PDF Publication Title:
Text from PDF Page: 031
Energies 2021, 14, 387 31 of 32 29. Desideri, U. Advanced absorption processes and technology for carbon dioxide (CO2) capture in power plants. In Developments and Innovation in Carbon Dioxide (CO2) Capture and Storage Technology; Woodhead Publishing: Cambridge, UK, 2010; pp. 155–182. [CrossRef] 30. Shimizu, T.; Hirama, T.; Hosoda, H.; Kitano, K.; Inagaki, M.; Tejima, K. A Twin Fluid-Bed Reactor for Removal of CO2 from Combustion Processes. Chem. Eng. Res. Des. 1999, 77, 62–68. [CrossRef] 31. Cannone, S.F.; Stendardo, S.; Lanzini, A. Solar-powered Rankine cycle assisted by an innovative calcium looping process as energy storage system. Ind. Eng. Chem. Res. 2020, 59, 6977–6993. [CrossRef] 32. Bui, M.; Adjiman, C.S.; Bardow, A.; Anthony, E.J.; Boston, A.; Brown, S.; Fennell, P.S.; Fuss, S.; Galindo, A.; Hackett, L.A.; et al. Carbon capture and storage (CCS): The way forward. Energy Environ. Sci. 2018, 11, 1062–1176. [CrossRef] 33. Calabrò, V.; Iulianelli, A.; Liguori, S.; Basile, A.; Gugliuzza, A.; Saraceno, A. State of the Art on CO2 Separation Processes with Membrane Technology (In Italian). Available online: https://www.enea.it/it/Ricerca_sviluppo/documenti/ricerca-di- sistema-elettrico/celle-a-combustibile-biomasse/rds-139-2.1.2-stato-dell2019arte-sui-processi-di-rimozione.pdf (accessed on 11 January 2021). 34. Credence Research Gas Separation Membranes market, by Type, Application and Region—Growth, Future Prospects and Com- petitive Analysis. Available online: https://www.credenceresearch.com/report/gas-separation-membranes-market (accessed on 11 January 2021). 35. Aroon, M.A.; Ismail, A.F.; Matsuura, T.; Montazer-Rahmati, M.M. Performance studies of mixed matrix membranes for gas separation: A review. Sep. Purif. Technol. 2010, 75, 229–242. [CrossRef] 36. IEA. Energy Technology Perspectives 2012; IEA: Paris, France, 2012. 37. Luo, X.; Wang, M.; Oko, E.; Okezue, C. Simulation-based techno-economic evaluation for optimal design of CO2 transport pipeline network. Appl. Energy 2014, 132, 610–620. [CrossRef] 38. Intergovernmental Panel on Climate Change (IPCC). Carbon Dioxide Capture and Storage. Available online: https://www.ipcc. ch/site/assets/uploads/2018/03/srccs_wholereport.pdf (accessed on 11 January 2021). 39. Woodhill Engineering Consultants. Pipeline Transmission of CO2 and Energy. Transmission Study Report. Prepared by Woodhill Engineering Consultants; IEA GHG. Report No.: PH4/6. 2002. Available online: https://ieaghg.org/docs/General_Docs/ Reports/PH4_6%20TRANSMISSION%20REPORT.pdf (accessed on 11 January 2021). 40. Onyebuchi, V.E.; Kolios, A.; Hanak, D.P.; Biliyok, C.; Manovic, V. A systematic review of key challenges of CO2 transport via pipelines. Renew. Sustain. Energy Rev. 2018, 81, 2563–2583. [CrossRef] 41. Knoope, M.M.J.; Ramírez, A.; Faaij, A.P.C. A state-of-the-art review of techno-economic models predicting the costs of CO2 pipeline transport. Int. J. Greenh. Gas Control 2013, 16, 241–270. [CrossRef] 42. National Energy Technology Laboratory (NETL). FE/NETL CO2 Transport Cost Model: Description and User’s Manual; NETL: Pittsburgh, PA, USA, 2018. 43. Parker, N. Using Natural Gas Transmission Pipeline Costs to Estimate Hydrogen Pipeline Costs; Institute of Transportation Studies: UC Davis, CA, USA, 2004. 44. McCoy, S.T.; Rubin, E.S. An engineering-economic model of pipeline transport of CO2 with application to carbon capture and storage. Int. J. Greenh. Gas Control 2008, 2, 219–229. [CrossRef] 45. Rui, Z.; Metz, P.; Reynolds, D.; Chen, G.; Zhou, X. Regression models estimate pipeline construction costs. Oil Gas J. 2011, 109, 120–127. 46. Thomas, S. Enhanced Oil Recovery—An Overview. Oil Gas Sci. Technol. Rev. IFP 2008, 63, 9–19. [CrossRef] 47. White, M.; McGrail, P. Designing a pilot-scale experiment for the production of natural gas hydrates and sequestration of CO2 in class 1 hydrate accumulations. Energy Procedia 2009, 1, 3099–3106. [CrossRef] 48. Kondori, J.; Zendehboudi, S.; Hossain, M.E. A review on simulation of methane production from gas hydrate reservoirs: Molecular dynamics prospective. J. Pet. Sci. Eng. 2017, 159, 754–772. [CrossRef] 49. Uchida, T.; Ikeda, I.Y.; Takeya, S.; Kamata, Y.; Ohmura, R.; Nagao, J.; Zatsepina, O.Y.; Buffett, B.A. Kinetics and stability of CH4-CO2 mixed gas hydrates during formation and long-term storage. Chemphyschem 2005, 6, 646–654. [CrossRef] [PubMed] 50. Le, Q.-D.; Rodriguez, C.T.; Legoix, L.N.; Pirim, C.; Chazallon, B. Influence of the initial CH4-hydrate system properties on CO2 capture kinetics. Appl. Energy 2020, 280, 115843. [CrossRef] 51. McGrail, B.P.; Schaef, H.T.; White, M.D.; Zhu, T.; Kulkarni, A.S.; Hunter, R.B.; Patil, S.L.; Owen, A.T.; Martin, P.F. Using Carbon Dioxide to Enhance Recovery of Methane from Gas Hydrate Reservoirs: Final Summary Report; Pacific Northwest National Lab. (PNNL): Richland, WA, USA, 2007. 52. Lee, H.; Seo, Y.; Seo, Y.-T.; Moudrakovski, I.L.; Ripmeester, J.A. Recovering Methane from Solid Methane Hydrate with Carbon Dioxide. Angew. Chem. Int. Ed. 2003, 42, 5048–5051. [CrossRef] [PubMed] 53. Adisasmito, S.; Frank, R.J.; Sloan, E.D. Hydrates of carbon dioxide and methane mixtures. J. Chem. Eng. Data 1991, 36, 68–71. [CrossRef] 54. Goel, N. In situ methane hydrate dissociation with carbon dioxide sequestration: Current knowledge and issues. J. Pet. Sci. Eng. 2006, 51, 169–184. [CrossRef] 55. Clennell, M.B.; Hovland, M.; Booth, J.S.; Henry, P.; Winters, W.J. Formation of natural gas hydrates in marine sediments 1. Conceptual model of gas hydrate growth conditioned by host sediment properties. J. Geophys. Res. B Solid Earth 1999, 104, 22985–23003. [CrossRef]PDF Image | Energies 14
PDF Search Title:
Energies 14Original File Name Searched:
energies-14-00387.pdfDIY PDF Search: Google It | Yahoo | Bing
NFT (Non Fungible Token): Buy our tech, design, development or system NFT and become part of our tech NFT network... More Info
IT XR Project Redstone NFT Available for Sale: NFT for high tech turbine design with one part 3D printed counter-rotating energy turbine. Be part of the future with this NFT. Can be bought and sold but only one design NFT exists. Royalties go to the developer (Infinity) to keep enhancing design and applications... More Info
Infinity Turbine IT XR Project Redstone Design: NFT for sale... NFT for high tech turbine design with one part 3D printed counter-rotating energy turbine. Includes all rights to this turbine design, including license for Fluid Handling Block I and II for the turbine assembly and housing. The NFT includes the blueprints (cad/cam), revenue streams, and all future development of the IT XR Project Redstone... More Info
Infinity Turbine ROT Radial Outflow Turbine 24 Design and Worldwide Rights: NFT for sale... NFT for the ROT 24 energy turbine. Be part of the future with this NFT. This design can be bought and sold but only one design NFT exists. You may manufacture the unit, or get the revenues from its sale from Infinity Turbine. Royalties go to the developer (Infinity) to keep enhancing design and applications... More Info
Infinity Supercritical CO2 10 Liter Extractor Design and Worldwide Rights: The Infinity Supercritical 10L CO2 extractor is for botanical oil extraction, which is rich in terpenes and can produce shelf ready full spectrum oil. With over 5 years of development, this industry leader mature extractor machine has been sold since 2015 and is part of many profitable businesses. The process can also be used for electrowinning, e-waste recycling, and lithium battery recycling, gold mining electronic wastes, precious metals. CO2 can also be used in a reverse fuel cell with nafion to make a gas-to-liquids fuel, such as methanol, ethanol and butanol or ethylene. Supercritical CO2 has also been used for treating nafion to make it more effective catalyst. This NFT is for the purchase of worldwide rights which includes the design. More Info
NFT (Non Fungible Token): Buy our tech, design, development or system NFT and become part of our tech NFT network... More Info
Infinity Turbine Products: Special for this month, any plans are $10,000 for complete Cad/Cam blueprints. License is for one build. Try before you buy a production license. May pay by Bitcoin or other Crypto. Products Page... More Info
CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com (Standard Web Page)