Relevant bibliographies by topics / Iji kanri

Academic literature on the topic 'Iji kanri'

Author: Grafiati

Published: 26 July 2024

Last updated: 28 July 2024

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Journal articles on the topic "Iji kanri"

Horton, E. H., and B. W. Horton. "The Slimline Kanji Dictionaries." International Journal of Lexicography 9, no. 2 (June 1, 1996): 132–46. http://dx.doi.org/10.1093/ijl/9.2.132.

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Sahudi, Kliwon, and Cerli Dewi Utamani. "ANALISIS KESALAHAN HITSUJUN KANJI PADA MAHASISWA BAHASA JEPANG TINGKAT DASAR." Jurnal Sora : Pernik Studi Bahasa Asing 5, no. 2 (December 27, 2021): 1–13. http://dx.doi.org/10.58359/jurnal_sora.v5i2.66.

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In teaching and learning activities there are writing errors made by Japanese language learners. Some errors are caused by bushu (a form of classification of kanji), kakusuu (number of lines or strokes), hitjujun (sequence of writing lines or strokes) which must be mastered by basic Japanese language learners, especially STBA student of Cipto Hadi Pranoto. This study aims to find out the errors in writing Kanji for Semester III students of STBA Cipto Hadi Pranoto. The method used in this research is a qualitative case study. The data was taken from the test given to the research sample and then analyzed for kanji writing errors based on the sequence of writing lines or strokes. The result of this study is the error rate of kanji writing that is not in the order of writing lines or strokes is 79%. Factors that cause errors include difficulty in memorizing kanji with a large number of strokes, many similar kanji but different reading and writing ways, almost the same form of bushu but different hitsujun, not paying attention to hitjujun kanji, and learning kanji without remembering hitsujun kanji. Pada kegiatan belajar mengajar terdapat kesalahan penulisan yang dilakukan oleh pemelajar bahasa Jepang. Beberapa kesalahan diakibatkan oleh bushu (bentuk klasifikasi kanji), kakusuu (jumlah garis atau coretan), hitsujun (urutan penulisan garis atau coretan) yang harus dikuasai oleh pemelajar bahasa Jepang tingkat dasar, khususnya mahasiswa STBA Cipto Hadi Pranoto. Penelitian ini bertujuan untuk mengetahui kesalahan penulisan huruf Kanji Mahasiswa Semester III STBA Cipto Hadi Pranoto.Metode yang digunakan dalam penelitian ini adalah Kualitatif Studi Kasus. Data diambil dari tes yang diberikan kepada sampel penelitian kemudian dianalisa kesalahan penulisan kanji berdasarkan urutan penulisan garis atau coretannya. Hasil dari penelitian ini adalah tingkat kesalahan penulisan huruf kanji yang tidak sesuai urutan penulisan garis atau coretannya sebesar 79%. Faktor penyebab terjadinya kesalahan antara lain kesulitan menghafalkan kanji dengan jumlah coretan yang banyak, banyak kanji yang mirip tetapi cara baca dan penulisannya berbeda, bentuk bushu hampir sama tetapi hitsujun-nya berbeda, tidak memperhatikan hitsujun kanji, dan belajar kanji tanpa mengingat hitsujun kanji.

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Alfionita, Yeni, and Nova Yulia. "Analisis Kesalahan Fonologi Yomikata Kanji Mahasiswa Program Studi Pendidikan Bahasa Jepang Universitas Negeri Padang." Omiyage : Jurnal Bahasa dan Pembelajaran Bahasa Jepang 4, no. 1 (June 10, 2021): 70–79. http://dx.doi.org/10.24036/omg.v4i1.232.

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Kanji merupakan huruf yang melambangkan arti. Selain itu, kanji juga sebagai “tulang punggung” dalam kosakata bahasa Jepang. Kanji juga memiliki tiga unsur yang terkandung didalamnya, yaitu bentuk, bunyi, dan makna. Kanji menjadi huruf yang sulit untuk dipelajari oleh orang asing seperti orang Indonesia.Dalam mempelajari kanji ditemuinya beberapa masalah, salah satunya kesalahan pada cara baca kanji (yomikata kanji). kesalahan ini dilihat dari hasil pengerjaan soal ujian akhir semester Juli-Desember 2019 yang dikerjakan oleh mahasiswa. Selain itu penelitian ini bertujuan untuk mendeskripsikan kesalahan fonologi yang terjadi pada yomikata kanji mahasiswa semester III Program Studi Pendidikan Bahasa Jepang Unversitas Negeri Padang.Jenis penelitian pada penelitian ini adalah penelitian kualitatif dengan menggunakan metode analisis deskriptif dan metode analisis kesalahan. Subjek penelitian pada penelitian ini adalah mahasiswa semester III JPG 2 angkatan 2018 Program Studi Pendidikan Bahasa Jepang yang berjumlah 31 orang. Data penelitian ini adalah kesalahan fonologi pada yomikata kanji. sedangkan, sumber data dari penelitian ini adalah dokumen hasil lembar jawaban UAS Juli-Desember 2019 pada mata kuliah shochukyu moji goi zenhan. Instrument penelitian pada penelitian ini adalah peneliti sendiri. Berdasarkan hasil penelitian yang dilakukan diketahui dari 20 kanji ditemukannya Kesalahan tersebut ditemukan sebanyak 42 kesalahan fonologi yang diantaranya 6 kesalahan dalam penambahan fonem atau silabel, 15 kesalahan dalam penghilangan fonem atau silabel dan 21 kesalahan dalam perubahan bunyi. Kesalahan fonologi terjadi karena kesalahan ejaan dalam penambahan dan penghilangan fonem, silabel, tanda baca, dan perubahan bunyi serta lambang bunyi bahasa Jepang yang membedakan bunyi fonem atau silabel berdasarkan cara baca kanji, dan tercampurnya penempatan onyomi dan kunyomi, yang disebabkan karena kurangnya pengetahuan tentang kaidah cara baca kanji.

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Höflmayer, Felix, Assaf Yasur-Landau, Eric H. Cline, Michael W. Dee, Brita Lorentzen, and Simone Riehl. "New Radiocarbon Dates from Tel Kabri Support a High Middle Bronze Age Chronology." Radiocarbon 58, no. 3 (April 18, 2016): 599–613. http://dx.doi.org/10.1017/rdc.2016.27.

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AbstractThis article presents new radiocarbon evidence from the Middle Bronze Age palatial site of Tel Kabri (Israel). The final phase of the palace (Phase III) can be dated to Middle Bronze Age II, with an end date around the transition from Middle Bronze II to III or very early in Middle Bronze III. According to our14C data, the end of Tel Kabri Phase III (and thus the transition from Middle Bronze II to III) can be dated to ~1700 BC. This date is about 50–100 yr earlier than traditional chronological models for the Middle Bronze Age propose (~1650 BC according to the traditional chronology or ~1600 BC according to the low chronology).14C data from Tel Kabri thus add additional evidence for a higher Middle Bronze Age chronology for the Levant, consistent with recent14C evidence from Tell el-Dabca (Egypt), Tel Ifshar (Israel), and Tell el-Burak (Lebanon).

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Thürer, Matthias, Thomas Maschek, Lawrence Fredendall, Peter Gianiodis, Mark Stevenson, and Jochen Deuse. "On the integration of manufacturing strategy: deconstructing Hoshin Kanri." Management Research Review 42, no. 3 (March 18, 2019): 412–26. http://dx.doi.org/10.1108/mrr-04-2018-0178.

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Purpose The purpose of this paper is to show that Hoshin Kanri has the potential to integrate the operations strategy literature into a coherent structure. Hoshin Kanri’s planning process is typically described as a top-down cascading of goals, starting with the senior management’s goals and moving to the lowest organizational level. The authors argue that this misrepresents a firm’s actual cognitive processes in practice because it implies reasoning from the effects to the cause, and assumes a direct causal relationship between what the customer wants and what is realizable by the system. Design/methodology/approach This study is conceptual, based on abductive reasoning and the literature. Findings The actual strategic thought process executed in an organization consists of three iterative processes: (i) a translation process that derives the desired customer attributes from customer/stakeholder data, (ii) a process of causal inference that predicts realizable customer attributes from a possible system design and (iii) an integrative process of strategic choices whereby (i) and (ii) are aligned. Each element relies on different cognitive processes (logical relation, causal relation and choice). Research limitations/implications By aligning the thought and planning processes, the competing concepts of manufacturing strategy are integrated into a coherent structure. Practical implications Different techniques have to be applied for each of the three elements. As each element relies on different cognitive processes (logical relation, causal relation and choice), the use of unifying tools (e.g. in the form of matrices, as often presented in the literature) is inappropriate. Originality/value This is the first study to focus on the thought processes underpinning manufacturing strategy.

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Astami, Timur Sri. "Efektivitas Penggunaan Media Flashcard dalam Pengajaran Kakikata to Yomikata III pada Mahasiswa UBINUS Semester Tiga Tahun Ajaran 2010/2011." Lingua Cultura 4, no. 2 (November 30, 2010): 183. http://dx.doi.org/10.21512/lc.v4i2.366.

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Article clarified the process of language learning, especially Japanese in a class environment, in which closely related to the teacher, material learning, and the learning media. In kakikata to yomikata subject (Writing and Reading III), students frequently got difficulties in reading or spelling kanji letters. To observe these difficulties, the researcher uses flashcard for developing the Japanese vocabularies in six weeks regularly in thirty minutes. The result indicates that around 64% of the respondents get significant developments. The positive impact on those successful respondents is their ability in remembering vocabularies as well as writes them in kanji letters.

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Prabowo, Urip Nurwijayanto, Ayu Fitri Amalia, and Widodo Budhi. "Peak Ground Acceleration and Earthquake Intensity Microzonation in Watukumpul, Pemalang Regency." Indonesian Journal of Science and Education 3, no. 2 (October 29, 2019): 60. http://dx.doi.org/10.31002/ijose.v3i2.1169.

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Watukumpul is located in Pemalang District, Central Java, which is adjacent to the fault seismotectonic line of Baribis fault in the north and subduction area of the Eurasian and Indies-Australian plates in the south. It makes Watukumpul often experiences an earthquake. This study aimed to map the peak ground acceleration calculated using the Kanai equation and earthquake intensity calculated using Wald equations in Watukumpul. This study used historical earthquake data occurred in 1988-April 2018 from the International Seismological Center and microtremor measurements of 33 points. Microtremor data were processed using the Horizontal to Vertical Spectral Ratio method and resulted the predominant period of study area ranged from 0.13 to 0.74 s. The results showed that the study area had a PGA value of 26.93 - 63.25 gal. The intensity calculation showed that the study area has the potential for earthquake damage with an III-IV MMI scale. Keywords: Kanai, Watukumpul, Intensity, Earthquake

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Jawed, Talat, and F. N. Siddiquie. "Mineragraphic Study of Manganese Ore Deposits of Kandri, Mansar, Beldongri and Satak Mines, Nagpur District (Maharashtra) Central India." International Journal of Geosciences 05, no. 07 (2014): 710–27. http://dx.doi.org/10.4236/ijg.2014.57064.

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Jöckel, Karl-Heinz. "Re: Mesothelioma is a killer of urban men in Sweden by Kari Hemminki and Xinjun Li." International Journal of Cancer 107, no. 4 (August 25, 2003): 685. http://dx.doi.org/10.1002/ijc.11409.

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Haryati, Sri. "PERAN PEMUDA DALAM MENGELOLA KAWASAN EKOWISATA DAN IMPLIKASINYA TERHADAP KETAHANAN MASYARAKAT DESA (Studi tentang Pemuda Pengelola Desa Wisata Kandri, Kecamatan Gunungpati, Kota Semarang, Provinsi Jawa Tengah)." Jurnal Ketahanan Nasional 22, no. 2 (August 29, 2016): 117. http://dx.doi.org/10.22146/jkn.11986.

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Pengaruh arus globalisasi telah memberikan dampak terhadap pemuda masa kini. Nilai-nilai sosial yang menjadi sosok pemuda telah tergerus dengan adanya modernisasi. Realita yang sama juga terjadi di sebuah Desa Wisata Kandri yang berada di Kelurahan Kandri, Kecamatan Gunungpati, Kota Semarang. Pemuda yang berjumlah sekitar 900-an hanya 16 pemuda yang ikut serta mengelola kawasan ekowisata. Tujuan penelitian yaitu untuk mengetahui peran pemuda dalam pengelolaan kawasan ekowisata, dan mengkaji implikasi pengelolaan kawasan ekowisata terhadap ketahanan masyarakat desa. Penelitian ini merupakan penelitian kualitatif dengan pemaparan secara deskriptif. Pendekatan penelitian yang digunakan yaitu studi pada suatu permasalahan yang terjadi di masyarakat. Pengumpulan data dengan menggunakan observasi, wawancara mendalam, dan studi dokumentasi. Hasil penelitian menunjukkan, pemuda pengelola berperan dalam mengelola kawasan ekowisata di Desa Wisata Kandri hanya pada indikator ekowisata yaitu perjalanan menuju kawasan alamiah. Bentuk peran tersebut berupa program kegiatan wisata edukasi yang meliputi Wisata Nyawah, Wisata Outbond, Wisata Goa Kreo, dan Wisata River Tubing. Peran pemuda pada pengelolaan masyarakat secara keseluruhan terutama pemuda di kawasan ekowisata belum berjalan secara maksimal. Pengelolaan kawasan ekowisata ini berimplikasi terhadap ketahanan masyarakat desa, akan tetapi belum mampu berjalan secara maksimal. Pengaruh yang dihasilkan berupa pengaruh positif dan negatif. Pengaruh positif pada ketahanan masyarakat desa yaitu penguatan modal sosial dan ketaatan hukum dalam diri warga, kemampuan memperbaharui dan memelihara kawasan ekowisata, serta kemandirian warga. Pengaruh negatif yang ditimbulkan yaitu menurunnya kemampuan pemuda RW III dalam memilih nilai-nilai sosial budaya dan kelembagaan sosial. Oleh karenanya, peran pemuda pengelola harus ditingkatkan untuk menjaga kelestarian lingkungan sehingga keberlangsungan ekowisata tetap terjaga.

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Dissertations / Theses on the topic "Iji kanri"

Ahmed, Moinuddin, and John Ogden. "Modern New Zealand Tree-Ring Chronologies III. Agathis australis (Salisb.) - Kauri." Tree-Ring Society, 1985. http://hdl.handle.net/10150/261304.

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Dendrochronological sampling of sixteen stands of kauri (Agathis australis) covering almost the whole range of the species in northern New Zealand is described. Eight new chronologies were obtained and compared to previous results from the same species. It is concluded that north-facing slopes are most suitable for tree-ring studies in this species. The chronologies cover a maximum period from A.D. 1580 to 1981 and show from 20 to 35 percent common chronology variance over the sample period 1790 to 1976. All the chronologies are significantly correlated with all others, and the degree of correlation appears unrelated to the spatial separation between the sites. Some longer-term (15 to 30 year) trends are also shared by most chronologies; narrow rings and high between-tree and between-site correlations were a feature of the first two decades of the Twentieth Century. Similar tree ring patterns, and similar site characteristics suggest that the chronology network described here is suitable for palaeoclimatic reconstruction back to at least 1750.

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Books on the topic "Iji kanri"

Japan). Kōen Ryokuchika Meguro-ku (Tokyon. Kōen ryokuchi iji kanri manyuaru. Tōkyō: Tōkyō-to Meguro-ku, 1989.

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Kōchika, Aichi-ken (Japan). Haisuiki iji kanri jigyō no tebiki. [Nagoya-shi]: Aichi-ken Nōchi Rinmubu Kōchika, 1989.

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Unno, Satoshi. Nara jidai kenchiku no zōei taisei to iji kanri. Tōkyō: Yoshikawa Kōbunkan, 2015.

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Eiseikyoku, Nagoya-shi (Japan). Nagoya-shi kenchikubutsu kankyō eisei iji kanri yōryō ni tsuite. Nagoya-shi: Nagoya-shi Eiseikyoku, 1988.

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Iwao, Nisugi, and Abe Hidehiko 1931-, eds. Kataritsugu tekkyō no gijutsu: Kōkyō no iji kanri to kankyō hozen. Tōkyō: Kajima Shuppankai, 2008.

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Takahashi, Hironao. Kōwan shisetsu no iji kanri keikaku sakutei ni kansuru kihonteki kangaekata. Yokosuka-shi: Kokudo Kōtsūshō Kokudo Gijutsu Seisaku Sōgō Kenkyūjo, 2007.

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Chōsabu, Japan Rōdōshō Seisaku, ed. Kigyō katsuryoku no iji to kore kara no jinji rōmu kanri: Jinji Rōmu Kanri Kenkyūkai 61-nendo hōkoku. Tōkyō: Rōdō Hōrei Kyōkai, 1987.

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1973-, Shōji Yasushi, and Kuriyama Kōichi 1967-, eds. Kankyō to kankō no keizai hyōka: Kokuritsu kōen no iji to kanri. Tōkyō: Keisō Shobō, 2005.

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Kenkyūjo, Ekkusu Toshi. Kōkyō kan'yo shisetsu ni okeru kiki kanri taisaku to iji kanri shuhō ni kansuru chōsa hōkokusho: Heisei 24-nendo. [Tōkyō-to Shinjuku-ku]: Ekkusu Toshi Kenkyūjo, 2013.

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Hyōkakyoku, Japan Sōmushō Gyōsei. Shakai shihon no iji kanri oyobi kōshin ni kansuru gyōsei hyōka, kanshi kekka hōkokusho. [Tokyo]: Sōmushō Gyōsei Hyōkakyoku, 2012.

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Book chapters on the topic "Iji kanri"

Ratzlaff, Alexandra, Roey Nickelsberg, and Brigid Clark. "Phase iii Stratigraphy." In Excavations at Tel Kabri III, 45–70. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_005.

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Lorentzen, Brita. "Ancient Wood Remains at Tel Kabri." In Excavations at Tel Kabri III, 298–309. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_024.

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Nickelsberg, Roey, and Ruth Shahack-Gross. "Micro-geoarchaeology." In Excavations at Tel Kabri III, 381–88. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_030.

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Kreines, Silvana. "Statistical Studies of Pottery in the Trash Deposits." In Excavations at Tel Kabri III, 138–49. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_009.

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Deonarain, Ghavin. "Zooarchaeology." In Excavations at Tel Kabri III, 328–59. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_027.

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"Preliminary Material." In Excavations at Tel Kabri III, edited by Eric H. Cline, Alexandra Ratzlaff, and Assaf Yasur-Landau, i—xxix. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_001.

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Ben-Tor, Daphna. "The Scarab." In Excavations at Tel Kabri III, 189–92. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_012.

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Nicolì, Marco. "Archaeobotany." In Excavations at Tel Kabri III, 310–17. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_025.

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Clark, Brigid. "The Cypriot Pottery from Area D-West." In Excavations at Tel Kabri III, 150–67. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_010.

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Shtienberg, Gilad, Assaf Yasur-Landau, Sariel Shalev, Naomi Porat, Polina Spivak, Simona Avnaim-Katav, and Ruth Shahack-Gross. "Evaluating the Hidden Extent of an Archaeological Site: an Example from Tel Kabri, Israel." In Excavations at Tel Kabri III, 364–80. BRILL, 2023. http://dx.doi.org/10.1163/9789004548336_029.

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Conference papers on the topic "Iji kanri"

Cho, Chungho, Woonkyu Lee, Choonho Cho, Jongman Kim, and Tae Yung Song. "The Design and Fabrication of the Lead Corrosion Test Loop." In 14th International Conference on Nuclear Engineering. ASMEDC, 2006. http://dx.doi.org/10.1115/icone14-89376.

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Lead corrosion test loop named KPAL-II (KAERI Pb Alloy Loop II) has been designed and fabricated at the Korea Atomic Energy Research Institute (KAERI) and an initial operation was performed recently. The KPAL-II was designed to study the long-term corrosive effects of liquid lead on structural and fuel cladding materials at temperatures up to 600°C. The first run of KPAL-II took place on March 15th, 2006 and three hundred hours of shakedown testing were performed with an isothermal condition at about 450°C. This paper summarizes the general design concept and the results of the shakedown testing of KPAL-II.

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Lee, Hyeong-Yeon, Ki-Ean Nam, Nam-Su Huh, and Min-Kyu Kim. "Development of a Web-Based Design Evaluation Platform for Elevated Temperature Design as per ASME Section III Division 5, ASME CC-2843 and RCC-MRx." In ASME 2023 Pressure Vessels & Piping Conference. American Society of Mechanical Engineers, 2023. http://dx.doi.org/10.1115/pvp2023-106584.

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Abstract An integrated web-based design evaluation platform of HITEP (HIgh Temperature design Evaluation Program) covering the three elevated temperature design rules of ASME BPVC Section III Division 5 Subsection HB (hereafter ‘ASME-HB’), ASME Code Case 2843-2 (hereafter ‘CC-2843’) and RCC-MRx, in addition to light water reactor design rules of ASME BPVC Section III Division 1 Subsection NB (hereafter ‘ASME-NB’) has been developed. CC-2843 is recently published code case of ASME Section VIII Division 2 based on the ASME-HB procedures with explicit consideration of creep. The evaluation module of ASME-NB has been added because the low-temperature design evaluations should be also conducted for a high-temperature component depending on temperature fluctuations. The HITEP platform can be used with high reliability and efficiency for the design of high temperature pressure boundary components or piping systems subjected to high-temperature operation at creep regime in a Generation IV nuclear reactor systems, renewable plants and advanced thermal power plants. In addition to those high-temperature applications, the platform can be applied to design of Generation III+ light water reactor systems. It was shown that the platform can be reliably and efficiently used for the elevated temperature design (hereafter ‘ETD’) of pressure boundary components and piping systems. The HITEP platform has been successfully used for the ETD of pressure boundary components and piping systems of the two large scale sodium test facilities of the STELLA-2 that is currently under operation and the thermal energy storage test facility of the TESET that is under construction at KAERI.

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de Groot, Sander, Virginie Basini, Pierre Guillermier, Klaas Bakker, Kazuhiro Sawa, Young-Woo Lee, Jean-Michel Escleine, Marc Perez, Shohei Ueta, and Bong-Goo Kim. "RAPHAEL-FT & Generation IV PYCASSO-I Irradiation." In Fourth International Topical Meeting on High Temperature Reactor Technology. ASMEDC, 2008. http://dx.doi.org/10.1115/htr2008-58127.

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Within the Raphael (V)HTR 6th framework EU-program, the PYCASSO experiments have been devised to investigate coating behaviour under irradiation. Samples have been included from CEA (France), JAEA (Japan) and KAERI (Republic of Korea), which makes this irradiation a real Generation IV effort. The experiment is a separate effect test, where the influence of fuel (coating corrosion or micro structural change due to fission products), thermal gradients, and variation in coating microstructure and dimensions have been minimized by the use of dummy kernels (Al2O3 and ZrO2), high conductivity particle holder material combined with low energy production of the kernels, and strict (fabrication) quality control and selection procedures respectively. The purpose of the experiment is threefold for the partners involved: - for CEA to determine the behaviour of pyrocarbon under irradiation, especially the interaction of pyrocarbon swelling and creep with SiC coating layers. The results will be used to validate and improve HTR fuel performance modelling. - for JAEA to investigate the behaviour of ZrC coatings, which have been successfully manufactured, but require post-irradiation investigation and characterization. - for KAERI to determine the influence of fabrication of pyrocarbon layers with different densities on the behaviour under irradiation. The paper will go into more detail on the goals to be achieved by the different partners. The PYCASSO-I irradiation is performed in the High Flux Reactor (HFR) in Petten, The Netherlands. The experiment accommodates temperature regions of 900, 1000 and 1100°C, and contains 76 separate particle sample holders. The PYCASSO-I irradiation is a completely new design and will be described in detail, including the route from the concept definition via feasibility studies, fabrication and assembly, up to the irradiation, which took only 1, 5 year. At the time of the conference, the PYCASSO-I irradiation will be finished and a full evaluation of the irradiation will be presented. Additionally, the future post irradiation examination planned for the PYCASSO-I samples and the details of the PYCASSO-II irradiation will be outlined.

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Abbiati, Giuseppe, Oreste S. Bursi, Luca Caracoglia, Rocco Di Filippo, and Vincenzo La Salandra. "Probabilistic Seismic Response of Coupled Tank-Piping Systems." In ASME 2016 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers, 2016. http://dx.doi.org/10.1115/pvp2016-63292.

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Dynamic analysis is an integral part of seismic risk assessment of industrial plants. Such analysis often neglects proper coupling between structures of coupled systems, which introduces uncertainty into the system and may lead to erroneous results, e.g., incorrect fragility curves, in comparison with the actual behavior of the analyzed structure. Hence, it is important to study the effect of uncertainties on the dynamic characteristics of a system, when coupling effects are both neglected and included. Along this line, this paper intends to define and compare the fragility curves of both an isolated (decoupled) and a coupled tank-piping system subjected to seismic loading. In particular, for the decoupled case, we estimated the probability of exceedance of main engineering demand parameters within the Performance-Based Earthquake Engineering (PBEE) framework. Moreover, for the coupled case, to take into account the presence of the tank as boundary condition for the piping system, two sources of uncertainty were considered: i) the tank aspect ratio; ii) the piping-to-tank attachment height ratio. In addition, to model the tank slippage, both a Filtered White Noise (FWN) characterized by a Kanai-Tajimi spectrum and the non-stationarity of the seismic input were taken into account by means of the stochastic linearization. All these elements allow for the estimation of fragility curves for different limit states in the coupled case.

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Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. "Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 2 Specialist Committee Reports." In 21st International Ship and Offshore Structures Congress, Volume 2. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-committee-vol-2.

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Table of Contents Preface ..............................................................................................................iii Committee V.1: Accidental Limit States .......................................................1 Bruce Quinton; Gaetano De Luca; Topan Firmandha; Mihkel Körgesaar; Hervé Le Sourne; Ken Nahshon; Gabriele Notaro; Kourosh Parsa; Smiljko Rudan; Katsuyuki Suzuki; Osiris Valdez Banda; CareyWalters; Deyu Wang; Zhaolong Yu Committee V.2: Experimental Methods ......................................................91 Soren Ehlers (Chair); Nagi Abdussamie; Kim Branner; ShiXiao Fu; Martijn Hoogeland; Kari Kolari; Paul Lara; Constantine Michailides; Hideaki Murayama; Cesare Rizzo; Jung Kwan Seo; Patrick Kaeding Committee V.3: Materials and Fabrication Technology ..........................163 Lennart Josefson (Chair); Konstantinos Anyfantis; Bianca de Carvalho Pinheiro; Bai-Qiao Chen; Pingsha Dong; Nicole Ferrari; Koji Gotoh; James Huang; Matthias Krause; Kun Liu; Stephane Paboeuf; Stephen van Duin; Fang Wang; Albert Zamarin Committee V.4: Offshore Renewable Energy ...........................................241 Atanasios Kolios (Chair); Kyong-Hwan Kim; Chen Hsing Cheng; Elif Oguz; Pablo Morato; Freeman Ralph; Chuang Fang; Chunyan Ji; Marc Le Boulluec; Thomas Choisnet; Luca Greco; Tomoaki Utsunomiya; Kourosh Rezanejad; Charles Rawson; Jose Miguel Rodrigues Committee V.5: Special Vessels ................................................................313 Darren Truelock (Chair); Jason Lavroff; Dustin Pearson; Zbigniew (Jan) Czaban; Hanbing Luo; Fuhua Wang; Ivan Catipovic; Ermina Begovic; Yukichi Takaoka; Claudia Loureiro; Chang Yong Song; Esther Garcia; Alexander Egorov; Jean-Baptiste Souppez; Pradeep Sensharma; Rachel Nicholls-Lee Committee V.6: Ocean Space Utilization ..................................................379 Sebastian Schreier (Chair); Felice Arena; Harry Bingham; Nuno Fonseca; Zhiqiang Hu; Debabrata Karmakar; Ekaterina Kim; Hui Li; Pengfei Liu; Motohiko Murai; Spiro J Pahos; Chao Tian; George Wang Committee V.7: Structural Longevity ........................................................445 Iraklis Lazakis (Chair); Bernt Leira; Nianzhong Chen; Geovana Drumond; Chi-Fang Lee; Paul Jurisic; Bin Liu; Alysson Mondoro; Pooria Pahlavan; Xinghua Shi; Ha Cheol Song; Tadashi Sugimura; Christian Jochum; Tommaso Coppola Committee V.8: Subsea Technology ..........................................................503 Agnes Marie Horn (Chair); Tauhid Rahman; Ilson Pasqualino; Menglan Duan; Zhuang Kang; Michael Rye Andersen; Yoshihiro Konno; Chunsik Shim; Angelo Teixeira; Selda Oterkus; Blair Thornton; Brajendra Mishra Subject Index .............................................................................................582 Author Index ...............................................................................................584

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Xiaozhi Wang and Neil Pegg, ISSC 2022 Editors. "Proceedings of the 21st International Ship and Offshore Structures Congress VOLUME 3 Discussions." In 21st International Ship and Offshore Structures Congress Volume 3 Discussions. SNAME, 2022. http://dx.doi.org/10.5957/issc-2022-discussion-vol-3.

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Committee I.1: Environment Alexander Babanin (Chair); Mariana Bernardino; Franz von Bock und Polach; Ricardo Campos,; Jun Ding; Sanne van Essen; Tomaso Gaggero; Maryam Haroutunian; Vanessa Katsardi; Alexander Nilva; Arttu Polojarvi; Erik Vanem; Jungyong Wang; Huidong Zhang; Tingyao Zhu Floor Discussers: Florian Sprenger; Carlos Guedes Soares; Henk den Besten Committee I.2: Loads Ole Andreas Hermundstad (Chair); Shuhong Chai; Guillaume de Hauteclocque; Sheng Dong; Chih-Chung Fang; Thomas B. Johannessen; Celso Morooka; Masayoshi Oka; Jasna Prpić-Oršić; Alessandro Sacchet; Mahmud Sazidy; Bahadir Ugurlu; Roberto Vettor; Peter Wellens Official Discusser: Hayden Marcollo Committee II-1: Quasi-Static Response James Underwood (Chair); Erick Alley; Jerolim Andrić Dario Boote; Zhen Gao; Ad Van Hoeve; Jasmin Jelovica; Yasumi Kawamura; Yooil Kim; Jian Hu Liu; Sime Malenica; Heikki Remes; Asokendu Samanta; Krzysztof Woloszyk; Deqing Yang Official Discusser: Prof. T. Yoshikwa Committee II.2: Dynamic Response Gaute Storhaug (Chair); Daniele Dessi; Sharad Dhavalikar; Ingo Drummen; Michael Holtmann; Young-Cheol Huh; Lorenzo Moro; Andre Paiva; Svein Sævik; Rong-Juin Shyu; Shan Wang; Sue Wang; WenWei Wu; Yasuhira Yamada; Guiyong Zhang Floor Discussers: Ling Zhu; Tomoki Takami; Anriette (Annie) Bekker; Bruce Quinton; Robert Sielski Committee III.1: Ultimate Strength Paul E. Hess (Chair); Chen An; Lars Brubak; Xiao Chen; Jinn Tong Chiu; Jurek Czujko; Ionel Darie; Guoqing Feng; Marco Gaiotti; Beom Seon Jang; Adnan Kefal; Sukron Makmun; Jonas Ringsberg; Jani Romanoff; Saad Saad-Eldeen; Ingrid Schipperen; Kristjan Tabri; Yikun Wang; Daisuke Yanagihara Official Discusser: Jørgen Amdahl Committee III.2: Fatigue and Fracture Yordan Garbatov (Chair); Sigmund K Ås; Henk Den Besten; Philipp Haselbach; Adrian Kahl; Dale Karr; Myung Hyun Kim; Junjie Liu; Marcelo Igor Lourenço de Souza; Wengang Mao; Eeva Mikkola; Naoki Osawa; Fredhi Agung Prasetyo; Mauro Sicchiero; Suhas Vhanmane; Marta Vicente del Amo; Jingxia Yue Official Discusser Weicheng Cui Floor Discussers: Robert Sielski; Sören Ehlers; Stephane Paboeuf; Teresa Magoga Committee IV.1: Design Principles and Criteria Matthew Collette (Chair); Piero Caridis; Petar Georgiev; Torfinn Hørte; Han Koo Jeong; Rafet emek Kurt; Igor Ilnytskiy; Tetsuo Okada; Charles Randall; Zbigniew Sekulski; Matteo Sidari; Zhihu Zhan; Ling Zhu Official Discusser: Enrico Rizzuto Committee IV.2: Design Methods Andrea Ivaldi (Chair); Abbas Bayatfar; Jean-David Caprace; Gennadiy Egorov; Svein Erling Heggelund; Shinichi Hirakawa; Jung Min Kwon; Dan Mcgreer; Pero Prebeg; Robert Sielski; Mark Slagmolen; Adam Sobey; Wenyong Tang; Jiameng Wu Official Discusser: Mario Dogliani Committee V.1: Accidental Limit States Bruce Quinton; Gaetano De Luca; Topan Firmandha; Mihkel Körgesaar; Hervé Le Sourne; Ken Nahshon; Gabriele Notaro; Kourosh Parsa; Smiljko Rudan; Katsuyuki Suzuki; Osiris Valdez Banda; CareyWalters; Deyu Wang; Zhaolong Yu Official Discusser: Manolis Samuelides Committee V.2: Experimental Methods Sören Ehlers (Chair); Nagi Abdussamie; Kim Branner; ShiXiao Fu; Martijn Hoogeland; Kari Kolari; Paul Lara; Constantine Michailides; Hideaki Murayama; Cesare Rizzo; Jung Kwan Seo; Patrick Kaeding Official Discusser: Giles Thomas Committee V.3: Materials and Fabrication Technology Lennart Josefson (Chair); Konstantinos Anyfantis; Bianca de Carvalho Pinheiro; Bai-Qiao Chen; Pingsha Dong; Nicole Ferrari; Koji Gotoh; James Huang; Matthias Krause; Kun Liu; Stephane Paboeuf; Stephen van Duin; Fang Wang; Albert Zamarin Official Discusser: Frank Roland Floor Discussers Alessandro Caleo; Agnes Marie Horn; Krzysztof Woloszyk; Robert Sielski Committee V.4: Offshore Renewable Energy Atanasios Kolios (Chair); Kyong-Hwan Kim; Chen Hsing Cheng; Elif Oguz; Pablo Morato; Freeman Ralph; Chuang Fang; Chunyan Ji; Marc Le Boulluec; Thomas Choisnet; Luca Greco; Tomoaki Utsunomiya; Kourosh Rezanejad; Charles Rawson; Jose Miguel Rodrigues Official Discusser: Amy Robertson Committee V.5: Special Vessels Darren Truelock (Chair); Jason Lavroff; Dustin Pearson; Zbigniew (Jan) Czaban; Hanbing Luo; Fuhua Wang; Ivan Catipovic; Ermina Begovic; Yukichi Takaoka; Claudia Loureiro; Chang Yong Song; Esther Garcia; Alexander Egorov; Jean-Baptiste Souppez; Pradeep Sensharma; Rachel Nicholls-Lee Official Discusser: Jaye Falls Floor Discussers: Jasmin Jelovica; Stephane Paboeuf; Sören Ehlers Committee V.6: Ocean Space Utilization Sebastian Schreier (Chair); Felice Arena; Harry Bingham; Nuno Fonseca; Zhiqiang Hu; Debabrata Karmakar; Ekaterina Kim; Hui Li; Pengfei Liu; Motohiko Murai; Spiro J Pahos; Chao Tian; George Wang Official Discusser: Hideyuki Suzuki Floor Discussers: Robert Sielski; Sue Wang; Sarat Mohapatra; Gaute Storhaug; Henk den Besten Committee V.7: Structural Longevity Iraklis Lazakis (Chair); Bernt Leira; Nianzhong Chen; Geovana Drumond; Chi-Fang Lee; Paul Jurisic; Bin Liu; Alysson Mondoro; Pooria Pahlavan; Xinghua Shi; Ha Cheol Song; Tadashi Sugimura; Christian Jochum; Tommaso Coppola Official Discusser: Timo de Beer Floor Discusser: Krzysztof Woloszyk Committee V.8: Subsea Technology Agnes Marie Horn (Chair); Tauhid Rahman; Ilson Pasqualino; Menglan Duan; Zhuang Kang; Michael Rye Andersen; Yoshihiro Konno; Chunsik Shim; Angelo Teixeira; Selda Oterkus; Blair Thornton; Brajendra Mishra Official Discusser: Segen F. Estefen

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