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Journal articles on the topic 'Loy Yang'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 February 2023

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1

Ozaki, Jun-ichi, Yoshiyuki Nishiyama, John D. Cashion, and L. Joan Brown. "Carbonization of iron-treated Loy Yang coal." Fuel 78, no. 4 (March 1999): 489–99. http://dx.doi.org/10.1016/s0016-2361(98)00176-8.

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2

OZAKI, Jun-ichi, Subagijo KASTRIA INGWANG DJAJA, and Asao OYA. "Supercritical Methanol Extraction of Loy Yang Coal." Journal of the Japan Institute of Energy 80, no. 4 (2001): 274–77. http://dx.doi.org/10.3775/jie.80.274.

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3

Fletcher, S. J., and Lv Pedler. "Underseepage at the loy yang settling pond dam." Engineering Geology 22, no. 1 (September 1985): 71–81. http://dx.doi.org/10.1016/0013-7952(85)90039-0.

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4

Young, B. C., and I. W. Smith. "The combustion of Loy Yang brown coal char." Combustion and Flame 76, no. 1 (April 1989): 29–35. http://dx.doi.org/10.1016/0010-2180(89)90074-6.

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5

Takanohashi, Toshimasa, Masashi Iino, and David E. Mainwaring. "Viscoelastic Behaviors of Loy Yang Coal−N-Methyl-2-pyrrolidinone Mixtures." Energy & Fuels 12, no. 3 (May 1998): 476–78. http://dx.doi.org/10.1021/ef9701403.

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6

Liu, Xiangchun, Taigen Masuyama, Tsuyoshi Hirajima, Moriyasu Nonaka, and Keiko Sasaki. "Combustion performance of Loy Yang lignite treated using microwave irradiation treatment." Thermochimica Acta 642 (October 2016): 81–87. http://dx.doi.org/10.1016/j.tca.2016.09.010.

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7

Murakami, Kenji, Masahiko Arai, and Masayuki Shirai. "Hydrogasification of Loy Yang Brown Coal by Ion-Exchanged Nickel Species." Energy & Fuels 14, no. 6 (November 2000): 1240–44. http://dx.doi.org/10.1021/ef000099v.

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8

Pedler, I. V., and P. Schneider. "Prediction and observation of settlements of Loy Yang A power station." International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts 22, no. 6 (December 1985): 194. http://dx.doi.org/10.1016/0148-9062(85)90234-7.

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9

Zhu, Youjian, Chi Wai Kwong, Philip J. van Eyk, Rocky de Nys, Dingbiao Wang, and Peter J. Ashman. "Pyrolysis Characteristics and Char Reactivity of Oedogonium sp. and Loy Yang Coal." Energy & Fuels 29, no. 8 (August 10, 2015): 5047–55. http://dx.doi.org/10.1021/acs.energyfuels.5b00642.

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10

Shirai, Masayuki, Masahiko Arai, and Kenji Murakami. "In situEXAFS study on metal particles dispersed on Loy Yang brown coal." Journal of Synchrotron Radiation 8, no. 2 (March 1, 2001): 584–86. http://dx.doi.org/10.1107/s0909049500013662.

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11

Hulston, Janine, George Favas, and Alan L. Chaffee. "Physico-chemical properties of Loy Yang lignite dewatered by mechanical thermal expression." Fuel 84, no. 14-15 (October 2005): 1940–48. http://dx.doi.org/10.1016/j.fuel.2005.03.024.

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12

Wong, Leslie, Susanga Costa, Tanvirul Islam, Jon Missen, Nicole Anderson, Wing Kong Chiu, and Jayantha Kodikara. "Remote monitoring techniques for rehabilitated slope." E3S Web of Conferences 347 (2022): 03007. http://dx.doi.org/10.1051/e3sconf/202234703007.

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AGL Loy Yang has been intensively engaged and involved in research in the area of rehabilitated mining slopes. A proposal was raised to turn the Loy Yang mine pit into a lake after decommission (in three decades) to achieve safe and stable rehabilitation of the mines. The slope stability of these rehabilitated slopes is one of the major concerns. The slopes are hardly failed spontaneously. Instead, they usually provide indications of distress (cracks and erosion) over some time. Therefore, an ongoing monitoring system may provide valuable time to mitigate the progression of the failure. Distributed optical fibre sensing (DOFS) and unmanned aerial vehicle (UAV) are emerging new and innovative technologies for remote monitoring a large civil structure for early warnings, alerts and decision making. Both DOFS and UAV have been recently deployed at Loy Yang rehabilitated trial site. The preliminary results have demonstrated their reliability and practicality for these rehabilitated slope monitoring techniques. These remote sensing techniques are compared and discussed in terms of slope monitoring application.
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13

Murakami, Kenji, Masahiko Arai, and Masayuki Shirai. "Pyrolysis Behavior of Nickel-Loaded Loy Yang Brown Coals: Influence of Calcium Additive." Energy & Fuels 16, no. 3 (May 2002): 752–55. http://dx.doi.org/10.1021/ef010235b.

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14

Butler, C. J., A. M. Green, and A. L. Chaffee. "MTE water remediation using Loy Yang brown coal as a filter bed adsorbent." Fuel 87, no. 6 (May 2008): 894–904. http://dx.doi.org/10.1016/j.fuel.2007.05.032.

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15

Kim, Hyun-Seok, Yusuke Nishiyama, Keiko Ideta, Jin Miyawaki, Yohsuke Matsushita, Joo-Il Park, Isao Mochida, and Seong-Ho Yoon. "Analysis of water in Loy Yang brown coal using solid-state 1H NMR." Journal of Industrial and Engineering Chemistry 19, no. 5 (September 2013): 1673–79. http://dx.doi.org/10.1016/j.jiec.2013.02.005.

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16

Shirai, Masayuki, Masahiko Arai, and Kenji Murakami. "Structure and Catalysis of Ion-Exchanged Nickel Species during Pyrolysis of Loy Yang Coal." Energy & Fuels 13, no. 2 (March 1999): 465–70. http://dx.doi.org/10.1021/ef980160k.

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17

Zeng, Cai, George Favas, Hongwei Wu, Alan L. Chaffee, Jun-ichiro Hayashi, and Chun-Zhu Li. "Effects of Pretreatment in Steam on the Pyrolysis Behavior of Loy Yang Brown Coal." Energy & Fuels 20, no. 1 (January 2006): 281–86. http://dx.doi.org/10.1021/ef0502406.

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18

Liu, Xiangchun, Jun Hu, Ruilun Xie, Qiang Ling, Zhigang Zhao, Qingping Ke, and Ping Cui. "Catalytic effects of ion-exchangeable potassium ion on combustion behavior of Loy Yang lignite." Thermochimica Acta 687 (May 2020): 178582. http://dx.doi.org/10.1016/j.tca.2020.178582.

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19

Liu, Xiangchun, Tsuyoshi Hirajima, Moriyasu Nonaka, and Keiko Sasaki. "Effects of hydrothermal treatment coupled with mechanical expression on combustion performance of Loy Yang lignite." Journal of Thermal Analysis and Calorimetry 126, no. 3 (July 25, 2016): 1925–35. http://dx.doi.org/10.1007/s10973-016-5692-3.

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20

URBANOWSKI, K. "IS THE STANDARD INTERPRETATION OF CPT-VIOLATION PARAMETER FOR NEUTRAL KAON COMPLEX WELL FOUNDED?" International Journal of Modern Physics A 13, no. 06 (March 10, 1998): 965–83. http://dx.doi.org/10.1142/s0217751x98000433.

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Basic assumptions necessary for the proof of the CPT theorem are considered. It is found that the CPT theorem is not valid for a physical system with unstable particles decaying exponentially. The Lee, Oehme and Yang (LOY) model of neutral kaons decay is discussed and the conclusion is drawn that CPT-transformation cannot be a symmetry in a system which contains the LOY model as a subsystem, and, thus this model is shown to be incapable of describing possible CPT-violation effects correctly. The approximate formulae for matrix elements of the effective Hamiltonian H‖ governing the time evolution in neutral kaons subspace (different from those obtained by means of the Weisskopf–Wigner method and used by LOY) and their implications for an interpretation of the standard CPT-violation parameter [Formula: see text] are considered. Within this approximation it is shown that [Formula: see text] in the system preserving CPT-symmetry and that δ=0 is possible only if [Formula: see text], where H is the total Hamiltonian of the system under consideration, that is, if the system does not preserve CPT-symmetry.
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21

Liu, Xiangchun, Delei Yu, Zhigang Zhao, Ruilun Xie, and Ping Cui. "Dewatering of Loy Yang lignite using microwave irradiation treatment and the microscopic description of the process." Drying Technology 37, no. 12 (January 21, 2019): 1481–89. http://dx.doi.org/10.1080/07373937.2018.1505753.

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22

Viezzoli, A., J. P. Cull, and D. Massie. "Mapping fly-ash water pond leakage with TEM and IP data at Loy Yang coal-mine (Australia)." Near Surface Geophysics 4, no. 5 (February 1, 2006): 305–11. http://dx.doi.org/10.3997/1873-0604.2006005.

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23

Wu, Hongwei, Xiaojiang Li, Jun-ichiro Hayashi, Tadatoshi Chiba, and Chun-Zhu Li. "Effects of volatile–char interactions on the reactivity of chars from NaCl-loaded Loy Yang brown coal." Fuel 84, no. 10 (July 2005): 1221–28. http://dx.doi.org/10.1016/j.fuel.2004.06.037.

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24

Liu, Xiangchun, Tsuyoshi Hirajima, Moriyasu Nonaka, and Keiko Sasaki. "Experimental study on freeze drying of Loy Yang lignite and inhibiting water re-adsorption of dried lignite." Colloids and Surfaces A: Physicochemical and Engineering Aspects 520 (May 2017): 146–53. http://dx.doi.org/10.1016/j.colsurfa.2017.01.076.

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25

Bui, Mai, Indra Gunawan, Vincent Verheyen, Paul Feron, and Erik Meuleman. "Flexible operation of CSIRO's post-combustion CO2 capture pilot plant at the AGL Loy Yang power station." International Journal of Greenhouse Gas Control 48 (May 2016): 188–203. http://dx.doi.org/10.1016/j.ijggc.2015.12.016.

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26

Sakaguchi, M., K. Laursen, H. Nakagawa, and K. Miura. "Hydrothermal upgrading of Loy Yang Brown coal — Effect of upgrading conditions on the characteristics of the products." Fuel Processing Technology 89, no. 4 (April 2008): 391–96. http://dx.doi.org/10.1016/j.fuproc.2007.11.008.

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27

Hart, James, Audai Hussein Al-Abbas, and Jamal Naser. "Numerical investigation of pyrolysis of a Loy Yang coal in a lab-scale furnace at elevated pressures." Heat and Mass Transfer 49, no. 12 (August 13, 2013): 1725–32. http://dx.doi.org/10.1007/s00231-013-1205-0.

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28

Ross, D. P., P. J. Laurent, G. B. Schluter, and D. K. Zhang. "The Influence of Volatiles on Combustion Rate of Loy Yang Coal Char in a Fluidised Bed Combustor." Developments in Chemical Engineering and Mineral Processing 8, no. 3-4 (May 15, 2008): 187–98. http://dx.doi.org/10.1002/apj.5500080301.

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29

Liu, Xiangchun, Tsuyoshi Hirajima, Moriyasu Nonaka, and Keiko Sasaki. "Effect of Hydrothermal Treatment Coupled with Mechanical Compression on Equilibrium Water Content of Loy Yang Lignite and Mechanism." MATERIALS TRANSACTIONS 57, no. 6 (2016): 935–42. http://dx.doi.org/10.2320/matertrans.m-m2016809.

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30

Murakami, Kenji, Ryuhei Kondo, Kiyoshi Fuda, and Toshiaki Matsunaga. "Acidity distribution of carboxyl groups in Loy Yang brown coal: its analysis and the change by heat treatment." Journal of Colloid and Interface Science 260, no. 1 (April 2003): 176–83. http://dx.doi.org/10.1016/s0021-9797(02)00172-8.

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31

Liu, Xiangchun, Tsuyoshi Hirajima, Moriyasu Nonaka, and Keiko Sasaki. "Hydrothermal treatment coupled with mechanical expression for Loy Yang lignite dewatering and the microscopic description of the process." Drying Technology 34, no. 12 (February 25, 2016): 1471–83. http://dx.doi.org/10.1080/07373937.2015.1127933.

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32

Artanto, Yuli, James Jansen, Pauline Pearson, Thong Do, Aaron Cottrell, Erik Meuleman, and Paul Feron. "Performance of MEA and amine-blends in the CSIRO PCC pilot plant at Loy Yang Power in Australia." Fuel 101 (November 2012): 264–75. http://dx.doi.org/10.1016/j.fuel.2012.02.023.

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33

Sonoyama, Nozomu, Kazunari Nobuta, Tokuji Kimura, Sou Hosokai, Jun-ichiro Hayashi, Teruoki Tago, and Takao Masuda. "Production of chemicals by cracking pyrolytic tar from Loy Yang coal over iron oxide catalysts in a steam atmosphere." Fuel Processing Technology 92, no. 4 (April 2011): 771–75. http://dx.doi.org/10.1016/j.fuproc.2010.09.036.

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34

Jena, Manoj Kumar, Muhammad Asif Akhtar, Vineet Kumar, Shaomin Liu, Chun-Zhu Li, and Hari Vuthaluru. "Studies into the kinetic compensation effects of Loy Yang Brown coal during gasification in a steam environment – A mechanistic view." Chemical Engineering Journal Advances 8 (November 2021): 100159. http://dx.doi.org/10.1016/j.ceja.2021.100159.

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35

Jena, Manoj Kumar, Vineet Kumar, Shaomin Liu, Chun-Zhu Li, and Hari Vuthaluru. "Mechanistic Insights into the Kinetic Compensation Effects during the Gasification of Loy Yang Brown Coal Char in O2." Industrial & Engineering Chemistry Research 60, no. 49 (December 1, 2021): 17881–96. http://dx.doi.org/10.1021/acs.iecr.1c03569.

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36

Dodds, D., and J. Naser. "Numerical study of the erosion within the pulverised-fuel mill-duct system of the Loy Yang B lignite fuelled power station." Powder Technology 217 (February 2012): 207–15. http://dx.doi.org/10.1016/j.powtec.2011.10.028.

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37

Li, Tingting, Lei Zhang, Li Dong, Shu Zhang, Penghua Qiu, Shuai Wang, and Chun-Zhu Li. "Effects of gasification temperature and atmosphere on char structural evolution and AAEM retention during the gasification of Loy Yang brown coal." Fuel Processing Technology 159 (May 2017): 48–54. http://dx.doi.org/10.1016/j.fuproc.2017.01.022.

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38

Li, Tingting, Lei Zhang, Li Dong, Penghua Qiu, Shuai Wang, Shengjuan Jiang, and Chun-Zhu Li. "Changes in char structure during the low-temperature pyrolysis in N2 and subsequent gasification in air of Loy Yang brown coal char." Fuel 212 (January 2018): 187–92. http://dx.doi.org/10.1016/j.fuel.2017.10.026.

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39

van Eyk, Philip J., Peter J. Ashman, Zeyad T. Alwahabi, and Graham J. Nathan. "The release of water-bound and organic sodium from Loy Yang coal during the combustion of single particles in a flat flame." Combustion and Flame 158, no. 6 (June 2011): 1181–92. http://dx.doi.org/10.1016/j.combustflame.2010.10.024.

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40

Al-Abbas, Audai Hussein, Jamal Naser, and David Dodds. "CFD modelling of air-fired and oxy-fuel combustion in a large-scale furnace at Loy Yang A brown coal power station." Fuel 102 (December 2012): 646–65. http://dx.doi.org/10.1016/j.fuel.2012.06.028.

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41

Kim, Hyun-Seok, Yohsuke Matsushita, Motohira Oomori, Tatsuro Harada, Jin Miyawaki, Seong-Ho Yoon, and Isao Mochida. "Fluidized bed drying of Loy Yang brown coal with variation of temperature, relative humidity, fluidization velocity and formulation of its drying rate." Fuel 105 (March 2013): 415–24. http://dx.doi.org/10.1016/j.fuel.2012.09.057.

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42

Yu, Delei, Xinyue Pan, Mingzhu Tan, and Xiangchun Liu. "Effects of Low-Temperature Pyrolysis in a Tube Furnace on Water Re-adsorption of Loy Yang Lignite and Microscopic Description of the Process." Solid Fuel Chemistry 55, no. 3 (May 2021): 200–206. http://dx.doi.org/10.3103/s0361521921030125.

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43

Larcher, Alfons V., and Shiro Kajitani. "A Study of the Hydrogen Exchange Reactions Occurring during Loy Yang Lignite Pyrolysis Using Deuterium-Labeled Water and Gas Chromatography–Mass Spectrometry Analysis." Energy & Fuels 25, no. 7 (July 21, 2011): 3029–39. http://dx.doi.org/10.1021/ef200204b.

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44

Dodds, D., J. Naser, J. Staples, C. Black, L. Marshall, and V. Nightingale. "Experimental and numerical study of the pulverised-fuel distribution in the mill-duct system of the Loy Yang B lignite fuelled power station." Powder Technology 207, no. 1-3 (February 2011): 257–69. http://dx.doi.org/10.1016/j.powtec.2010.11.007.

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45

Roy, Bithi, and Sankar Bhattacharya. "Release behavior of Hg, Se, Cr and As during oxy-fuel combustion using Loy Yang brown coal in a bench-scale fluidized bed unit." Powder Technology 302 (November 2016): 328–32. http://dx.doi.org/10.1016/j.powtec.2016.08.073.

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46

Kawamura, Kunio, Akitsugu Okuwaki, T. V. Verheyen, and G. J. Perry. "Separation of Aromatic Carboxylic Acids Using Quaternary Ammonium Salts on Reversed‐Phase HPLC. 2. Application for the Analysis of Loy Yang Coal Oxidation Products." Separation Science and Technology 41, no. 4 (April 2006): 723–32. http://dx.doi.org/10.1080/01496390500527985.

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47

Wu, Le, Yu Qiao, Ben Gui, Chao Wang, Jingying Xu, Hong Yao, and Minghou Xu. "Effects of Chemical Forms of Alkali and Alkaline Earth Metallic Species on the Char Ignition Temperature of a Loy Yang Coal under O2/N2 Atmosphere." Energy & Fuels 26, no. 1 (November 22, 2011): 112–17. http://dx.doi.org/10.1021/ef2011386.

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48

Keddie, Tom. "Wind power in Victoria." Proceedings of the Royal Society of Victoria 126, no. 2 (2014): 20. http://dx.doi.org/10.1071/rs14020.

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In terms of generation capacity, Victoria has about 12,500 MW, out of a National Electricity Market (NEM) total of over 46,000 MW. A bit over half of Victoria’s capacity is made up of the brown coal generators in the Latrobe Valley (Loy Yang, Hazelwood, Yallourn). Gas-fired generation (mainly large open-cycle peaking plants, designed to operate only in times of high demand) and hydro plants (mainly parts of the Snowy scheme) add about 20% each, with wind currently making up the balance of around 9% of installed capacity in Victoria. In terms of wind farm location across the NEM, installed capacity is predominantly located in Victoria and South Australia, and to a lesser extent in Tasmania, with very small amounts in New South Wales and Queensland. This distribution is almost entirely due to the quality of the wind resource across the country.
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49

Hu, Roger, and Stuart D. C. Walsh. "The Role of Heterogeneity on Deformation and Flow in Fractured Coal Slopes." Minerals 12, no. 10 (October 14, 2022): 1297. http://dx.doi.org/10.3390/min12101297.

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The fractures in brown coal influence fluid flow and deformation in these materials. These fractures display highly heterogeneous characteristics in the distributions of their apertures, separations and orientations. While discrete fracture models have previously been used to analyse the effects of fractures, such models are not feasible for the scales encountered in many brown-coal mines. Instead, here a continuum permeability model is used to capture the effects of the fracture heterogeneity on fractured coal. This paper presents an analysis of the fracture heterogeneity of brown coal at the AGL Loy Yang coal mine in Latrobe Valley and its influence on the fluid flow, dispersion and rock stability. A stress dependent fracture permeability is considered and captures the effects of heterogeneity in the fracture aperture and orientation. Numerical simulations conducted with multiple plasticity models present different flow paths and potential failure modes depending on the the implemented boundary conditions.
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50

Farisal, Salman, Eyus Sudihartinih, and Encum Sumiaty. "Kajian Learning Obstacle pada Keliling Segiempat Ditinjau dari Literasi Matematis oleh PISA 2021." Jurnal Cendekia : Jurnal Pendidikan Matematika 6, no. 3 (September 17, 2022): 2895–907. http://dx.doi.org/10.31004/cendekia.v6i3.1145.

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Hambatan belajar (learning obstacle) menjadi salah satu masalah yang dihadapi oleh siswa khususnya pada topik keliling segiempat. Oleh karena itu diperlukan literasi matematis yang baik untuk bisa mengatasi learning obstacle yang dialami oleh siswa. Tujuan penelitian ini adalah untuk mengetahui hambatan belajar (learning obstacle) yang dialami oleh siswa pada topik keliling segiempat ditinjau dari literasi matematis PISA 2021. Metode yang digunakan pada penelitian ini adalah penelitian desain didaktis atau Didactional Design Research pada tahap mengkaji learning obstacle. Instrumen yang digunakan pada penelitian ini didesain berdasarkan literasi matematis PISA 2021. Partisipan penelitian ini adalah enam siswa SMP kelas 9 yang terdiri dari tiga siswa dari Kota Cirebon dan tiga siswa dari Kota Bandung. Data dikumpulkan melalui tes dan dokumentasi. Hasil penelitian ini adalah terdapat tiga hambatan belajar (learning obstacle) yang dialami oleh siswa, yaitu LO1. Hambatan pemahaman soal literasi matematis topik keliling segiempat, LO2. Hambatan pemahaman tujuan soal, LO3. Hambatan penguasaan konsep ukuran panjang dan lebar segiempat, dan LO4. Hambatan penguasaan konsep keliling segiempat.
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