浅岡 聡SATOSHI ASAOKA

Last Updated :2021/01/05

所属・職名
広島大学 准教授
メールアドレス
stasaokahiroshima-u.ac.jp
自己紹介
環境分析化学を専門として、地下水,河川水,海水・排水処理,沿岸域の環境修復など幅広い水環境について研究対象としています。特に、(1)排水からの栄養塩や重金属を除去するための吸着材の開発;(2)リサイクル材料を用いた閉鎖性水域の環境管理・環境修復; (3)水環境の管理やモニタリングのための分析法の開発などに取り組んでいます。

基本情報

学位

  • 修士(工学) (豊橋技術科学大学)
  • 博士(学術) (広島大学)

研究分野

  • 農学 / 水圏応用科学 / 水圏生産科学
  • 環境学 / 環境保全学 / 環境モデリング・保全修復技術
  • 環境学 / 環境保全学 / 環境材料・リサイクル

研究キーワード

  • 水産環境
  • 堆積物
  • 水環境
  • 資源循環
  • 閉鎖性水域
  • 沿岸域
  • 環境分析化学
  • 吸着
  • 環境修復
  • 栄養塩

研究活動

学術論文(★は代表的な論文)

  1. Optimum reaction ratio of coal fly ash to blast furnace cement for effective removal of hydrogen sulfide, Chemosphere, 168巻, pp. 384-389, 201701
  2. A pilot study on remediation of muddy tidal flat using porous pile, MARINE POLLUTION BULLETIN, 114巻, 2号, pp. 837-842, 201701
  3. Numerical evaluation of the use of granulated coal ash to reduce an oxygen-deficient water mass, MARINE POLLUTION BULLETIN, 107巻, 1号, pp. 188-205, 201606
  4. Mechanisms of solidification and subsequent embrittlement of dephosphorization slag used in a subtidal zone as an alternative to sea sand and prevention of solidification by adding dredged soil, CLEAN TECHNOLOGIES AND ENVIRONMENTAL POLICY, 18巻, 4号, pp. 1167-1176, 201604
  5. Enhancement of Marine Phytoplankton Growth by Steel-making Slag as a Promising Component for the Development of Algal Biofuels, ISIJ INTERNATIONAL, 56巻, 4号, pp. 708-713, 2016
  6. Evaluation of steelmaking slag as basal media for coastal primary producers, MARINE POLLUTION BULLETIN, 100巻, 1号, pp. 240-248, 201511
  7. Estimation of spatial distribution of coastal ocean primary production in Hiroshima Bay, Japan, with a geostationary ocean color satellite, Estuarine, Coastal and Shelf Science, 244巻, pp. 106897-106897, 202010
  8. Organic matter degradation characteristics of coastal marine sediments collected from the Seto Inland Sea, Japan, Marine Chemistry, 225巻, pp. 103854-103854, 202009
  9. 淀川河口部汽水域における有機物の起源と分解特性, 日本水環境学会誌, 43巻, 4号, pp. 87-96, 202005
  10. Annual dynamics of benthic primary production by macrophytes on a sand flat in the eutrophic Hiroshima Bay, Japan, REGIONAL STUDIES IN MARINE SCIENCE, 34巻, pp. 101000, 202002
  11. Spatial Distribution of Perfluorinated Organic Compounds in Surface Marine Sediments from the Seto Inland Sea, Japan, Journal of Water and Environment Technology, 18巻, 4号, pp. 226-237, 2020
  12. Distribution and source estimation of polycyclic aromatic hydrocarbons in coastal sediments from Seto Inland Sea, Japan, Environmental Chemistry, 2020
  13. Persistent organic pollutants are still present in surface marine sediments from the Seto Inland Sea, Japan, MARINE POLLUTION BULLETIN, 149巻, pp. 110543, 201912
  14. Identifying sulfur species adsorbed on particulate matters in exhaust gas emitted from various vessels, CHEMOSPHERE, 223巻, pp. 399-405, 201905
  15. Biological productivity evaluation at lower trophic levels with intensive Pacific oyster farming of Crassostrea gigas in Hiroshima Bay, Japan, Aquaculture, 495巻, pp. 311-319, 20181001
  16. Spatial distribution of hydrogen sulfide and sulfur species in coastal marine sediments Hiroshima Bay, Japan, Mar Pollut. Bull, 133巻, pp. 891-899, 20180801
  17. Removal of hydrogen sulfide with granulated coal ash under aerobic and anaerobic conditions, J. Environ. Chem. Eng., 6巻, 4号, pp. 4665-4670, 201808
  18. Historical changes in primary production in the Seto Inland Sea, Japan, after implementing regulations to control the pollutant loads, Water Policy, 20巻, pp. wp2018093, 201803
  19. Quantitative measurement on removal mechanisms of phosphate by class-F fly ash, Inter. J. Coal Prepare. Utilize., 38巻, 2号, pp. 1-12, 201801
  20. The influence of seawater properties on toxicity of copper pyrithione and its degradation product to brine shrimp Artemia salina, Ecotoxicol. Environ. Saf., 147巻, pp. 132-138, 201708
  21. Capillary zone electrophoresis determination of aniline and pyridine in sewage samples using transient isotachophoresis with a system-induced terminator, JOURNAL OF CHROMATOGRAPHY A, 1511巻, pp. 132-137, 201708
  22. Preliminary study for determining principal-component ions in salts using capillary zone electrophoresis, Bull. Soc. Sea Water Sci. Jpn, 71巻, pp. 296-297, 201708
  23. Estimation of hydrogen sulfide removal efficiency with granulated coal ash applied to eutrophic marine sediment using a simplified simulation model, MARINE POLLUTION BULLETIN, 94巻, 1-2号, pp. 55-61, 201505
  24. Detection tube method for trace level arsenic, Journal of Environmental Chemical Engineering, 3巻, 1号, pp. 40-45, 2015
  25. A membrane extraction method for trace level phosphate analysis, ANALYTICAL METHODS, 7巻, 21号, pp. 9268-9273, 2015
  26. Regeneration of manganese oxide as adsorption sites for hydrogen sulfide on granulated coal ash, CHEMICAL ENGINEERING JOURNAL, 254巻, pp. 531-537, 201410
  27. Chemical behavior of sand alternatives in the marine environment, CHEMOSPHERE, 111巻, pp. 164-168, 201409
  28. An online solid phase extraction method for the determination of ultratrace level phosphate in water with a high performance liquid chromatograph, CHEMICAL GEOLOGY, 380巻, pp. 41-47, 201407
  29. Growth Inhibition of Microcystis aeruginosa by Allelopathic Compounds Originally Isolated from Myriophyllum spicatum: Temperature and Light Effects and Evidence of Possible Major Mechanisms, JOURNAL OF CHEMICAL ENGINEERING OF JAPAN, 47巻, 6号, pp. 488-493, 201406
  30. Removal of hydrogen sulfide with steelmaking slag by concurrent reactions of sulfide mineralization and oxidation, ECOLOGICAL ENGINEERING, 63巻, pp. 122-126, 201402
  31. Mechanism of Suppression of Sulfide Ion in Seawater Using Steelmaking Slag, ISIJ INTERNATIONAL, 54巻, 7号, pp. 1741-1748, 2014
  32. Removal of hydrogen sulfide using carbonated steel slag, Chemical Engineering Journal, 228巻, pp. 843-849, 20130705
  33. 水環境における銅ピリチオン防汚剤の運命に及ぼす底質の影響, 環境化学, 23巻, 2号, pp. 65-72, 201306
  34. 付着微細藻の増殖に対する炭酸化製鋼スラグの影響, 鉄と鋼, 99巻, 3号, pp. 260-266, 201303
  35. 沈水植物ホザキノフサモのアレロパシー効果がシアノバクテリウムMicrocystis aeruginosaと緑藻Scenedesmus obliquusの競合に与える影響, 水環境学会誌, 36巻, 3号, pp. 85-90, 201303
  36. Suppression of phosphate release from coastal sediments using granulated coal ash, Estuarine, Coastal and Shelf Science, 116巻, pp. 41-49, 20130101
  37. Determination Method for Maximum Calcium Releasing Potential from Steel Slags, Marine Sands Alternatives in Seawater, ISIJ INTERNATIONAL, 53巻, 10号, pp. 1888-1893, 2013
  38. Comparison of antimony and arsenic behavior in an Ichinokawa River water-sediment system, CHEMICAL GEOLOGY, 334巻, pp. 1-8, 201212
  39. 製鋼スラグによる海水中の硫化物イオンの低減機構, 鉄と鋼, 98巻, 11号, pp. 618-625, 201211
  40. Remediation of muddy tidal flat sediments using hot air-dried crushed oyster shells, MARINE POLLUTION BULLETIN, 64巻, 11号, pp. 2428-2434, 201211
  41. Recovery and Separation of Rare Earth Elements Using Columns Loaded with DNA-filter Hybrid, ANALYTICAL SCIENCES, 28巻, 10号, pp. 985-992, 201210
  42. Mechanisms of Hydrogen Sulfide Removal with Steel Making Slag, ENVIRONMENTAL SCIENCE & TECHNOLOGY, 46巻, 18号, pp. 10169-10174, 201209
  43. Growth and uptake kinetics of phosphate by benthic microalga Nitzschia sp isolated from Hiroshima Bay, Japan, PHYCOLOGICAL RESEARCH, 60巻, 3号, pp. 223-228, 201207
  44. Combined adsorption and oxidation mechanisms of hydrogen sulfide on granulated coal ash, JOURNAL OF COLLOID AND INTERFACE SCIENCE, 377巻, 1号, pp. 284-290, 201207
  45. Solidification Behavior and Control of Steel Slag in Marine Environment, J. Solid Waste Technol. Manage., 27巻, pp. 1180-1188, 201203
  46. Long Term Physical and Chemical Behaviors of Steel Slags in Sea Water and Sediment, J. Solid Waste Technol. Manage., 27巻, pp. 1314-1323, 201203
  47. Development of an on-site simplified determination method for hydrogen sulfide in marine sediment pore water using a shipboard ion electrode with consideration of hydrogen sulfide oxidation rate, Interdisciplinary Studies on Environmental Chemistry—Environmental Pollution and Ecotoxicology, 6巻, pp. 345-352, 2012
  48. 熱風乾燥牡蠣殻片による閉鎖性水域の環境改善, 用水と廃水, 53巻, 5号, pp. 371-378, 201105
  49. Phosphorus Mass Balance in a Highly Eutrophic Semi-Enclosed Inlet Near a Big Metropolis: A Small Inlet can Contribute towards Particulate Organic Matter Production, Marine Pollution Bulletin, 63巻, 5号, pp. 237-242, 2011
  50. Preconcentration Method of Antimony Using Modified Thiol Cotton Fiber for Isotopic Analyses of Antimony in Natural Samples, ANALYTICAL SCIENCES, 27巻, 1号, pp. 25-28, 201101
  51. Determination of natural isotopic variation in antimony using inductively coupled plasma mass spectrometry for an uncertainty estimation of the standard atomic weight of antimony, GEOCHEMICAL JOURNAL, 45巻, 1号, pp. 27-32, 2011
  52. Crushed oyster shell addition is effective in suppressing hydrogen sulfide build-up in anoxic marine sediments, Techno-Ocean 2010, pp. CD-ROM, 201010
  53. Activity for restoration of the muddy tidal flat at the innermost Hiroshima Bay, Techno-Ocean 2010, pp. CD-ROM, 201010
  54. Characteristics of phosphate adsorption onto granulated coal ash in seawater, Marine Pollution Bulletin, 60巻, 8号, pp. 1188-1192, 201008
  55. Blast furnace slag can effectively remediate coastal marine sediments affected by organic enrichment, MARINE POLLUTION BULLETIN, 60巻, 4号, pp. 573-578, 201004
  56. Remediation of coastal marine sediments using granulated coal ash, JOURNAL OF HAZARDOUS MATERIALS, 172巻, 1号, pp. 92-98, 200912
  57. Removal of hydrogen sulfide using crushed oyster shell from pore water to remediate organically enriched coastal marine sediments, BIORESOURCE TECHNOLOGY, 100巻, 18号, pp. 4127-4132, 200909
  58. 石炭灰造粒物による硫化物イオンの除去, 水環境学会誌, 32巻, 7号, pp. 363-368, 200907
  59. 底質改善材としての石炭灰造粒物の底生微細藻および底泥の菌叢への影響, 用水と廃水, 51巻, 3号, pp. 237-244, 200903
  60. 石炭灰造粒物による有機質底泥の改善, 用水と廃水, 51巻, 2号, pp. 157-163, 200902
  61. Removal of manganese from natural and seawater using magnesium oxide, Philippine Scientist, 46巻, pp. 65-77, 2009
  62. 石炭灰造粒物を用いた沿岸底質環境改善材開発のための基礎的研究~栄養塩溶出試験およびSkeletonema costatumの増殖試験~, 水環境学会誌, 31巻, 8号, pp. 455-462, 200808
  63. 世界遺産登録初年度の熊野古道伊勢路の水質, 用水と廃水, 50巻, 3号, pp. 194-201, 200803
  64. 造粒石粉を用いた沿岸底質環境改善材開発のための基礎的研究~栄養塩溶出試験およびSkeletonema costatumの増殖試験~, 水環境学会誌, 31巻, 2号, pp. 93-99, 200802
  65. 2004年における世界遺産熊野古道伊勢路を主とした河川,湧水の水質, 日本土壌肥料学雑誌, 79巻, 1号, pp. 27-36, 200802
  66. A spot test for ammonium ion by the color band formation method, TALANTA, 72巻, 3号, pp. 1100-1105, 200705
  67. ケイ酸アルミニウムへの食品工場排水中のアンモニア態窒素およびリン酸の吸着特性, 日本土壌肥料学雑誌, 77巻, 5号, pp. 533-539, 200610
  68. 栄養塩類吸着後のケイ酸アルミニウム施用による植物への影響, 日本土壌肥料学雑誌, 77巻, 5号, pp. 583-585, 200610
  69. 各種無機系混合赤玉土による海水の脱塩と重金属の除去, 日本土壌肥料学雑誌, 77巻, 2号, pp. 179-184, 200604
  70. 赤玉土および各種無機系混合赤玉土による海水の脱塩, 日本土壌肥料学雑誌, 77巻, 1号, pp. 33-39, 200602

招待講演、口頭・ポスター発表等

  1. 富栄養な海、貧栄養な海、それぞれの環境修復技術, 浅岡 聡, 神戸大学内海域環境教育研究センター ,アジア太平洋地球変動研究ネットワーク(APN),公益財団法人 国際エメックスセンター共催セミナー:沿岸域の生物多様性と環境修復~新たな課題と最新のモニタリング手法~, 2020年02月20日
  2. 火力発電所からの石炭灰をリサイクルした環境修復材料の開発, 浅岡 聡, はりま産学交流会創造例会10月, 2019年10月18日
  3. 閉鎖性水域の堆積物中の硫黄の化学形態と石炭灰造粒物を利用した閉鎖性水域の底質改善法, 浅岡 聡, 2019年度立命館大学SRセンター成果報告会, 2019年06月, 立命館大学
  4. Remediation of eutrophic sediments using granulated coal ash derived from coal-fired generation, Satoshi ASAOKA; Takahito OIKAWA; Hideaki NOHARA, 4th Green & sustainable Chemistry Conference, 2019年05月, Dresden, Germany
  5. Comparison between assemblages of diatom fossil and biomarkers in surface sediments from Seto Inland Sea, Kotaro HIROSE; Hideto NAKAMURA; Takuro ANDO; Satoshi ASAOKA; Ken SAWADA, Japan Geoscience Union Meeting 2019, 2019年05月, Makuhari Messe, Chiba, Japan
  6. Identifying sulfur species in particulate matter derived from various ships using XAFS analyses, Satoshi ASAOKA; Yasuhiro USHIHARA; Akira UMEHARA; Kazuhiko TAKEDA; Hiroshi SAKUGAWA; Shinjiro HAYAKAWA, The 22th Hiroshima International Symposium on Synchrotron Radiation, 2018年03月, Hiroshima University
  7. Biological productivity on lower trophic levels in inter-tidal and sub-tidal areas in Hiroshima Bay, Japan, Akira UMEHARA; Satoshi ASAOKA; Sosuke OTANI; Naoki FUJII; Haruka MIYAGAWA; Satoshi NAKAI; Tetsuji OKUDA; Masaki OHNO; Wataru NISHIJIMA, The Third Asian Marine Biology Symposium, 2017年11月, Prefectural University, Kumamoto, Japan
  8. 石炭灰造粒物を用いた閉鎖性水域の環境改善, 浅岡 聡; 山本民次; 早川慎二郎; 井上智子, 日本セラミクス協会第30回秋季シンポジウム, 2017年09月, 神戸大学
  9. The interactive effect of salts and copper pyrithione on a brine shrimp survival, Vesna LAVTIZAR; Daisuke KIMURA; Satoshi ASAOKA; Hideo OKAMURA, International Conference on Emerging Trends In Environmental Engineering and Pollution Control, 2017年03月, Beijing, China
  10. Oxidation mechanism of hydrogen sulfide on the surface of mixture of granulated coal ash and metal oxides, Waqar Azeem JADOON; Satoshi ASAOKA; Kenji NAKAMOTO; Kadutoshi HINO; Ayaka TAMURA; Shinjiro HAYAKAWA, The 21th Hiroshima International Symposium on Synchrotron Radiation, 2017年03月, Higashi-Hiroshima, Japan
  11. Identifying sulfur species in particulate matter derived from various ships using XAFS analyses, Satoshi ASAOKA; Waqar Azeem JADOON; Tomoshisa DAN; Hideo OKAMURA; Kadumitsu NAKAGUCHI; Mitsuru KUBOTA; Ayaka TAMURA; Shinjiro HAYAKAWA, International Symposium on Synchrotron Radiation, 2017年03月, Higashi-Hiroshima, Japan
  12. Transfer efficiency from primary producers to Ruditapes philippinarum on an intertidal flat in Hiroshima Bay, Japan, Sosuke OOTANI; Akira UMEHARA; Haruka MIYAGAWA; Satoshi ASAOKA; Naoki FUJII; Tetsuji OKUDA; Satoshi NAKAI; Wataru NISHIJIMA, EMECS’11, 2016年08月, St Petersburg, Russia
  13. Fate of silts and clay from river and its contribution to transparency, Tetsuji OKUDA; Satoshi SEKITOU; Akira UMEHARA; Satoshi ASAOKA; Satoshi NAKAI; Wataru NISHIJIMA, EMECS’11, 2016年08月, St Petersburg, Russia
  14. Energy transfer efficiencies on lower trophic levels with intensive oyster farming in Hiroshima Bay, Japan, Akira UMEHARA; Satoshi ASAOKA; Naoki FUJII; Sousuke OTANI; Hironori YAMAMOTO; Satoshi NAKAI; Tetsuji OKUDA; Wataru NISHIJIMA, EMECS’11, 2016年08月, St Petersburg, Russia
  15. Identifying sulfur species in marine sediments collected from Osaka Bay using XAFS, Satoshi ASAOKA; Hideo OKAMURA; Yasuhiro USHIHARA; Toru ENDO; Ayaka TAMURA; Shinjiro HAYAKAWA, The 20th Hiroshima International Symposium on Synchrotron Radiation, 2016年03月, Higashi Hiroshima, Japan
  16. Remediation of eutrophic coastal marine sediments using granulated coal ash, a by-product from coal electric power plants, Satoshi ASAOKA; Hideo OKAMURA; Kenji NAKAMOTO; Kazutoshi HINO, International Conference Sustainable Materials Science and Technology 2015, 2015年07月, Paris, France
  17. Development pf a coal fly ash and cement mixture for optimum removal of hydrogen sulfide from water, Satoshi ASAOKA; Hideo OKAMURA; Shinjiro HAYAKAWA, The 19th Hiroshima International Symposium on Synchrotron Radiation, 2015年03月, Higashi Hiroshima, Japan
  18. Dissolved copper concentartions in seawater at a habor in Osaka Bay, Japan, Guoxin Li; Hideo OKAMURA; Satoshi ASAOKA, 10th International Symposium on Marine Engineering, 2014年09月, Harbin China
  19. フライアッシュとセメントの混合比率を変化させた硫化物イオン吸着材の開発, 浅岡 聡; 岡村秀雄; 中野勝允; 中本健二; 樋野和俊; 片山真祥; 稲田康宏, 立命館大学SRセンター研究成果報告会, 2014年06月, 立命館大学びわこ・くさつキャンパス
  20. Coal ash and cement mixture can remove hydrogen sulfide from marine sediments in enclosed water bodies, Satoshi ASAOKA; Hideo OKAMURA; Katsuyoshi NAKANO; Kenji NAKAMOTO; Kazutoshi HINO, ECSA54, 2014年05月, Sesimbra Portugal
  21. Identification of sulfur species adsorbed on particulate matters from ship exhaust gas using XAFS analyses, Satoshi ASAOKA; Hideo OKAMURA; Tomohisa DAN; Hisayo OKAMOTO; Shinjiro HAYAKAWA, The 18th Hiroshima International Symposium on Synchrotron Radiation, 2014年03月, Higashi Hiroshima
  22. フライアッシュ(石炭灰)とセメントを配合した造粒物による閉鎖性水域の底質改善材(硫化水素除去材), 浅岡 聡, JSE発 新技術説明会, 2014年01月, JST東京別館ホール
  23. 閉鎖性水域における環境改善材料のXAFSによる性能評価, 浅岡 聡; 岡村秀雄; 与儀千尋; 太田敏明; 片山真祥; 稲田康宏; 早川慎二郎, 立命館大学SRセンター研究成果報告会, 2013年06月, 立命館大学
  24. Oxidation mechanisms of hydrogen sulfide on the surface of manganese oxside in granulated coal ash, Satoshi ASAOKA; Shinjiro HAYAKAWA; Hideo OKAMURA; Tadashi SAITO, 17th Hiroshima International Symposium on Synchrotron Radiation, 2013年03月, Hiroshima University
  25. 産業系リサイクル材料各種による閉鎖性水域の環境改善効果の比較, 浅岡 聡; 岡村秀雄; 山本民次; 早川慎二郎; 竹田一彦; 片山真祥, 日本分析化学会広島地区分析技術講演会, 2013年02月, 広島大学
  26. Removal of hydrogen sulfide using steelmaking slag, Keisuke OKADA; Tetsuya WATANABE; Tamiji YAMAMOTO; Kyung-Hoi KIM; Satoshi ASAOKA; Akio HAYASHI; Shinjiro HAYAKAWA; Kazuhiko TAKEDA; Yasuhito MIYATA, 4th IWA Young Water Professional Conference 2012, 2012年12月, Tokyo
  27. Remediation of eutrophic sediments using industrial byproducts, Satoshi ASAOKA; Tamiji YAMAMOTO; Hideo OKAMURA, 4th IWA Young Water Professional Conference 2012, 2012年12月, Tokyo
  28. The use of dredged soil as additives to leverage steel slags for restoring sea grass beds and tidal flats, Hitomi YANO; Satoshi ASAOKA; Tetsuji OKUDA; Satoshi NAKAI; Wataru NISHIJIMA; Yoshihiro AKIYAMA, SETAC Asia/Pacific 2012, 2012年09月, Kumamoto
  29. Evaluation of Steel Slag as an Alternative Material of Sand for Coastal Ecosystem Creation, Wataru NISHIJIMA; Hitomi YANO; Satoshi ASAOKA; Tetsuji OKUDA; Satoshi NAKAI; Mitsumasa OKADA, 2012 ISWA World Solid Waste, 2012年09月, Florence, Italy
  30. Solidification Behavior and Control of Steel Slag in Marine Environment, Wataru NISHIJIMA; Satoshi ASAOKA; Tetsuji OKUDA; Hitomi YANO; Satoshi NAKAI; Mitsumasa OKADA, 27th International Conference on Solid Waste Technology and Management
  31. Long Term Physical and Chemical Behaviors of Steel Slags in Sea Water and Sediment, Satoshi ASAOKA; Tetsuji OKUDA; Hitomi YANO; Koji YOSHITSUGU; Satoshi NAKAI; Wataru NISHIJIMA; Kenji SUGIMOTO; Daijiro MATSUNAMI; Yorishide ASAOKA; Mitsumasa OKADA, 27th International Conference on Solid Waste Technology and Management
  32. Evaluation on leaching potential of calcium from steel slags under marine environment, Tetsuji OKUDA; Satoshi ASAOKA; Koji YOSHITSUGU; Satoshi NAKAI; Wataru NISHIJIMA, The 10th Expert Meeting on Solid Waste Management in Asia and Pacific Island
  33. Physicochemical and biological properties of steel slag bed mixed with dredged material, Hitomi YANO; Satoshi ASAOKA; Tetsuji OKUDA; Satoshi NAKAI; Wataru NISHIJIMA, Water and Environment Technology Conference 2012, 2012年, Tokyo
  34. Field experiments on removing hydrogen sulfide in coastal marine sediments using granulated coal ash, Tamiji YAMAMOTO; Kyung Hoi KIM; Keita Shirono; Satoshi ASAOKA; Ichiro YOSHIOKA; Kazutoshi HINO, ECSA 50 and Estuarine Coastal and Shelf Science, 2012年, Venice, Italy
  35. Estimation of phosphorus content in the sea bottom sediment of Hiroshima Bay, Japan, Tamiji YAMAMOTO; Kyung Hoi KIM; Satoshi ASAOKA; Hironori YAMAMOTO, Association for the Sciences of Limnology and Oceanography (ASLO) aquatic sciences meeting, 2012年, Shiga, Japan
  36. Determination method for maximum calcium dissolving potential of steel slags, Satoshi ASAOKA; Hitomi YANO; Tetsuji OKUDA; Satoshi NAKAI; Mitsumasa OKADA, ECSA 50 - Estuarine Coastal and Shelf Science, 2012年, Venice, Italy
  37. Characteristics changes of by-products origin sand-alternatives in sea water and sediment, Tetsuji OKUDA; Satoshi ASAOKA; Hitomi YANO; Kenji SUGIMOTO; Daijirou MATSUNAMI; Yorihide ASAOKA; Satoshi NAKAI; Wataru NISHIJIMA; Mitsumasa OKADA, The 6th International Conference on Environmental Science and Technology 2012, 2012年, Houston, Texas, USA
  38. Remediation of muddy tidal flat sediments using hot air dried crushed oyster shells, Tamiji YAMAMOTO; Shunsuke KONDO; Kyunghoi KIM; Satoshi ASAOKA; Hironori YAMAMOTO, The 4th IWA-ASPIRE Conference and Exhibition
  39. 熱風乾燥牡蠣殻片による底質改善技術の開発, 浅岡 聡; 山本民次, 2011年度日本沿岸域学会, 2011年09月12日
  40. Suppression of Phosphate Release from Coastal Sediments using Granulated Coal Ash, Tamiji YAMAMOTO; Keita HARADA; K.H. KIM; Satoshi ASAOKA; Ichiro YOSHIOKA, The 9th International Conference on the Environmental Management of Enclosed Coastal Seas (EMECS9)
  41. Granulated coal ash can effectively adsorb hydrogen sulfide, Satoshi ASAOKA; Tamiji YAMAMOTO; Shinjiro HAYAKAWA; KH KIM; Hironori YAMAMOTO, The 9th International Conference on the Environmental Management of Enclosed Coastal Seas (EMECS9)
  42. Hydrogen sulfide concentration in pore water of Hiroshima Bay and its suppression technology for maintaining healthy aquaculture activities, Satoshi ASAOKA; Tamiji YAMAMOTO; Kyunghoi KIM; Hironori YAMAMOTO; Kaori ORIMOTO, Global COE Program, Ehime University, International Symposium on Advanced Studies by Young Scientists on Environmental Pollution and Ecotoxicology
  43. 鉄鋼スラグによる藻類増殖と有機泥改善によるビオトープ形成, 山本民次; 浅岡 聡, 水産環境保全委員会,リサイクル材による海域環境修復の最前線, 2011年07月16日
  44. カキ殻の物理化学的特性, 浅岡 聡; 山本民次; 早川慎二郎; 竹田一彦, 水産環境保全委員会,リサイクル材による海域環境修復の最前線, 2011年07月16日
  45. 石炭灰造粒物の物理化学的特性, 浅岡 聡; 山本民次; 竹田一彦; 早川慎二郎, 水産環境保全委員会,リサイクル材による海域環境修復の最前線, 2011年07月16日
  46. XAFS analysis of calcium peroxide on the surface of peroxized oyster shell, Satoshi ASAOKA; Tamiji YAMAMOTO; Yoshihiro MOGI; Shinjiro HAYAKAWA, The 15th Hiroshima International Symposium on Synchrotron Radiation
  47. Crushed oyster shell addition is effective in suppressing hydrogen sulfide build-up in anoxic marine sediments, Satoshi ASAOKA; Tamiji YAMAMOTO; Sunsuke KONDO; Shinjiro HAYAKAWA, Techno-Ocean 2010
  48. Activity for restoration of the muddy tidal flat at the innermost Hiroshima Bay, Tamiji YAMAMOTO; Shunsuke KONDO; Satoshi ASAOKA; Hironori YAMAMOTO; Tadashi HIBINO; Makoto TOKUOKA; Yoshifumi YASUMITSU, Techno-Ocean 2010
  49. Phosphorus mass balance in a highly eutrophic semi-enclosed inlet near a big metropolis: A small inlet can contribute towards particulate organic matter production, Satoshi ASAOKA; Tamiji YAMAMOTO, 6th International Conference on Marine Pollution and Ecotoxicology
  50. Identifying sulfur species for revealing adsorption mechanisms of hydrogen sulfide onto granulated coal ash by XAFS analysis, Satoshi ASAOKA; Shinjiro HAYAKAWA; Tamiji YAMAMOTO; Shunsuke KONDO, The 14th Hiroshima International Symposium on Synchrotron Radiation
  51. The Center for Restoration of Basin Ecosystem and Environment (CeRBEE), activity center for integrated coastal management, established in Hiroshima University, Japan., Tamiji YAMAMOTO; Satoshi ASAOKA; Hironori YAMAMOTO, International Symposium on Integrated Coastal Management for Marine Biodiversity in Asia
  52. Antimony isotope study in the Kamo-Ichinokawa river system near the Ichinokawa Sb mine in Southwest Japan, Satoshi ASAOKA; Yusuke ARAKI; Masaharu TANIMIZU; Yoshio TAKAHASHI, American Geophysical Union Fall meeting 2009
  53. Adsorption mechanisms of hydrogen sulfide onto Granulated Coal Ash, Satoshi ASAOKA; Tamiji YAMAMOTO; Shinjiro HAYAKAWA, The 13th Hiroshima International Symposium on Synchrotron Radiation
  54. Adsorption mechanism of hydrogen sulfide onto Crushed Oyster Shell, Shunsuke KONDO; Satoshi ASAOKA; Tamiji YAMAMOTO; Shinjiro HAYAKAWA, The 13th Hiroshima International Symposium on Synchrotron Radiation
  55. Remediation of organically enriched sediment in enclosed water bodies using Granulated Coal Ash, Satoshi ASAOKA, Academic Forum, Holly Name University, 2009年03月
  56. Deterioration of sediment quality in Hiroshima Bay: Comparison with the neighboring area, Suo Nada, Tamiji YAMAMOTO; Toshiya HASHIMOTO; Osamu MATSUDA; Osamu KAWAGUCHI; Jutarat KITTIWANICH; Jahangir Mohamad SARKER; Koichi HARAGUCHI; Satoshi ASAOKA, 5th World Fisheries Congress
  57. 石炭灰造粒物および造粒石粉による微細藻の増殖試験, 浅岡 聡; 山本民次; 山本杏子, 国土交通省四国地方整備局第4回瀬戸内海環境シンポジウム in 高松, 2008年10月10日
  58. 造粒石粉を用いた沿岸底質環境改善材開発のための基礎的研究~栄養塩溶出試験およびSkeletonema costatumの増殖試験~, 第10回日本水環境学会シンポジウム

受賞

  1. 2018年04月, 平成30年度科学技術分野の文部科学大臣表彰(開発部門), 文部科学省
  2. 2007年, 第10回日本水環境学会シンポジウム博士研究奨励賞(オルガノ賞), 日本水環境学会
  3. 2005年, 第66回分析化学討論会新人賞, 日本分析化学会

取得

  1. 特許6721920, 2020年06月23日, 水質改良材及びその製造方法並びに水質改良方法
  2. 特許6202589, 水質改良材及びその製造方法並びに水質改良方法
  3. 特許5713390, 2015年03月20日, 希土類金属回収材および希土類金属回収方法
  4. 特許5257928, 2013年05月02日, 酸素発生材,酸素発生材の製造方法及び環境改善方法
  5. 特許5099773, 2012年10月05日, 底質環境改善材およびその利用

外部資金

競争的資金等の採択状況

  1. 科学研究費補助金/若手研究(A), 酸化触媒を担持した石炭灰による閉鎖性水域の難分解性底泥の分解材の開発, 2016年04月, 2020年03月
  2. X線吸収微細構造および硫化物イオン直接定量による底泥の硫黄の化学形態の解明, 2015年04月, 2016年03月
  3. 学術研究助成基金助成金/若手研究(B), フライアッシュとセメントを混合した硫化物イオン吸着材の開発, 2013年04月, 2016年03月
  4. 研究成果展開事業(マッチングプランナー プログラム), 石炭灰を有効活用した各種環境条件に最適化した硫化物イオン酸化複合触媒組成の検証, 2016年
  5. 学術研究助成基金助成金/挑戦的萌芽研究, 次世代燃料を用いた舶用機関からの排ガスが水環境に及ぼす影響評価, 2013年04月, 2015年03月
  6. 研究成果最適展開支援プログラム フィージビリティスタディステージ 探索タイプ, A-STEP「リサイクル底質改善材を用いた閉鎖性水域の硫化物イオン抑制」, 2013年
  7. 研究成果最適展開支援プログラム フィージビリティスタディステージ 探索タイプ, A-STEP「リサイクル底質改善材を用いた閉鎖性水域の硫化物イオン抑制」, 2012年
  8. 学術研究助成基金助成金, 瀬戸内海流域での地下水流動及び河川作用を考慮したリン循環の解明とその資源的評価, 2009年04月, 2011年03月
  9. 平成19年度日本財団笹川科学研究助成金, スラグ・石炭灰・石粉による底質改善効果の検証, 2007年04月, 2008年03月