Kyushu University Academic Staff Educational and Research Activities Database
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TETSUYA NAKANISHI Last modified date:2023.11.22

Associate Professor / The Kyushu University Museum


Graduate School


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Homepage
https://kyushu-u.elsevierpure.com/en/persons/tetsuya-nakanishi
 Reseacher Profiling Tool Kyushu University Pure
http://www.museum.kyushu-u.ac.jp/
website of Kyushu University Museum .
Phone
092-642-4297
Fax
092-642-4299
Academic Degree
Doctor of Engineering
Country of degree conferring institution (Overseas)
No
Field of Specialization
Mining Engineering, Economic Geology, History of Mining and Metallurgy
Total Priod of education and research career in the foreign country
00years00months
Outline Activities
[Research]
Analysis of trace elements in rock samples using ICP-MS.
Relationships between gold mineralization and silliceous sinter .
Complihensive survey and catalog making of materials for Japanies mining technology in the Edo era.
  Stable lead isotope ratio analysis for the evaluating of silver smelting process.
Orogenic gold deposits in Mongolia.
Porphyry copper deposit in Cambodia.

[Education]
Lecture of Museum Information
Lecture of Multimedia and Education

[Social activities]
Museum Exibition
Scientific support for experimental reproduction of old copper smelting (Mito town, Yamaguchi pref.)
Research
Research Interests
  • Systematization of the history of Japanese mining technology based on the scientific data of ore and slag.
    keyword : History of Mining and Metallurgy, slag, Instrumental Analysis
    2005.04Systematization of the history of Japanese mining technology based on the scientific data of ore and slag..
  • Comprehensive survey and catalog making of materials for Japanese mining technology in the Edo era.
    keyword : Edo era, mining technology, database
    2002.04~2007.03Comprehensive survey and catalog making of materials for Japanese mining technology in the Edo era..
  • Geochemical study of siliceous sinter and its relationship with epithermal gold mineralization.
    keyword : epithermal gold mineralization, siliceous sinter, ICP-MS, trace analysis
    1994.04~2001.03Geochemical study of siliceous sinter and its relationship with epithermal gold mineralization..
  • A research work on the forming process of orogenic gold deposits in Mongolia
    keyword : orogenic gold deposit, mongolia, fluid inclusion
    2011.04.
  • Geochemical research on porphyry copper deposit at Halo prospect in north east Cambodia.
    keyword : cambodia, porphyry copper, geochemistry
    2016.10.
Current and Past Project
  • Systematization of pre-modern smelting technology on non-ferrous metal in Japan using geo-scientific approach
  • A research on the analysis and organization of smelting slag from production remains
  • P&P research for the development of outreaching technique for utilizing of Museum Exbition.
Academic Activities
Papers
1. Seang SIRISOKHA, Tetsuya NAKANISHI, Kotaro YONEZU, Koichiro WATANABE and Bun Kim NGUN, Initial Study on Alteration, Mineralization and Fluid Inclusion Microthermometry in Oyadav South, Ratanakiri, Cambodia, International Symposium on Earth Science and Technology 2017, 421-425, 2017.12.
2. Sarantuya Oyungerel, TETSUYA NAKANISHI, KOTARO YONEZU, Koichiro Watanabe, Jargalan, The Characteristics of Mineralogy, Geochemistry and Ore Fluid of the Olon Ovoot Gold Deposit, South Mongolia, International Symposium on Earth Science and Technology 2016, 440-446, 2016.12.
3. EIJI IZAWA, TETSUYA NAKANISHI, Gold Refining by Cementation with Salt at Sado in Early Seventeenth Century Japan, ISIJ, http://dx.doi.org/10.2355/isijinternational.54.1098, 54, 5, 1098-1105, 2014.06.
4. TETSUYA NAKANISHI, EIJI IZAWA, Evolution of Silver-smelting Technology of Japan in the Middle of Sixteenth Century, ISIJ, http://dx.doi.org/10.2355/isijinternational.54.1093, 54, 5, 1093-1097, 2014.06.
5. TETSUYA NAKANISHI, EIJI IZAWA, Evolution of silver-smelting technology of Japan in the middle of the sixteenth century, The 8th International Conference on the Beginnings of the Use of Metals and Alloys, 198-202, 2014.01.
6. EIJI IZAWA, TETSUYA NAKANISHI, Gold refining by cementation with salt at Sado in early seventeenth century, The 8th International Conference on the Beginnings of the Use of Metals and Alloys, 203-210, 2014.01.
7. T.Nakanishi,E.Izawa, Evolution of silver-smelting technology of Japan in the middle of the 16th century, 材料とプロセス(CAMP-ISIJ), 24, 1083-1086, 2011.09.
8. 中西哲也, 呷拉宗遺跡製鉄遺構の理化学的分析, 国際ワークショップ『東アジア青銅器・初期鉄器時代の諸問題』, 2009.12.
9. Tetsuya Nakanishi, Variations of the chemical composition of Japanese early modern silver coin "Ichibu-gin", The 7th International Conference on the Beginnings of the Use of Metals and Alloys, p. 49, 2009.09.
10. A research on the Fukuishi deposit at Iwami-ginzan silver mine (1).
11. Mine sites and associated materials in pre-modern Japan..
12. Whereabouts of materials associated with pre-modern mines in Japan.
13. Tetsuya Nakanishi, Ryohta Yoshikawa, Yoshinobu Motomura and Eiji Izawa, Characcteristics of Ores and Slags from the Iwami-Ginzan Silver Mine Site, The 6th International Conference on the Beginnings of the Use of Metals and Alloys, p. 49-50, 2006.09.
14. Ryohta Yoshikawa, Yoshinobu Motomura, Tetuya Nakanishi and Eiji Izawa, Smelting of Oxidized Copper Ore -Ore and Slag from the Naganobori Mine in the Early 8th Century, The 6th International Conference on the Beginnings of the Use of Metals and Alloys, p. 26-27, 2006.09.
15. T. NAKANISHI, E. IZAWA and K. WATANABE, Mineralogical and Geochemical characteristics of Siliceous Sinter in Japan., Proceedings of The 25th New Zealand Geothermal Workshop, p.155-160, 2003.11.
16. Belhadi, A., Nakanishi, T., Watanabe, K. and Izawa, E., Gold mineralization and occurrence of sinter in the Hoshino area, Fukuoka Prefecture, Japan., Resource Geology, 10.1111/j.1751-3928.2002.tb00147.x, 52, 4, 371-380, Vol. 52, no. 4, p. 371-380, 2002.01.
Presentations
1. TETSUYA NAKANISHI, Geochemical research of pre-modern copper smelting site ”Kamino-Tokoya”, Besshi copper mine, Japan., The 10th International Conference on the Beginnings of the Use of Metals and Alloys (BUMA-X), 2022.07.
2. Eiji Izawa, Tetuya Nakanishi, Japanese silver mining from 674 to early seventeenth centuries and lead isotopic ratios of silver ores, 日本鉄鋼協会, 2019.03.
3. Seang Sirisokha, TETSUYA NAKANISHI,,KOTARO YONEZU, Akira Imai, Thomas Tindell and Koichiro Watanabe, Hydrothermal alteration, mineralization and fluid inclusion microthermometry of the Halo prospect porphyry copper-molybdenum, Southeast of Cambodia, International Symposium on Earth Science and Technology 2018, 2018.11, The Halo prospect porphyry copper-molybdenum is located in Southeastern part of Cambodia. This prospect is hosted by porphyritic diorite, porphyritic granodiorite, feldspar porphyry, andesite dykes, and rhyolite dykes. The hydrothermal alteration and mineralization can be divided into four stages, stage 1; quartz+magnetite± molybdenite±chalcopyrite ±pyrite vein, stage2; quartz+molybdenite±chalcopyrite±pyrite vein, stage 3; quartz pyrite ±chalcopyrite±sphalerite vein, stage 4; anhydrite±calcite±pyrite vein. Five main alteration assemblages were identified: potassic-sericitic, phyllic, propylitic, intermediate argillic, and silicic alteration. Hydrothermal quartz mainly contains four types of fluid inclusions: type I (liquid+vapor), typeII (liquid+vapor+anhydrite), typeIII (liquid+vapor+opaque) and type IV (liquid+vapor+halite). The homogenization temperatures (Th) (from vapor+liquid to liquid) of type I, type III, and type IV fluid inclusions in quartz veins associated with the potassic-sericitic alteration range from 185 to 309oC, 329 to 400oC and 229 to 460oC with salinity ranging from 2 to 8 wt.% 14 to 17 wt.% 35 to 58 wt.% NaCl equiv., respectively. On the other hand, the Th (from vapor+liquid to liquid) of type I, type II, type III, and type IV fluid inclusions in quartz in the silicic alteration range from 201 to 290oC, 285 oC, 210 to 286oC and 290 to 381oC with salinity ranging from 0.5 to 11 wt. %, 16.wt. %, 8 to 21 wt. %, and 40 to 52 wt. % NaCl equiv., respectively..
4. Seang Sirisokha, Tetsuya Nakanishi, Kotaro Yonezu and Koichiro Watanabe, Initial Study on Alteration and Fluid Inclusion Microthermometry in Oyadav South, Ratanakiri, Cambodia, 10TH AUN/SEED-NET GEOLOGICAL ENGINEERING CONFERENCE, 2017.08.
5. TETSUYA NAKANISHI, A comparison of Gold mineralization in Northern and Southern Orogenic belt in Mongolia, 6th Asia Africa Mineral Resources Conference, 2016.09.
6. O. Sarantuya, TETSUYA NAKANISHI, Tindell Thomas, Kotaro Yonezu, Koichiro Watanabe, S. Jargalan, Mineralogical Study and Fluid Characteristics of Olon Ovoot Gold Deposit, Southern Mongolia, International Geological Congress, 2016.06.
7. O. Sarantuya, TETSUYA NAKANISHI, Tindell Thomas, Kotaro YONEZU, Koichiro Watanabe, S. Jargalan, Ore mineralogy and ore-forming condition of the Olon Ovoot gold deposit, South Mongolia, 資源地質学会第66回年会, 2016.06.
8. TETSUYA NAKANISHI, Progress of Mining Activity in Resent Mongolia , 8th IC-GeoE & SIMPOMIN 2015, 2015.09.
9. 前田淳郎, TETSUYA NAKANISHI, S. Oyungerel, KOTARO YONEZU, S. Jargalan, Gold Mineralization in the Goyot Ulaan Gold Deposit, Southern Mongolia, 8TH AUN/SEED-NET GEOLOGICAL ENGINEERING CONFERENCE, 2015.09.
10. 前田淳郎, TETSUYA NAKANISHI, Oyungerel, KOTARO YONEZU, S. Jargalan, Geochemistry and mineralization of Goyot Ulaan gold deposit at Gyoto Ulaan open pit in Southern Mongolia, Asia Oceania Geosciences Society (AOGS), 2015.08.
11. 前田淳郎, TETSUYA NAKANISHI, S. Oyungerel, 米津 幸太郎, TINDELL THOMAS DAVID, Koichiro Watanabe, S. Jargalan, Geochemistry and mineralization of the Goyot Ulaan gold deposit, Southern Mongolia, 資源地質学会第64回年会, 2015.06.
12. S. Oyungerel, TETSUYA NAKANISHI, 米津 幸太郎, TINDELL THOMAS DAVID, Koichiro Watanabe, S. Jargalan, Geology and mineralization of the Olon Ovoot gold deposit, South Mongolia, 資源地質学会第64回年会, 2015.06.
13. TETSUYA NAKANISHI, The Naganobori copper mine: Ancient copper production of Japan in 8th century, 4th Asia Africa Mineral Resources Conference 2014, 2014.10.
14. 中西 哲也, 宮本真, 高橋亮平, 田口幸洋, 渡邊 公一郎, 米津 幸太郎, S. Jargalan, Depth and temperature of orogenic gold mineralization around the Yeroogol fault trend,
northern Mongolia, 資源地質学会第64回年会, 2014.06.
15. MAKOTO MIYAMOTO, TETSUYA NAKANISHI, RYOHEI TAKAHASHI, Sachihiro Taguchi, KOTARO YONEZU, Koichiro Watanabe, S. Jargalan, Formation of orogenic gold deposit around the Yeroogol trend, northern Mongolia , International Symposium on Earth Science and Technology 2013, 2013.12.
16. MAKOTO MIYAMOTO, TETSUYA NAKANISHI, RYOHEI TAKAHASHI, Sachihiro Taguchi, KOTARO YONEZU, Koichiro Watanabe, S. Jargalan, Ore forming condition of orogenic gold deposit around the Yeroogol trend, northern Mongolia, 3rd Asia Africa Mineral Resources Conference, 2013.09.
17. TETSUYA NAKANISHI, EIJI IZAWA, Evolution of silver-smelting technology of Japan in the middle of the16th century, The 8th International Conference on the Beginnings of the Use of Metals and Alloys (BUMA-VIII), 2013.09.
18. EIJI IZAWA, TETSUYA NAKANISHI, Gold refining by cementation with salt at Sado in early seventeenth century, The 8th International Conference on the Beginnings of the Use of Metals and Alloys (BUMA-VIII), 2013.09.
19. Silver ore smelting in pre-modern Japan..
20. Variations of the chemical composition of Japanese early modern silver coin "Ichibu-gin".
21. Investigation on mining technology in Early-Modern Japan.
22. Transfer of liquation technology (Namban-buki) -An effect of the European copper refining system-.
23. Contribution of economic geology to the technological history of mining..
Membership in Academic Society
  • Japan Geoscience Union
  • The Iron and Steel Institute of Japan
  • The Society of Resouce Geology
  • THE MINING AND MATERIALS PROCESSING INSTITUTE OF JAPAN
  • The Historical Study Group of Mining and Metallurgy, Japan
Educational
Educational Activities
Lecture of Museum exhibition
Lecture of Preservation Museum Collection
Social
Professional and Outreach Activities
Museum Exibition 2001
Museum Exhibition 2007.7
Museum Exhibition 2007.12
Field Excursion for Society of Economic Geologists Student Chapter CODES University of Tasmania (2007.7.22-26)
Museum Exhibition 2013.12
Museum Exhibition 2019.12
JICA project at Institute of Technology of Cambodia (2014-2015).