping fee fund would accumulate hundreds of billions to trillions of dollars before it would be expected to pay out claims caused by potential damage arising from CO2 storage. The authors conclude there is no intrinsic value in creating a trust fund predicated solely on collecting a tipping fee. Rather than mitigating the financial consequences of long-term CCS risks, this analysis suggests a blanket $ 1/ton CO2 tipping fee may increase the probability and frequency of long-term risk by eliminating financial incentives for sound operating behavior and site selection criteria–contribute to moral hazard. At a minimum, effective use of a trust fund requires: (1) strong oversight regarding site selection and fund management, and (2) a clear process by which the fund is periodically valued and funds collected are mapped to the risk profile of the pool of covered CCS sites. Without appropriate checks and balances, there is no a priori reason to believe that the amount of funds held in trust will map to the actual amount of funds needed to address long-term care expenses and delimited compensatory damages. [Copyright &y& Elsevier]

Published

2009

29. The Role of Social Factors in Shaping Public Perceptions of CCS: Results of Multi-State Focus Group Interviews in the U.S.

Author

Bradbury, Judith, Ray, Isha, Peterson, Tarla, Wade, Sarah, Wong-Parodi, Gabrielle, and Feldpausch, Andrea

Subjects

CARBON sequestration, GREEN technology, PUBLIC opinion, FOCUS groups, COMMUNITIES, BUSINESS partnerships, COMMUNICATION of technical information

Abstract

Abstract: Three of the U.S. Department of Energy’s (DOE’s) Regional Carbon Sequestration Partnerships analyzed community perspectives on carbon capture and storage (CCS) through focus groups and interviews in five communities. These perspectives were analyzed in the context of each community’s history and its social and economic characteristics. The results were considered for their insights into specific concerns within each region, as well as to assess inter-region commonalities. In all cases, factors such as past experience with government, existing low socioeconomic status, desire for compensation, and/or perceived benefit to the community were of greater concern than the concern about the risks of the technology itself. This paper discusses the findings from the joint review of the focus groups and the potential lessons for application to CCS deployment. [Copyright &y& Elsevier]

Published

2009

30. Stakeholder attitudes on carbon capture and storage — An international comparison.

Author

Johnsson, Filip, Reiner, David, Itaoka, Kenshi, and Herzog, Howard

Subjects

CARBON sequestration, STAKEHOLDERS, PUBLIC opinion, INDUSTRIAL surveys, ELECTRIC utilities

Abstract

Abstract: This paper presents results from a survey on stakeholder attitudes towards Carbon Capture and Storage (CCS). The survey is the first to make a global comparison across three major regions; USA, Japan, and Europe. The 30-question survey targeted individuals working at stakeholder organizations that seek to shape, and will need to respond to, policy on CCS, including electric utilities, oil & gas companies, CO2-intensive industries and non-governmental organizations (NGOs). The results show generally small differences across the regions and between the different groups of stakeholders. All believed that the challenge of significant reductions in emissions using only current technologies was severe. There is a widespread belief both that renewable technologies such as solar power and CCS will achieve major market entry into the electricity sector within the next 10 to 20 years, whereas there is more skepticism about the role of hydrogen and especially nuclear fusion in the next 50 years. All groups were generally positive towards renewable energy. Yet, there were some notable areas of disagreement in the responses, for example, as expected, NGOs considered the threat of climate change to be more serious than the other groups. North Americans respondents were more likely to downplay the threat compared to those of the other regions. The Japanese were more concerned about the burden that would be placed on industry in the coming decade as a result of emissions constraints and NGOs were more likely to believe that the burden would be light or very light. NGOs believed CCS to be far more attractive than nuclear fusion power but much less than renewables. As expected, the risk for leakage from reservoirs was ranked number one of the risk options given. [Copyright &y& Elsevier]

Published

2009