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Journal articles on the topic 'Conversion process'

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Published: 4 June 2021
Last updated: 30 May 2022

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1

Ved`, Valeriy, Leonid Tovazhnyanskiy, Yevgeniy Krasnokutskiy, and Vadim Koshchiy. "Modelling of Hydrocarbons Catalytic Conversion Process." Chemistry & Chemical Technology 9, no. 1 (March 15, 2015): 101–6. http://dx.doi.org/10.23939/chcht09.01.101.

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2

Jingui Ma, Jingui Ma, Jing Wang Jing Wang, Peng Yuan Peng Yuan, Guoqiang Xie Guoqiang Xie, and and Liejia Qian and Liejia Qian. "Origin and suppression of back conversion in a phase-matched nonlinear frequency down-conversion process." Chinese Optics Letters 15, no. 2 (2017): 021901–21904. http://dx.doi.org/10.3788/col201715.021901.

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3

Rousseau, Philip. "Conversion—A Social Process." Classical Review 55, no. 1 (March 2005): 290–92. http://dx.doi.org/10.1093/clrevj/bni161.

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4

Galstyan, Anahit. "Conversion in the Process of Assimilation of Loan-Words." Armenian Folia Anglistika 2, no. 1-2 (2) (October 16, 2006): 51–54. http://dx.doi.org/10.46991/afa/2006.2.1-2.051.

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Conversion is one of the most productive means of word-formation which has immensely contributed to the morphological assimilation of the words borrowed from French. On the other hand, conversion is the result of the assimilation of the loan-words form French and from other languages. As a result of the semantic, phonetic, morphological assimilation of the loan-words, Modern English abounds in the so-called converted pairs and converted triples which are viewed as false conversions.
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5

Nam, Sung Hyuk. "Biblical Paradigms of Christian Conversion: Encounter and Process Conversion." Mission and Theology 48 (June 30, 2019): 179–216. http://dx.doi.org/10.17778/mat.2019.06.48.179.

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6

Halama, Peter, and Júlia Halamová. "Process of Religious Conversion in the Catholic Charismatic Movement: A Qualitative Analysis." Archive for the Psychology of Religion 27, no. 1 (January 2005): 69–91. http://dx.doi.org/10.1163/008467206774355385.

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The study deals with a religious conversion of members of the Catholic Charismatic movement. This movement is characterised by the integration of those aspects of spirituality, which draw on traditional religious life as well as on the spirituality of new religious movements. The consensual qualitative research was used for analyses of thirty stories of personal conversions from the members of this movement. The stories were described in a public bulletin, published by the movement. They were analysed in regard to the precedents of conversion, course of conversion and the consequences of conversion in personal life. The results of analysis showed that the typical process of religious conversion in this movement is preceded by some contact with religious issues in childhood and experiencing some problem in the period before conversion. The conversion is stimulated by meeting a religious person and attendance at prayer meetings, which lead to the experience of God's presence, and a cognitive insight into religious matters. Consequences of conversion include radical changes in spiritual life, increasing subjective well-being, improving social life and solving the antecedent problem. The results are discussed with regard to the previous theories and research on religious conversion as well as their limitations originating from the nature of the data.
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7

da Silva, C. G., I. C. P. Margarit-Mattos, O. R. Mattos, H. Perrot, B. Tribollet, and V. Vivier. "The molybdate–zinc conversion process." Corrosion Science 51, no. 1 (January 2009): 151–58. http://dx.doi.org/10.1016/j.corsci.2008.10.019.

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8

Myltykbayeva, L. K., K. Dossumov, G. E. Yergaziyeva, M. M. Telbayeva, А. Zh Zhanatova, N. А. Assanov, N. Makayeva, and Zh Shaimerden. "Catalysts for methane conversion process." BULLETIN of the L.N. Gumilyov Eurasian National University. Chemistry. Geography. Ecology Series 134, no. 1 (2021): 44–53. http://dx.doi.org/10.32523/2616-6771-2021-134-1-44-53.

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The article describes current trends in the catalytic processing of natural gas such as partial and deep, also steam oxidation of methane and methane decomposition. Kazakhstan is rich in large energy resources. Therefore, it is important to create new gas chemical technologies that will allow gas resources to produce valuable chemical products. Currently, processes based on these reactions have not been introduced into production. There are highlighted catalyst systems for each reaction that provides good performance. The oxide catalysts based on metals of variable valency are effective in all processes. In the future, it is important to increase the activity of these catalysts. The catalysts were prepared by impregnating the carrier capillary (γ-Al2O3) by incipient wetness and subsequently dried at 2000C (2 h) and calcination at 5000C for three hours. In this article, a catalyst based on nickel-zirconium (3%NiО-2%ZrО2) is active in the partial oxidation of methane to obtain synthesis gas. On this catalyst, the reaction products are H2 - 60.5 vol.%, CO - 30.5 vol.%. On a 3%NiО-7%Со2О3-0,5%Сe2O3 catalyst in the reaction of DRY conversion methane 95.6% and the yield of hydrogen and carbon monoxide is 47.0 and 45.9 vol%, respectively. 29.6% methane is converted even at low temperatures (350°C) on catalyst 3%NiО-2%СеО2/γ-Al2O3 modified with cerium oxide in the reaction of deep oxidation of methane. Iron-based catalysts for the reaction of decomposition of methane to hydrogen gas are effective. On 5 wt.% Fe/ɣ-Al2O3 catalyst at 700°C of reaction of methane conversion was 2%, with an increase in the reaction temperature to 850°C, the methane conversion reached 13%, and the hydrogen yield is increased to 5.8 vol.%.
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9

Plesnetsov, S. Yu, O. N. Petrishchev, R. P. Mygushchenko, and G. M. Suchkov. "SIMULATION OF ELECTROMAGNETIC-ACOUSTIC CONVERSION PROCESS UNDER TORSION WAVES EXCITATION. Part 2." Tekhnichna Elektrodynamika 2018, no. 01 (January 15, 2018): 30–36. http://dx.doi.org/10.15407/techned2018.01.030.

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10

Kohmoto, Kohtaro. "High-efficient photobiological energy conversion process." JOURNAL OF THE ILLUMINATING ENGINEERING INSTITUTE OF JAPAN 79, Appendix (1995): 333–34. http://dx.doi.org/10.2150/jieij1980.79.appendix_333.

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11

Holcroft, Gillian, Lucy Rosato, Michel Perrier, and Dimitri Berk. "Dynamics of the Jarosite Conversion Process." IFAC Proceedings Volumes 28, no. 9 (June 1995): 159–64. http://dx.doi.org/10.1016/s1474-6670(17)47033-9.

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12

Zhuang, X., C. M. Leung, J. Li, and D. Viehland. "Power conversion process in magnetoelectric gyrators." Applied Physics Letters 111, no. 10 (September 4, 2017): 103902. http://dx.doi.org/10.1063/1.4999371.

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13

Liu Jian-Hui, Liu Qiang, and Gong Ma-Li. "Back conversion in optical parametric process." Acta Physica Sinica 60, no. 2 (2011): 024215. http://dx.doi.org/10.7498/aps.60.024215.

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14

Chavan, Subhash. "The Year 2000 Date Conversion Process." Software Process: Improvement and Practice 2, no. 2 (June 1996): 111–22. http://dx.doi.org/10.1002/(sici)1099-1670(199606)2:2<111::aid-spip41>3.0.co;2-v.

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15

Aksenov, D. G., O. V. Klimov, G. V. Echevskii, E. A. Paukshtis, and A. A. Budneva. "Thiophene conversion in the BIMF process." Reaction Kinetics and Catalysis Letters 83, no. 1 (2004): 187–94. http://dx.doi.org/10.1023/b:reac.0000037393.85994.cf.

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16

Baxter, Matthew H. "Two Concepts of Conversion at Meenakshipuram." Comparative Studies of South Asia, Africa and the Middle East 39, no. 2 (August 1, 2019): 264–81. http://dx.doi.org/10.1215/1089201x-7586786.

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AbstractThe 1981 Dalit mass conversion to Islam at Meenakshipuram, Tamil Nadu, arguably began the Hindu Right's political rise. The conversion raises two different concepts for understanding mass conversion's relationship to democracy. Though it is commonly framed in terms of B. R. Ambedkar's thought, whereby conversion's core is an interior psychic process of changing principles to see the world differently, I suggest that Meenakshipuram's event may more appropriately be framed by E. V. Ramasami's [EVR] thought, whereby conversion's core is an exterior somatic process of changing appearances to be seen differently in the world. These concepts of conversion raise alternative engagements with issues of text, force, foreignness, time, and Marxism. The argument is prefaced by a discussion of freedom's typology (Berlin), subaltern representation (Spivak), and religious mass (Geertz/Asad), which I argue favors EVR's concept of conversion over Ambedkar's. Such issues are not unimportant in an age of rising right-wing populisms globally.
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17

Lawson, Mark J., Jian Jiao, Weiguo Fan, and Liqing Zhang. "A Pattern Analysis of Gene Conversion Literature." Comparative and Functional Genomics 2009 (2009): 1–11. http://dx.doi.org/10.1155/2009/761512.

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Gene conversion is an important biological process that involves the transfer of genetic (sequence) information from one gene to another. This can have a variety of effects on an organism, both short-term and long-term and both positive and detrimental. In an effort to better understand this process, we searched through over 3,000 abstracts that contain research on gene conversions, tagging the important data and performing an analysis on what we extract. Through this we established trends that give a better insight into gene conversion research and genetic research in general. Our results show the importance of the process and the importance of continuing gene conversion research.
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18

Sanneh, Lamin, and Grant Wacker. "Christianity Appropriated: Conversion and the Intercultural Process." Church History 68, no. 4 (December 1999): 954–61. http://dx.doi.org/10.2307/3170211.

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19

Lacroix, Roland. "Conversion – The Act, the Process and Accompaniment." Person and the Challenges. The Journal of Theology, Education, Canon Law and Social Studies Inspired by Pope John Paul II 6, no. 2 (December 1, 2016): 261. http://dx.doi.org/10.15633/pch.1905.

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20

SEKI, Hirakazu, and Tomoaki KOMORI. "Structure of Energy Conversion in Composting Process." Journal of Agricultural Meteorology 48, no. 3 (1992): 225–35. http://dx.doi.org/10.2480/agrmet.48.225.

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21

Misiaszek, Marta, Andrzej Gajewski, and Piotr Kolenderski. "Dispersion measurement method with down conversion process." Journal of Physics Communications 2, no. 6 (June 27, 2018): 065014. http://dx.doi.org/10.1088/2399-6528/aaccac.

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22

Sharma, S. K., and N. C. Mehra. "NICKEL-COBALT SELECTIVE COATINGS BY CONVERSION PROCESS." Materials and Manufacturing Processes 4, no. 4 (January 1989): 579–602. http://dx.doi.org/10.1080/10426918908956316.

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23

Wicks, A. L., and S. O'F Fahey. "THE PROCESS OF ANALOG-TO-DIGITAL CONVERSION." Experimental Techniques 23, no. 6 (November 1999): 42–43. http://dx.doi.org/10.1111/j.1747-1567.1999.tb01319.x.

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24

Bhavani, Kompalli, and Sivanesan Murugesan. "Diesel to Dual Fuel Conversion Process Development." International Journal of Engineering & Technology 7, no. 3.6 (July 4, 2018): 306. http://dx.doi.org/10.14419/ijet.v7i3.6.15121.

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This paper aims to develop a process for conversion of Diesel Engine for Dual Fuel operation which is basically designed to reduce the economic costs and pollutant Emissions. The increasing cost of Diesel Fuel leads to the necessity of an Alternate fuel, i.e Compressed Natural gas (CNG). In this research a 16 cylinder, 50.25liter, Turbocharged After cooler V-shaped Engine is used for the conversion into Dual Fuel Engine. Dual fuel engine can be operated on both Diesel and CNG modes simultaneously. In this Engine the Air and CNG are mixed in required ratios in an Air- Gas mixer and the mixture is injected into the Combustion chamber. As Gaseous fuel CNG cannot self-ignite itself because of its high Auto ignition temperature a required amount of Diesel is injected into the Combustion Chamber at the end of compression stroke for ignition purpose which is known as Secondary fuel or a PILOTFUEL. This paper tries to show the process development of converting Diesel Engine for dual fuel operation on multiple platforms.
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25

Bi, Chong-hao, Min Min, Yong Nie, Qing-long Xie, Qian Lu, Xiang-yuan Deng, Erik Anderson, Dong Li, Paul Chen, and Roger Ruan. "Process development for scum to biodiesel conversion." Bioresource Technology 185 (June 2015): 185–93. http://dx.doi.org/10.1016/j.biortech.2015.01.081.

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26

Rutkowski, L. "Nonparametric Identification of the CO Conversion Process." IFAC Proceedings Volumes 18, no. 15 (October 1985): 67–69. http://dx.doi.org/10.1016/b978-0-08-033431-8.50016-6.

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27

Firus, K. O., K. V. Anisimova, N. G. Glavatskikh, O. B. Porobova, Ye V. Maksimova, A. B. Spiridonov, and T. S. Kopysova. "Intensification of the animal waste conversion process." Bulletin of Izhevsk State Agricultural Academy, no. 2 (2021): 65–70. http://dx.doi.org/10.48012/1817-5457_2021_2_65.

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28

Pandiyan, Arunkumar, Vasileios Kyriakou, Dragos Neagu, Stefan Welzel, Adelbert Goede, Mauritius C. M. van de Sanden, and Mihalis N. Tsampas. "CO2 conversion via coupled plasma-electrolysis process." Journal of CO2 Utilization 57 (March 2022): 101904. http://dx.doi.org/10.1016/j.jcou.2022.101904.

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29

Sun, Hui, Hong Bo Xia, Qun Yang, Shuai Du, Dan Dan Song, and Hai Zhou Chang. "Investigation of Sulfur Transformation during Coking Process." Advanced Materials Research 881-883 (January 2014): 228–33. http://dx.doi.org/10.4028/www.scientific.net/amr.881-883.228.

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Twenty-four kinds of coking coals which have different ranks are selected to investigate the sulfur transformation during coking process. The form sulfur in coals and cokes are determined by wet chemical method. The results show that the conversion of total sulfur during coal coking process is influenced by volatile content of coal and the content of the inertinite. The conversion of total sulfur is high for the large volatile content in coal. There is some linear correlation between the average conversion of total sulfur and the average inertinite content, this paper presents that the average conversion of total sulfur is high for the low average inertinite content. We also foud that coke sulfur depends primarily on the amount of coal sulfur, and the transformed capability of sulfide sulfur is stronger than that of the organic sulfur conversion for coal during coking process.
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30

Ganderton, P. "Modelling the Land Conversion Process: A Realist Perspective." Environment and Planning A: Economy and Space 26, no. 5 (May 1994): 803–19. http://dx.doi.org/10.1068/a260803.

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Land conversion is a difficult issue to resolve at either a theoretical or a practical level. By virtue of the range and diversity of information there are problems in synthesising data to obtain accurate models. It is argued that as a result many models of the conversion process are partial. With data obtained from studies in Basingstoke and Deane District, Hampshire, a new model, based on realist perspectives such as those of Lévi-Strauss, is proposed. It is argued that such a perspective offers a more accurate insight into land conversion.
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31

Xu, Ji Hui, Xin Wang, Jing Wang, and Qiu Ju Zheng. "Study on Technological Process of Cerium-Based Conversion Coating on Aluminum." Advanced Materials Research 79-82 (August 2009): 879–82. http://dx.doi.org/10.4028/www.scientific.net/amr.79-82.879.

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The Cerium-based conversion coating is formed on the industrial aluminum(1060) by using chemical immersion. The microstructures of the conversion coating have been examined by scanning electron microscopy(SEM). The electrochemical measurement result shows that the corrosion resistance of aluminum is significantly improved after the conversion coating was formed. The result of X-ray photoelectron spectroscopy (XPS) shows that the cerium conversion coating mainly consisted of oxide of aluminum, CeO2 and TiO2. The formation mechanism of the Cerium-based conversion coating is investigated.
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32

Chen, L., T. Yang, H. Yang, and L. Wang. "Мechanism conversion process and timeliness of N2-ECBM." Mining of Mineral Deposits 12, no. 4 (December 30, 2018): 90–99. http://dx.doi.org/10.15407/mining12.04.090.

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33

Wiramuda, P. "The Meaning of Experiences of Religious Conversion Process." KnE Social Sciences 3, no. 5 (May 23, 2018): 474. http://dx.doi.org/10.18502/kss.v3i5.2350.

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34

Greene, Richard P. "The farmland conversion process in a polynucleated metropolis." Landscape and Urban Planning 36, no. 4 (May 1997): 291–300. http://dx.doi.org/10.1016/s0169-2046(96)00360-x.

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35

Cook, Karen S. "Conversion to Kingdom Living: Catechumenate as Confirmation Process." Liturgy 22, no. 1 (February 2007): 5–10. http://dx.doi.org/10.1080/04580630600993160.

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36

Smith, Aaron C. T., and Bob Stewart. "BECOMING BELIEVERS: STUDYING THE CONVERSION PROCESS FROM WITHIN." Zygon® 46, no. 4 (November 24, 2011): 806–34. http://dx.doi.org/10.1111/j.1467-9744.2011.01226.x.

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37

Stefanac, Dale R. "Process quality in manufacturing PV power conversion products." Progress in Photovoltaics: Research and Applications 7, no. 3 (May 1999): 175–82. http://dx.doi.org/10.1002/(sici)1099-159x(199905/06)7:3<175::aid-pip267>3.0.co;2-7.

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38

Liu, Jinhui, Chen Zhao, Fangzhou Du, and Xuwen Liu. "Code Conversion Method on Process-in-Memory Platform." Journal of Physics: Conference Series 1670 (November 2020): 012020. http://dx.doi.org/10.1088/1742-6596/1670/1/012020.

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39

Drexler-Dreis, Joseph. "Nat Turner’s Rebellion as a Process of Conversion." Black Theology 12, no. 3 (November 2014): 230–50. http://dx.doi.org/10.1179/1476994814z.00000000037.

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40

Povilaynen, A. "Debarking as a flexible technological process of conversion." Актуальные направления научных исследований XXI века: теория и практика 3, no. 2 (March 17, 2015): 286–89. http://dx.doi.org/10.12737/10143.

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41

Liqing, Ren, Li Yongfang, Li Baihong, Wang Lei, and Wang Zhaohua. "Adiabatic and diabatic process of sum frequency conversion." Optics Express 18, no. 19 (September 10, 2010): 20428. http://dx.doi.org/10.1364/oe.18.020428.

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42

Siegler, Gretchen. "The Process of Conversion: A Transformation of Consciousness." Anthropology of Consciousness 4, no. 3 (September 1993): 10–13. http://dx.doi.org/10.1525/ac.1993.4.3.10.

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43

Tarasjuk, Jurij F. "The conversion process in the laws of Russia." MOCT-MOST Economic Policy in Transitional Economies 2, no. 2 (1992): 95–99. http://dx.doi.org/10.1007/bf01101810.

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44

Patrick Lee, K. C., Millicent Bulls, John Holmes, and John W. Barrier. "Hybrid process for the conversion of lignocellulosic materials." Applied Biochemistry and Biotechnology 66, no. 1 (April 1997): 1–23. http://dx.doi.org/10.1007/bf02788803.

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45

Yi, Sang-Ho, Woon-Jae Lee, Young-Seok Lee, and Wan-Ho Kim. "Hydrogen-Based Reduction Ironmaking Process and Conversion Technology." Korean Journal of Metals and Materials 59, no. 1 (January 5, 2021): 41–53. http://dx.doi.org/10.3365/kjmm.2021.59.1.41.

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This study analyzed the current state of technical development of the BF-based process, to determine ways to reduce carbon consumption. The technical features of the hydrogen reduction ironmaking process were also examined as a decarbonized ironmaking method, and related issues that should be considered when converting to hydrogen reduction are discussed. The coal rate consumed by the reduction reaction in the coal-based BF process should be less than 50%. The heat requirement for indirect reduction in hydrogen reduction is higher than that of CO reduction, since hydrogen reduction is endothermic. The BF-based integrated steel mill is an energy independent process, since coal is used for the reduction of iron ore and melting, and the by-product gases evolved from the BF process are utilized for reheating the furnace, the power plant, and steam production. For hydrogen reduction, only green hydrogen should be used for the reduction of iron ore, and the power required to melt the iron and for the downstream rolling process will have to be provided from the external grid. Therefore, to convert to hydrogen reduction, green power should be supplied from an external infrastructure system of the steel industry. It will be necessary to discuss an optimized pathway for the step-by-step replacement of current coal-based facilities, and to reach agreement on the socio-economic industrial transition to hydrogen reduction steel.
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46

Kim, Hakduck, Kitae Jeon, Heechang Lim, and Juhun Song. "Parameter analysis of an entrained flow gasification process." Advances in Mechanical Engineering 10, no. 12 (December 2018): 168781401881525. http://dx.doi.org/10.1177/1687814018815255.

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This work presents primary results of a parameter study for entrained flow gasification using a steady-flow reactor model. The influences of important parameters such as coal types, gasifier pressure, gas/coal feeding rate, and coal particle size were studied based on coal conversion and gas product species. The prediction results were compared and validated against those published previously. In particular, a relative importance of reaction stoichiometry, temperature, reaction time (kinetics), or residence time considered in this simulation work was evaluated to affect the gas composition produced from different coals. The optimal carbon monoxide concentration was observed at an oxygen-to-fuel ratio of 0.8, while a greatest carbon conversion was found at a steam-to-fuel ratio of 0.4. Coal particle size has a strong influence on carbon conversion. However, the coal feeding rate has no effect on carbon conversion despite differences in residence time.
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47

Bozell, Joseph J., Anton Astner, Darren Baker, Berenger Biannic, Diana Cedeno, Thomas Elder, Omid Hosseinaei, et al. "Integrating Separation and Conversion—Conversion of Biorefinery Process Streams to Biobased Chemicals and Fuels." BioEnergy Research 7, no. 3 (March 1, 2014): 856–66. http://dx.doi.org/10.1007/s12155-014-9424-x.

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48

Orbeci, Cristina, Oana Cristina Parvulescu, Elena Acceleanu, and Tanase Dobre. "Effects of Process Factors on Carbon Dioxide Reforming of Methane over Ni/SBA-15 Catalyst." Revista de Chimie 68, no. 10 (November 15, 2017): 2325–28. http://dx.doi.org/10.37358/rc.17.10.5878.

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The process of CO2 reformation of CH4 was conducted over a 5% Ni/SBA-15 catalyst under various experimental conditions. Operating temperature (600-750 �C), gas hourly space velocity (4000-12000 hr-1), and CO2/CH4 feed molar ratio (0.67-1.50) were selected as independent parameters (factors). Process performances were evaluated as conversions of CH4 (21.1-79.6%) and CO2 (42.4-98.7%) as well as H2/CO product molar ratio (0.573-0.992). All process performances were enhanced at higher levels of temperature and low values of gas velocity. An increase in feed molar ratio has determined a significant increase in CH4 conversion and a slighter decrease in CO2 conversion and H2/CO molar ratio. A statistical model based on a 23 factorial plan was used to predict the process performances depending on its factors.
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49

Basile, Alessandro. "MILITARY SITE’S CONVERSION MANAGEMENT PROCESS AND FIRM’S COMPETITIVENESS: ENTREPRENEURIAL EVIDENCES." Australian Journal of Business and Management Research 01, no. 11 (June 22, 2012): 08–21. http://dx.doi.org/10.52283/nswrca.ajbmr.20120111a02.

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The main goal of this study is to propose a decision-making approach to explore the relationship between military air bases’s conversion processes and firm’s competitiveness. During the past four decades the conversion of Defense air bases to new civilian uses played a central role in determining social and economic regional competitiveness, demonstrating that the management process have impacts on urban assets, agglomeration economies, urban infrastructures, labor and cost factors, development policies. Also Competitiveness, mainly that of Small and Medium Enterprises (SMEs), has constituted a very interesting research field over the past 20 years. Nevertheless the relevant impact on firm’s strategy and performance, few researchers in strategic management and governance have investigated the effectiveness of site’s conversion process to increasing firms competitiveness. The paper shows how the conversion processes on an integrated services area can create business opportunity, can facilitate entry in new markets, facilitate new innovation processes, facilitate new management, control and commercial services, increases business linkages and agreements for local firms (Business Networking). The study presents the case of conversion process of ex Nato Base of Comiso (Sicily), important military site in regional area characterized by high entrepreneurial development. Eempirical evidence of the case study consists of a European benchmarking conversion bases and of a survey of 48 local firms. Finally the study presents valuable conversion projects and strategic perspectives for managers, entrepreneurs and policy-makers.
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SOA, DANG VAN, HOANG NGOC LONG, and LE NHU THUC. "PHOTON–AXION CONVERSION CROSS-SECTIONS IN A RESONANT CAVITY." Modern Physics Letters A 22, no. 19 (June 21, 2007): 1411–16. http://dx.doi.org/10.1142/s0217732307021482.

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Abstract:
Photon–axion conversions in the resonant cavity with the lowest mode are considered in detail by the Feynman diagram method. The differential cross-sections are presented and numerical evaluations are given. It is shown that there is a resonant conversion for the considered process, in which the conversion cross-sections are much larger than those of the wave guide in the same conditions. Some estimates for experimental conditions are given from our results.
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