Journal articles: 'CO₂storage'

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Schoch, Hannah, and Ted Abel. "Transcriptional co-repressors and memory storage." Neuropharmacology 80 (May 2014): 53–60. http://dx.doi.org/10.1016/j.neuropharm.2014.01.003.

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Miocic, Johannes M., Stuart M. V. Gilfillan, Jennifer J. Roberts, Katriona Edlmann, Christopher I. McDermott, and R. Stuart Haszeldine. "Controls on CO 2 storage security in natural reservoirs and implications for CO 2 storage site selection." International Journal of Greenhouse Gas Control 51 (August 2016): 118–25. http://dx.doi.org/10.1016/j.ijggc.2016.05.019.

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Wang, Fan, Yu Li, Xinhui Xia, Wei Cai, Qingguo Chen, and Minghua Chen. "Metal–CO 2 Electrochemistry: From CO 2 Recycling to Energy Storage." Advanced Energy Materials 11, no. 25 (May 13, 2021): 2100667. http://dx.doi.org/10.1002/aenm.202100667.

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Heinemann, N., R. J. Stewart, M. Wilkinson, G. E. Pickup, and R. S. Haszeldine. "Hydrodynamics in subsurface CO 2 storage: Tilted contacts and increased storage security." International Journal of Greenhouse Gas Control 54 (November 2016): 322–29. http://dx.doi.org/10.1016/j.ijggc.2016.10.003.

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Sidaway, P., and K. L. Brain. "Real time monitoring of neurotransmitter uptake and storage in PC-12 cells: Implication for co-storage and co-transmission." Autonomic Neuroscience 163, no. 1-2 (September 2011): 69. http://dx.doi.org/10.1016/j.autneu.2011.05.089.

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Xiao, Jian Hua, Xue Hui Li, and Le Fu Wang. "NOx Storage-Reduction with CO over Combined Catalysts." Advanced Materials Research 726-731 (August 2013): 2214–19. http://dx.doi.org/10.4028/www.scientific.net/amr.726-731.2214.

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The combined catalysts Mn/Ba/Al2O3-Pt/Ba/Al2O3and Mn/Ba/Al2O3+Pt/Ba/Al2O3for NOxstorage-reduction were investigated. Mn/Ba/Al2O3indicated high activity of NO oxidation and NOxstorage in the oxidation-storage reaction and certain reduction activity in the storage-reduction reaction. The combination of Pt/Ba/Al2O3with Mn/Ba/Al2O3could enhance the activity of NOxstorage-reduction under dynamic lean-rich burn conditions. Compared to Pt/Ba/Al2O3catalyst, although the Pt content decreased half over Mn/Ba/Al2O3-Pt/Ba/Al2O3and Mn/Ba/Al2O3+Pt/Ba/Al2O3, the NOxconversion increased 9.4% and 6.3% at 350 °C. The pollutions such as NOxand CO could be eliminated effectively over two combined catalysts with low Pt content under dynamic lean-rich burn conditions.

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Kempf, Klaus. "Storage solutions in a co‐operative library system." Library Management 26, no. 1/2 (January 2005): 79–88. http://dx.doi.org/10.1108/01435120510572905.

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Adamtey, Noah, Olufunke Cofie, Godfred K. Ofosu-Budu, Seth K. A. Danso, and Dionys Forster. "Production and storage of N-enriched co-compost." Waste Management 29, no. 9 (September 2009): 2429–36. http://dx.doi.org/10.1016/j.wasman.2009.04.014.

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Mercangöz, Mehmet, Jaroslav Hemrle, Lilian Kaufmann, Andreas Z’Graggen, and Christian Ohler. "Electrothermal energy storage with transcritical CO 2 cycles." Energy 45, no. 1 (September 2012): 407–15. http://dx.doi.org/10.1016/j.energy.2012.03.013.

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Eiling, A., R. Pott, and H. Kathrein. "Magnetic and storage properties of co-modified pigments." IEEE Transactions on Magnetics 22, no. 5 (September 1986): 741–43. http://dx.doi.org/10.1109/tmag.1986.1064559.

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Miri, Rohaldin, and Helge Hellevang. "Salt precipitation during CO 2 storage—A review." International Journal of Greenhouse Gas Control 51 (August 2016): 136–47. http://dx.doi.org/10.1016/j.ijggc.2016.05.015.

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Kaufmann, Roland, Ivar Aavatsmark, Pål Helge Nøkleby, and Terje A. Aurdal. "Using an aquifer as CO 2 buffer storage." International Journal of Greenhouse Gas Control 53 (October 2016): 106–16. http://dx.doi.org/10.1016/j.ijggc.2016.07.017.

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Smit, Berend. "Carbon Capture and Storage: introductory lecture." Faraday Discussions 192 (2016): 9–25. http://dx.doi.org/10.1039/c6fd00148c.

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Carbon Capture and Storage (CCS) is the only available technology that allows us to significantly reduce our CO₂ emissions while keeping up with the ever-increasing global energy demand. Research in CCS focuses on reducing the costs of carbon capture and increasing our knowledge of geological storage to ensure the safe and permanent storage of CO₂. This brief review will discuss progress in different capture and storage technologies.

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Cantucci, Barbara, Giordano Montegrossi, Mauro Buttinelli, Orlando Vaselli, Davide Scrocca, and Fedora Quattrocchi. "Geochemical Barriers in $$\hbox {CO}_{2}$$ CO 2 Capture and Storage Feasibility Studies." Transport in Porous Media 106, no. 1 (September 25, 2014): 107–43. http://dx.doi.org/10.1007/s11242-014-0392-6.

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Williams, G. A., R. A. Chadwick, and H. Vosper. "Some thoughts on Darcy-type flow simulation for modelling underground CO 2 storage, based on the Sleipner CO 2 storage operation." International Journal of Greenhouse Gas Control 68 (January 2018): 164–75. http://dx.doi.org/10.1016/j.ijggc.2017.11.010.

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Alam, MS, MA Ashraf, MIA Mia, and MZ Abedin. "Study on Grain Storage Facilities as Food Security Measure in Flood Prone Areas of Bangladesh." Progressive Agriculture 18, no. 2 (March 5, 2014): 223–33. http://dx.doi.org/10.3329/pa.v18i2.18244.

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The present study aimed at obtaining the existing grain storage facilities - their problems and prospects at farmers, commercial, common and co-operative levels on some selected flood prone areas of Bangladesh. The study was conducted at Belkuchi upazila under Sirajgonj district. A total of randomly selected forty farmers and ten traders were surveyed from four villages under four different unions through structured questionnaire. Farmers and traders were classified as small, medium and large on the basis of their total land ownership and annual income status. The farmers used traditional storage structures such as Dole, berh, Motka, Jala, steel drum, gunny and plastic bags and Gola. On the other hand, the traders used gunny and plastic bags and privately owned godowns for storing food grains for short time basis. Average production, consumption, sale, farm use, labour wage, storage volume, cost, durability and losses of different storage structures for major grain crops like paddy, wheat and mustard were identified by farmers and traders category. Considering the capital cost, expected life and storage loss steel drum, gunny and plastic bags and Motka/Jala were found more economical for the farmers. The advantages and disadvantages of farmers, commercial, common and co-operative level storage structures were also identified. As the study area was a flood prone one, average 60% farmers were affected and average 8% stored grains were damaged by the flood of 2007. A total of 73% farmers and traders expressed their interest on co-operative storage system at the time of flood to store food grains with paying cost as they have no alternative storage facilities other than the proposed safely constructed co-operative storage structures. On the basis of the opinion of farmers and traders, the suitable location and type of storage structure were also proposed. A layout design and the cost of an operational storage structure for storing 60 metric tonnes of paddy and the possible management of the co-operative storage system were also proposed.DOI: http://dx.doi.org/10.3329/pa.v18i2.18244 Progress. Agric. 18(2): 223 - 233, 2007

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Wang, Botao, Jiahui Zhao, Xiaomao Sun, Heng Zhang, and Yihao Lv. "Liquid State CO2 Simulation Study of Storage Tank Storage Characteristics." Academic Journal of Science and Technology 3, no. 1 (October 11, 2022): 73–79. http://dx.doi.org/10.54097/ajst.v3i1.1963.

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Liquid CO is formulated for huang 3 well area of the fifth oil production Plant of Changqing Oilfield2Tank storage technology standard, the simulation study of the storage characteristics of the tank, through the study in the unloading, static storage, injection, tank in the process of the factors on the influence of the storage characteristics with the factors, combined with the actual field operation, develop a set of reasonable storage tank application technology, field application.

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Patonai, Zoltán, and Gábor Géczi. "Research of the internal environment of the military camp buildings." Science, Technology and Innovation 13, no. 2 (November 29, 2021): 35–40. http://dx.doi.org/10.5604/01.3001.0015.5654.

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One of the key tasks of this research work is to assess the carbon dioxide (CO₂) pollution in the resting areas of military camps under the current deployment conditions and to assess its impact on soldiers. In the process, the environmental impacts that affect the CO₂ concentration were researched in different rooms in different ways. In addition to the rest areas of a military camp, enumerating the major camp facilities that affect the “welfare” feeling of soldiers on foreign mission, we arrived at the kitchen complex and the work environment of the kitchen staff. One of the key parts of the camp kitchen complex is the food storage, where the raw materials needed for the supply are stored. Storage is very important in a crisis situation, when you have to be prepared to stay away from the homeland, to prevent any supply or procurement problems. A particularly important task in providing food raw materials is the so-called "Fresh" storage. The aim of the paper is to examine the changes in the CO₂ concentration of the camp storage room, which is of key importance in food supply, in the vegetable (fruit) storage places. By modeling at a measurement site set up in the laboratory of the host institution, we measure the CO₂ composition of the indoor air in the warehouse by placing various vegetables and fruits. The change of CO₂ concentration is examined separately for certain types of vegetables and fruits stored in closed storage rooms, taking into account the degree of effective storage capacity and determine the required fresh air value to ensure proper storage conditions. Finally, a mathematical model to simulate changes in storage conditions will be created, which offer help to plan of the military camp.

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Perazzolo, Francesca, Gabriele Mattachini, Fulvia Tambone, Aldo Calcante, and Giorgio Provolo. "Nutrient losses from cattle co-digestate slurry during storage." Journal of Agricultural Engineering 47, no. 2 (June 10, 2016): 94. http://dx.doi.org/10.4081/jae.2016.500.

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Among environmental issues related to intensive livestock activity, emissions to air from manure management are of increasing concern. Thus the knowledge of the effect of treatment application on subsequent emissions from manure is required to assess the environment impact of management solutions. This work addresses the effect of anaerobic digestion and phase separation on emissions during storage by studying nitrogen losses from lab-scale stores and field pilot-scale stores of a co-digestate cattle slurry and its respective separated fractions. Lab-scale experiment was carried in temperature-controlled room where each fraction (untreated, separated liquid and separated solid) was stored in duplicate for a period of 32 days in 30 L vessel. Pilot-scale experiment was carried out both during the cold season and during warm season for 90 days of storage. In both experimentations samples of the manure were analysed periodically for total Kjeldahl nitrogen (TKN), total ammonia nitrogen, dry matter and volatile solids and pH. These analyses allow estimating nitrogen losses in different storage conditions. Effects of mechanical separation and season were assessed by ANOVA (Wilcoxon test, P<0.05). In temperature controlled conditions nitrogen losses measured account for 13% and 26% of TKN for unseparated and separated slurries respectively. In field conditions during cold season nutrient losses were limited. On average unseparated and separated slurries lost respectively 6.8% and 12.6% of their initial TKN content. Much higher were the TKN losses from the slurries examined in warm season where losses raised up to 40% of the initial TKN content. Generally mechanical separation increases nutrient losses, but the differences were not significant in field conditions. The results highlighted that nutrient losses, in particular the nitrogen ones, can be considerable especially during summer storage. The latter, in case of separated slurries, are mainly related to the liquid fraction, which is responsible for up 92% of the losses. When phase separation after anaerobic digestion is used, mitigation options, as covers or slurry acidification, are advisable in order to limit the negative environmental impact.

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FEDERZONI, Veronica, Izabela Dutra ALVIM, Ana Lúcia FADINI, Lidiane Bataglia da SILVA, and Marise Bonifácio QUEIROZ. "Co-crystallization of paprika oleoresin and storage stability study." Food Science and Technology 39, suppl 1 (June 2019): 182–89. http://dx.doi.org/10.1590/fst.41617.

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Chadha, Kulvinder Singh. "UK co-ordinates research on carbon capture and storage." Physics World 25, no. 05 (May 2012): 12. http://dx.doi.org/10.1088/2058-7058/25/05/24.

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Kim, Hyun Jong, Soon Goo Hong, Hyung Rim Choi, and Min Je Cho. "Knowledge-storage Model for Regional Innovation with Co-creation." International Journal of u- and e- Service, Science and Technology 9, no. 1 (January 31, 2016): 253–64. http://dx.doi.org/10.14257/ijunesst.2016.9.1.27.

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Pan, Pengzhi, Zhenhua Wu, Xiating Feng, and Fei Yan. "Geomechanical modeling of CO 2 geological storage: A review." Journal of Rock Mechanics and Geotechnical Engineering 8, no. 6 (December 2016): 936–47. http://dx.doi.org/10.1016/j.jrmge.2016.10.002.

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Raphulu, Mpfunzeni, Jason McPherson, Gary Pattrick, Thabang Ntho, Lebohang Mokoena, John Moma, and Elma van der Lingen. "CO oxidation: Deactivation of Au/TiO2 catalysts during storage." Gold Bulletin 42, no. 4 (December 2009): 328–36. http://dx.doi.org/10.1007/bf03214955.

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Dursun, A., A. Kubar, A. Gokoz, F. Duru, and A. Gürgey. "Neutral lipid storage disease co-existing with ichthyosiform dermatosis." European Journal of Pediatrics 153, no. 3 (March 1994): 210–11. http://dx.doi.org/10.1007/bf01958994.

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Zhou, Yongning, Wenyuan Liu, Mingzhe Xue, Le Yu, Changliang Wu, Xiaojing Wu, and Zhengwen Fu. "LiF∕Co Nanocomposite as a New Li Storage Material." Electrochemical and Solid-State Letters 9, no. 3 (2006): A147. http://dx.doi.org/10.1149/1.2162341.

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Choi, Hyung Rim, Min Je Cho, Soon-Goo Hong, Doo-hwan Kim, and Hyun Jong Kim. "A Study on Co-creation based Knowledge Storage Design." International Journal of Database Theory and Application 10, no. 10 (October 31, 2017): 1–10. http://dx.doi.org/10.14257/ijdta.2017.10.10.01.

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Paksoy, Halime, Hunay Evliya, Saziye Bozdag, Muhsin Mazman, Yeliz Konuklu, Bekir Turgut, Ozgul Gok, Metin Yilmaz, Selma Yilmaz, and Beyza Beyhan. "CO_{2 mitigation with thermal energy storage}." International Journal of Global Warming 1, no. 1/2/3 (2009): 253. http://dx.doi.org/10.1504/ijgw.2009.027093.

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Al-Anssari, Sarmad, Muhammad Arif, Shaobin Wang, Ahmed Barifcani, Maxim Lebedev, and Stefan Iglauer. "CO 2 geo-storage capacity enhancement via nanofluid priming." International Journal of Greenhouse Gas Control 63 (August 2017): 20–25. http://dx.doi.org/10.1016/j.ijggc.2017.04.015.

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Zhao, Xiangyu, Liqun Ma, Yan Yao, Meng Yang, Yi Ding, and Xiaodong Shen. "Electrochemical energy storage of Co powders in alkaline electrolyte." Electrochimica Acta 55, no. 3 (January 2010): 1169–74. http://dx.doi.org/10.1016/j.electacta.2009.10.012.

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Mannodi-Kanakkithodi, Arun, Gregory M. Treich, Tran Doan Huan, Rui Ma, Mattewos Tefferi, Yang Cao, Gregory A. Sotzing, and Rampi Ramprasad. "Rational Co-Design of Polymer Dielectrics for Energy Storage." Advanced Materials 28, no. 30 (May 11, 2016): 6277–91. http://dx.doi.org/10.1002/adma.201600377.

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Loppies, Cindy R. M., Daniel A. N. Apituley, Raja B. D. Sormin, and Beni Setha. "KANDUNGAN MIOGLOBIN IKAN TUNA (Thunnus albacares) DENGAN PEMAKAIAN KARBON MONOKSIDA DAN FILTER SMOKE SELAMA PENYIMPANAN BEKU." INASUA: Jurnal Teknologi Hasil Perikanan 1, no. 1 (January 31, 2021): 12–20. http://dx.doi.org/10.30598/jinasua.2021.1.1.12.

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A part of fish flesh denaturation was caused by the formation of metmyoglobin, which resulted brownish color. Carbon monoxide (CO) and filtered smoke (FS) will react myoglobine to establish carboximyoglobine the stable form of red figment of tuna flesh. The purpose of this study was to determine the myoglobin changes of tuna flesh by treated CO and FS during frozen storage. The research method was an experimental where the tuna (Thunnus albacores) loin was sprayed by CO and FS, then kept at frozen storage during 4 weeks. Observations carried out at 0, 1, 2, 3 and 4 weeks. The surveillance parameters were: myoglobin content, color and protein profile of tuna loin. The result showed the myoglobin content of tuna loin during storage at 0, 1,2, 3, and 4 week were 31.34 mg%, 29.05 mg%, 31.25 mg%, 36.28mg% and 41.01 mg% respectively, while FS were 18.42 mg%, 20.82 mg%, 24.32 mg%, 34.72 mg% and 52.48mg% respectively. According to the color analysis of tuna loin treated by CO and FS, it indicated that the brightness value L* of the tuna loin treated by CO during storage at 0, 1, 2, 3, and 4 week were 26.33; 43.67; 36; 24.33; and 20.33 resvectively and treated by FS there were 30; 42; 37; 27, 25,and 67 resvectively. The red color based on a * and b * values calculated by oHue, of the tuna loin treated by CO during storage at 0, 1, 2, 3, and 4 week were 47.26; 55.41; 54.42; 46.52; and 42.09 respectively and the tuna loin treated by FS were 50.57; 55.82; 55.61; 50,81 and 40,47 respectively. It concluded that both tuna loin treated by CO and FS classified as red color. Profile of tuna loin protein treated by CO and FS obtained 2 bands indicated by molecular weights of 100.92 kD and 52.05 kD.The myoglobin content of tuna treaded by CO and FS during storage increased so it categorized as a good quality.

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Ahsan, Hafiz Muhammad, Kanhya Lal, Murtaza Saleem, Ghulam M. Mustafa, Muhammad Ahmad Khan, Ahmed S. Haidyrah, and Shahid Atiq. "Tuning the dielectric behavior and energy storage properties of Mn/Co co-doped ZnO." Materials Science in Semiconductor Processing 134 (November 2021): 105977. http://dx.doi.org/10.1016/j.mssp.2021.105977.

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Fiedler, Jan, Michèle Salmain, Gérard Jaouen, and Lubomı́r Pospı́šil. "Purification of gaseous CO from Fe(CO)5 traces formed in steel storage cylinders." Inorganic Chemistry Communications 4, no. 11 (November 2001): 613–16. http://dx.doi.org/10.1016/s1387-7003(01)00287-8.

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Jiang, Lanlan, Minghao Yu, Yu Liu, Mingjun Yang, Yi Zhang, Ziqiu Xue, Tetsuya Suekane, and Yongchen Song. "Behavior of CO 2 /water flow in porous media for CO 2 geological storage." Magnetic Resonance Imaging 37 (April 2017): 100–106. http://dx.doi.org/10.1016/j.mri.2016.11.002.

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Gao, Shasha, Yanbin Wang, Lilong Jia, Hongjie Wang, Jun Yuan, and Xianghao Wang. "CO 2 –H 2 O–coal interaction of CO 2 storage in coal beds." International Journal of Mining Science and Technology 23, no. 4 (July 2013): 525–29. http://dx.doi.org/10.1016/j.ijmst.2013.07.010.

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André, Laurie, Stéphane Abanades, and Laurent Cassayre. "Mixed Metal Oxide Systems Applied to Thermochemical Storage of Solar Energy: Benefits of Secondary Metal Addition in Co and Mn Oxides and Contribution of Thermodynamics." Applied Sciences 8, no. 12 (December 14, 2018): 2618. http://dx.doi.org/10.3390/app8122618.

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Thermochemical energy storage is promising for the long-term storage of solar energy via chemical bonds using reversible redox reactions. The development of thermally-stable and redox-active materials is needed, as single metal oxides (mainly Co and Mn oxides) show important shortcomings that may delay their large-scale implementation in solar power plants. Drawbacks associated with Co oxide concern chiefly cost and toxicity issues while Mn oxide suffers from slow oxidation kinetics and poor reversibility. Mixed metal oxide systems could alleviate the above-mentioned issues, thereby achieving improved materials characteristics. All binary oxide mixtures of the Mn-Co-Fe-Cu-O system are considered in this study, and their properties are evaluated by experimental measurements and/or thermodynamic calculations. The addition of Fe, Cu or Mn to cobalt oxide decreased both the oxygen storage capacity and energy storage density, thus adversely affecting the performance of Co3O4/CoO. Conversely, the addition of Fe, Co or Cu (with added amounts above 15, 40 and 30 mol%, respectively) improved the reversibility, re-oxidation rate and energy storage capacity of manganese oxide. Computational thermodynamics was applied to unravel the governing mechanisms and phase transitions responsible for the materials behavior, which represents a powerful tool for predicting the suitability of mixed oxide systems applied to thermochemical energy storage.

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Nauer, Philipp A., Eleonora Chiri, Thanavit Jirapanjawat, Chris Greening, and Perran L. M. Cook. "Technical note: Inexpensive modification of Exetainers for the reliable storage of trace-level hydrogen and carbon monoxide gas samples." Biogeosciences 18, no. 2 (January 29, 2021): 729–37. http://dx.doi.org/10.5194/bg-18-729-2021.

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Abstract. Atmospheric trace gases such as dihydrogen (H2), carbon monoxide (CO) and methane (CH4) play important roles in microbial metabolism and biogeochemical cycles. Analysis of these gases at trace levels requires reliable storage of discrete samples of low volume. While commercial sampling vials such as Exetainers® have been tested for CH4 and other greenhouse gases, no information on reliable storage is available for H2 and CO. We show that vials sealed with butyl rubber stoppers are not suitable for storing H2 and CO due to release of these gases from rubber material. Treating butyl septa with NaOH reduced trace-gas release, but contamination was still substantial, with H2 and CO mixing ratios in air samples increasing by a factor of 3 and 10 after 30 d of storage in conventional 12 mL Exetainers. All tested materials showed a near-linear increase in H2 and CO mixing ratios, indicating a zero-order reaction and material degradation as the underlying cause. Among the rubber materials tested, silicone showed the lowest potential for H2 and CO release. We thus propose modifying Exetainers by closing them with a silicone plug to minimise contamination and sealing them with a stainless-steel bolt and O-ring as a secondary diffusion barrier for long-term storage. Such modified Exetainers exhibited stable mixing ratios of H2 and CH4 exceeding 60 d of storage at atmospheric and elevated (10 ppm) mixing ratios. The increase of CO was still measurable but was 9 times lower than in conventional Exetainers with treated septa; this can be corrected for due to its linearity by storing a standard gas alongside the samples. The proposed modification is inexpensive, scalable and robust, and thus it enables reliable storage of large numbers of low-volume gas samples from remote field locations.

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Zahasky, Christopher, and Samuel Krevor. "Global geologic carbon storage requirements of climate change mitigation scenarios." Energy & Environmental Science 13, no. 6 (2020): 1561–67. http://dx.doi.org/10.1039/d0ee00674b.

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Growth rate analysis indicates IPCC 2100 storage targets are achievable, however tradeoffs exist between CO₂ storage resource requirements, storage growth rate, and growth duration, with a ceiling on required storage resources of 2700 Gt.

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Jun, Areum, Young-Wan Ju, and Guntae Kim. "Solid oxide electrolysis: Concluding remarks." Faraday Discussions 182 (2015): 519–28. http://dx.doi.org/10.1039/c5fd90072g.

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Renewable energy resources such as solar energy, wind energy, hydropower or geothermal energy have attracted significant attention in recent years. Renewable energy sources have to match supply with demand, therefore it is essential that energy storage devices (e.g., secondary batteries) are developed. However, secondary batteries are accompanied with critical problems such as high cost for the limited energy storage capacity and loss of charge over time. Energy storage in the form of chemical species, such as H₂ or CO₂, have no constraints on energy storage capacity and will also be essential. When plentiful renewable energy exists, for example, it could be used to convert H₂O into hydrogen via water electrolysis. Also, renewable energy resources could be used to reduce CO₂ into CO and recycle CO₂ and H₂O into sustainable hydrocarbon fuels in solid oxide electrolysis (SOE).

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Ma, Zhi Hong, Bo Li, Dong Liang Zhao, Hui Ping Ren, Guo Fang Zhang, and Yang Huan Zhang. "Improved the Physical and Electrochemical Hydrogen Storage Kinetics of Mg₂Ni-Type Alloys by Substituting Ni with Co and Melt Spinning." Advanced Materials Research 415-417 (December 2011): 1565–71. http://dx.doi.org/10.4028/www.scientific.net/amr.415-417.1565.

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In this paper, melt-spinning technology was used for preparing Mg20Ni10-xCox (x = 0, 1, 2, 3, 4) hydrogen storage alloys. The influences of both the Co substitution and the melt spinning on the the physical and electrochemical hydrogen storage kinetics of the alloys were investigated. The XRD, SEM and TEM characterization exhibits that the as-spun Co-free alloy holds a typical nanocrystalline structure, whereas the as-spun alloys substituted by Co display a nanocrystalline and amorphous structure, confirming that the substitution of Co for Ni facilitates the glass formation in the Mg2Ni-type alloy. The Co substitution gives rise to forming secondary phase MgCo2 without altering the Mg2Ni major phase of the alloys. The measurement of the physical and electrochemical hydrogen storage kinetics of the alloys shows that both the melt spinning and the substitution of Co for Ni markedly improve the physical hydriding and dehydriding kinetics and the electrochmeical kinetics (HRD) of the alloys.

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Arranz, José Ignacio, María Teresa Miranda, Irene Montero, Sergio Nogales, and Francisco José Sepúlveda. "Influence Factors on Carbon Monoxide Accumulation in Biomass Pellet Storage." Energies 12, no. 12 (June 18, 2019): 2323. http://dx.doi.org/10.3390/en12122323.

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During biomass storage, some gases can be produced and reach dangerous levels to human health. Among them, carbon monoxide is especially worrying, due to its potentially lethal effects and its contribution to the greenhouse effect. High levels of this gas could be reached, depending on many factors, such as unsuitable ventilation in storage areas or raw material characteristics. The aim of this research study was to assess the levels of CO produced during pellet storage at a laboratory scale, depending on the ventilation conditions (changing the amount of sample and frequency), the pellet characteristics (eucalyptus and cork residue pellets), and variables that influence CO levels. A greater number of pellets (when not ventilated) increased CO levels and discontinuous ventilation did not reduce these levels once the space was isolated again. Cork samples provoked higher CO emissions, possibly due to its higher fat content and surface area, which promotes the interaction between air and fatty acids (that is, the auto-oxidation of the samples and the subsequent release of CO). Consequently, continuous and good ventilation is required, especially until CO production from wood auto-oxidation is complete.

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Chen, Sai, Yue Yu, Ruirui Cao, Haihui Liu, and Xingxiang Zhang. "Fabrication and Characterization of Novel Shape-Stabilized Phase Change Materials Based on P(TDA-co-HDA)/GO Composites." Polymers 11, no. 7 (July 1, 2019): 1113. http://dx.doi.org/10.3390/polym11071113.

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Shape-stabilized phase change materials (SPCMs) are green, reusable energy storage materials. Because the melting temperature of n-alkyl acrylate copolymer is adjustable by controlling the side-chain length, the appropriate melting temperature can be achieved. Poly(tetradecyl acrylate-co-hexadecyl acrylate) (P(TDA-co-HDA)) with a molar ratio of 1:1 and SPCMs were fabricated via an atom transfer radical polymerization (ATRP) method and a solution blending method with P(TDA-co-HDA) as a thermal storage material and graphene oxide (GO) as a supporting substance. In this composite, an SPCM was achieved, which absorbed heat at 29.9 °C and released it at 12.1 °C with a heat storage capacity of 70 J/g at a mass ratio of GO of 10%. The material retained its shape without any leakage at 60 °C, which was much higher than that of the melting temperature of P(TDA-co-HDA). The SPCMs exhibited good crystallization behaviors and excellent thermal reliabilities after 100 thermal cycles. The thermal properties of the P(TDA-co-HDA)/GO composite PCMs with various GO loadings were also investigated. The novel shape-stabilized PCMs fabricated in this study have potential uses in thermal energy storage applications.

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44

Hajjar, Roger A., Te‐ho Wu, and M. Mansuripur. "Magnetoresistance of Co/Pd and Co/Pt multilayer films for magneto‐optical data storage applications." Journal of Applied Physics 70, no. 10 (November 15, 1991): 6041–43. http://dx.doi.org/10.1063/1.350065.

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Bjorkegren, A. B., C. S. B. Grimmond, S. Kotthaus, and B. D. Malamud. "CO 2 emission estimation in the urban environment: Measurement of the CO 2 storage term." Atmospheric Environment 122 (December 2015): 775–90. http://dx.doi.org/10.1016/j.atmosenv.2015.10.012.

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Zhou, Yingfang, Dimitrios G. Hatzignatiou, and Johan O. Helland. "On the estimation of CO 2 capillary entry pressure: Implications on geological CO 2 storage." International Journal of Greenhouse Gas Control 63 (August 2017): 26–36. http://dx.doi.org/10.1016/j.ijggc.2017.04.013.

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Xie, Jiafang, Zhen Zhou, and Yaobing Wang. "Metal–CO 2 Batteries at the Crossroad to Practical Energy Storage and CO 2 Recycle." Advanced Functional Materials 30, no. 9 (December 23, 2019): 1908285. http://dx.doi.org/10.1002/adfm.201908285.

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48

Dhumal, Ravindra, Shamkant Shimpi, and Anant Paradkar. "Development of spray-dried co-precipitate of amorphous celecoxib containing storage and compression stabilizers." Acta Pharmaceutica 57, no. 3 (September 1, 2007): 287–300. http://dx.doi.org/10.2478/v10007-007-0023-7.

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Development of spray-dried co-precipitate of amorphous celecoxib containing storage and compression stabilizersThe purpose of this study was to obtain an amorphous system with minimum unit operations that will prevent recrystallization of amorphous drugs since preparation, during processing (compression) and further storage. Amorphous celecoxib, solid dispersion (SD) of celecoxib with polyvinyl pyrrollidone (PVP) and co-precipitate with PVP and carrageenan (CAR) in different ratios were prepared by the spray drying technique and compressed into tablets. Saturation solubility and dissolution studies were performed to differentiate performance after processing. Differential scanning calorimetry and X-ray powder difraction revealed the amorphous form of celecoxib, whereas infrared spectroscopy revealed hydrogen bonding between celecoxib and PVP. The dissolution profile of the solid dispersion and co-precipitate improved compared to celecoxib and amorphous celecoxib. Amorphous celecoxib was not stable on storage whereas the solid dispersion and co-precipitate powders were stable for 3 months. Tablets of the solid dispersion of celecoxib with PVP and physical mixture with PVP and carrageenan showed better resistance to recrystallization than amorphous celecoxib during compression but recrystallized on storage. However, tablets of co-precipitate with PVP and carageenan showed no evidence of crystallinity during stability studies with comparable dissolution profiles. This extraordinary stability of spray-dried co-precipitate tablets may be attributed to the cushioning action provided by the viscoelastic polymer CAR and hydrogen bonding interaction between celecoxib and PVP. The present study demonstrates the synergistic effect of combining two types of stabilizers, PVP and CAR, on the stability of amorphous drug during compression and storage as compared to their effect when used alone.

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Kim, Myung-Yeop. "A Study on Legal Improvement of Exploration and Drilling for CO₂Storage Site." Korean Public Land Law Association 100 (November 30, 2022): 557–78. http://dx.doi.org/10.30933/kpllr.2022.100.557.

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The global investment in carbon capture, utilization and storage (CCUS) is increasing in an attempt to reach carbon neutrality by 2050. Korea is pushing for a project to install the country's first commercial-scale carbon capture storage facilities in a gas field in the East Sea in 2021. Successfully deploying CCUS relies on the establishment of legal and regulatory frameworks to ensure the effective stewardship of CCUS activities and the safe and secure storage of CO₂But which are yet to establish a legal foundation for CCUS, and particularly for Regulations relating to exploitation of CO₂storage site. The CCUS Act requires separate provisions for exploration and drilling. CCUS cost is the most significant hurdle in investment for exploration and drilling of CO₂storage site. Article 140 of the Restriction of Special Taxation Act shall be amended to exempt tariffs and value-added taxes on equipment for exploration and drilling of carbon dioxide storage. The management agency of public waters shall collect occupancy or use fees of pubic waters each year from a person who has obtained an occupancy or use permit or the consultation or approval for occupancy or use of public waters, as prescribed by Presidential Decree: Provided, That reductions or exemptions of occupancy or use fees may be granted, as prescribed by Presidential Decree in any of the following cases. In reference to Article 13 of the Public Waters Management and Reclamation Act, Where who occupies or uses public waters to install or operate energy facilities falling under Article 2 of the Act on the Promotion of the Development, Use and Diffusion of New and Renewable Energy. By applying this provision, because exploration and drilling is not mining in the sea, occupancy fees imposed on holder of exploration licence for CO₂storage site should be reduced or exempted.

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Kim, Myung-Yeop. "A Study on Legal Improvement of Exploration and Drilling for CO₂Storage Site." Korean Public Land Law Association 100 (November 30, 2022): 557–78. http://dx.doi.org/10.30933/kpllr.2022.100.557.

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Abstract:

The global investment in carbon capture, utilization and storage (CCUS) is increasing in an attempt to reach carbon neutrality by 2050. Korea is pushing for a project to install the country's first commercial-scale carbon capture storage facilities in a gas field in the East Sea in 2021. Successfully deploying CCUS relies on the establishment of legal and regulatory frameworks to ensure the effective stewardship of CCUS activities and the safe and secure storage of CO₂But which are yet to establish a legal foundation for CCUS, and particularly for Regulations relating to exploitation of CO₂storage site. The CCUS Act requires separate provisions for exploration and drilling. CCUS cost is the most significant hurdle in investment for exploration and drilling of CO₂storage site. Article 140 of the Restriction of Special Taxation Act shall be amended to exempt tariffs and value-added taxes on equipment for exploration and drilling of carbon dioxide storage. The management agency of public waters shall collect occupancy or use fees of pubic waters each year from a person who has obtained an occupancy or use permit or the consultation or approval for occupancy or use of public waters, as prescribed by Presidential Decree: Provided, That reductions or exemptions of occupancy or use fees may be granted, as prescribed by Presidential Decree in any of the following cases. In reference to Article 13 of the Public Waters Management and Reclamation Act, Where who occupies or uses public waters to install or operate energy facilities falling under Article 2 of the Act on the Promotion of the Development, Use and Diffusion of New and Renewable Energy. By applying this provision, because exploration and drilling is not mining in the sea, occupancy fees imposed on holder of exploration licence for CO₂storage site should be reduced or exempted.

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Journal articles on the topic 'CO₂storage'

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