九州大学 研究者情報
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島田 英樹(しまだ ひでき) データ更新日:2019.11.29

教授 /  工学研究院 地球資源システム工学部門 資源システム工学講座


主な研究テーマ
石灰石鉱山における発破制御に関する研究
キーワード:石灰石鉱山、発破制御、粒度制御
2007.04~2020.03.
露天掘り石炭鉱山における酸性鉱廃水の抑制に関する研究
キーワード:酸性鉱廃水、露天掘り鉱山
2007.04~2020.03.
フライアッシュセメントの有効利用技術の開発に関する研究
キーワード:フライアッシュセメント、有効利用技術
2002.04~2020.03.
小口径推進トンネルの設計・施工に関する研究
キーワード:推進工法、推進力、泥水、泥膜、地下埋設工法
1996.04~2020.03.
グラウト材の地盤注入時における流動挙動に関する研究
キーワード:グラウト、地盤改良、流動挙動
1998.04~2020.03.
薬液注入後の地山の安定性ならびに周辺環境への影響に関する研究
キーワード:薬液注入、地盤改良
2000.04~2020.03.
種々の環境下における岩石の破壊靭性値の評価に関する研究
キーワード:破壊靭性、地山応力、環境条件
2001.04~2020.03.
粘土質岩石における耐スレ−キング性の評価に関する研究
キーワード:耐スレーキング、試験方法
2000.04~2020.03.
従事しているプロジェクト研究
推進工法掘削機のビット摩耗に関する研究
2010.10~2020.03, 代表者:島田英樹, 九州大学, 日本非開削技術協会.
オーガーマイニングシステムにおける掘削・運搬メカニズムの解明
2003.04~2020.03, 代表者:島田英樹, 九州大学, 三井松島コールテック(オーストラリア)
露天掘り石炭鉱山におけるオーガーマイニングシステムの導入時に問題となる掘削・運搬メカニズムについて検討するために、オーストラリア・ワンボ炭鉱において現場計測を行った。.
地球環境を考慮したフライアッシュの有効利用に関する研究
2002.04~2020.03, 代表者:島田英樹, 九州大学, 都市基盤・環境・資源センター(日本)
増加の一途をたどるフライアッシュの有効利用のために、その大量消費利用方法について検討する。.
インドネシアの金鉱山における地山制御に関する研究
2002.09~2020.03, 代表者:島田英樹, 九州大学, バンドン工科大学(インドネシア)
インドネシアの金山における地山制御について検討するために、ボアホールカメラによる亀裂観察ならびにAEによる地山応力を計測した。.
泥水式推進工法における利用拡大に関する研究
2002.04~2020.03, 代表者:島田英樹, 九州大学, イセキ開発工機
推進工法における推進時に排出される排泥の処理方法に関する調査を行った。.
長距離推進メカニズムの科学的検証に関する研究
2003.03~2020.03, 代表者:島田英樹, 九州大学, アルファシビルエンジニアリング(日本)
大口径推進工法適用時の周辺地山の挙動ならびに余掘り部の特性について検討するために、現場実証試験を行った。.
情報化採掘システム構築のためのインテリジェントモデル
2000.04~2020.03, 代表者:島田英樹, 九州大学, オストラバ工科大学(チェコ)
(1) 目的
 ネットワークを利用した情報化採掘技術システムの構築
(2) 協力内容
 オストラバ工科大学提案の情報化採掘技術システムを国際的に統一
したシステムとして構築するために必要データの提供とシステムモデ
ルの改善について協力する。.
研究業績
主要著書
1. Yoshiomi SONODA, Hideki SHIMADA, Solid Mechanics, 2011.12.
2. 園田佳臣,島田英樹, 工学基礎固体力学, 共立出版, 2005.01.
主要原著論文
1. Hideki SHIMADA, Takashi SASAOKA, Sugeng WAHYUDI, Akihiro HAMANAKA, Fumihiko MATSUMOTO, Tomo MORITA, Stability of Surrounding Soil by Using Underpinning Pipe Jacking Method, Proc. of NO-DIG 2019 37th International Conference and Exhibition, CD-ROM, 2019.09.
2. Kazuki MAEHARA, Hideki SHIMADA, Takashi SASAOKA, Akihiro HAMANAKA, Development of Filling Material with Fly Ash and Slag as Lubricant in Pipe Jacking under Acid Sulfate Soils, Proc. of 23rd International Conference on Environment and Mineral Processing and Workshop Waste - Secondary Raw Materials, 115-119, 2019.06.
3. Kazuki MAEHARA, Hideki SHIMADA, Takashi SASAOKA, Akihiro HAMANAKA, Takahiro FUNATSU, Development of Backfilling Material in Over-cutting Area with Fatty Acids to Decrease Thrust for Pipe Jacking, Proc. of International Symposium on Earth Science and Technology 2018, 283-286, 2018.11.
4. Hideki SHIMADA, Sugeng WAHYUDI, Satoru ASANO, Kazuki MAEHARA, Takashi SASAOKA, Akihiro HAMANAKA, Application of Soil Improvement by Sodium Silicate-based Grouting on Indonesian Sand, Proc. of 10th Asian Rock Mechanics Symposium, CD-ROM, 2018.10.
5. Hideki SHIMADA, Kazuki MAEHARA, Masahiro TANAKA, Sugeng WAHYUDI, Takashi SASAOKA, Akihiro HAMANAKA, Fumihiko MATSUMOTO, Tomo MORITA, Behavior of Soil around Rectangular Pipe by Using New Type Excavation of Pipe Jacking, Proc. of NO-DIG 2018 36th International Conference and Exhibition, CD-ROM, 2018.10.
6. Zhiyi ZHANG, Hideki SHIMADA, Numerical Study on the Effectiveness of Grouting Reinforcement on the Large Heaving Floor of the
Deep Retained Goaf-side Gateroad: A Case Study in China, Energies, 11, 1001; doi:10.3390/en11041001, 2018.04, [URL].
7. Kai WEN, Hideki SHIMADA, Wei ZENG, Takashi SASAOKA, Deyu QIAN, Friction Analysis of Pipe-slurry-soil Interaction and Jacking Force Prediction of Rectangular Pipe Jacking, European Journal of Environmental and Civil Engineering, DOI. 10.1018/19648189.2018.1425156, 2018.01.
8. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Akihiro HAMANAKA, Shizuo Ikuta, Feasibility of Chain Conveyor Cutter for Ocean Disposal Site's Construction, Journal of Geological Resource and Engineering, doi:10.17265/2328-2193/2017.04.003, 5, 4, 169-177, 2017.11.
9. Hideki Shimada, Shinji Matsumoto, Akihiro HAMANAKA, Takashi Sasaoka, Ginting Jalu Kusuma, Effect of Acid Soil Properties on Soil Erosion at a Dumping Site in an Open-pit Coal Mine, Indonesia, Proc. of 2nd International Symposium on Land Reclamation and Ecological Restration, 239-244, 2017.10.
10. Zhiyi Zhang, Hideki Shimada, Takashi Sasaoka, Akihiro HAMANAKA, Stability Control of Retained Goaf-side Gateroad under Different Roof Conditions in Deep Underground Y Type Longwall Mining, Journal of Sustainability, doi:10.3390/su9101671, 9, 2017.09.
11. Hideki Shimada, Takashi Sasaoka, SUGENG WAHYUDI, Akihiro HAMANAKA, Shizuo Ikuta, Development of Chain Conveyor Cutter Method and Its Application, Proc. of 26th International Symposium on Mine Planning & Equipment Selection, 129-136, 2017.08, 近年、廃棄物最終処分場の処分容量の拡大が喫緊の課題となっており、その有力な解決手段として、一施設当たりの処分容量を格段に大きくできる海面埋立地を処分場として用いる海面処分方式が挙げられる。この海面処分方式の最も重要な機能は、廃棄物保有水の漏出を防ぐ遮水機能であり、遮水壁の築造のために地盤改良工法が用いられる。このような廃棄物最終処分場の建設や土壌汚染対策等に対応する環境分野、また地震や洪水等に対応を迫られている防災分野においては、構造物の基礎、土留・山留、液状化防止対策、地中連続遮水壁等の構築を目的として、強度や透水係数が深さ方向に均一で高品質、かつ経済的な地中連続遮水壁の築造が要求されている。
このような背景から、筆者は地中連続遮水壁の築造に供する新たな地盤掘削改良装置を開発し実用化に至っている。すなわち、駆動部にチェーンソータイプの機体を垂直に搭載し、チェーンを上下方向に回転させながら地中連続遮水壁を造成するチェーンソー方式であり、また汎用杭打機に搭載可能である。さらに、セメント等の改良材を地中に供給しながら、原地盤の軟弱土と改良材を強制的に撹拌混合して固化・強化するアースオーガ方式と同様に機体を出し入れしつつ、多様な形式の施工が容易な装置の新規開発に取り組み、新たな地盤掘削改良装置;チェーンコンベアカッター(略称;CCC)を完成させている。本論文は、この装置の企画・設計から実用機の開発および適用までの経緯を、現場での試験施工や実施工結果、数値解析等により検討を加えて取りまとめたものである。.
12. Hideki Shimada, Takashi Sasaoka, Matsui Kikuo, Toru Sato, Masaya Hirai, Pipe Jacking / Micro-tunneling Technology in Japan and the Development of a New Micro-tunneling Boring Machine (MTBM), Journal of NO-DIG India, 8, 1, 10-15, 2017.06.
13. Shinji Matsumoto, Hideki Shimada, Takashi Sasaoka, Interaction between Physical and Chemical Weathering of Argillaceous Rocks and the Effects on the Occurrence of Acid Mine Drinage (AMD), Geoscience Journal, http://dx.doi.org/10.1007/s12303-016-0064-3, 2017.05.
14. Zhiyi Zhang, Hideki Shimada, Nong Zhang, Takashi Sasaoka, SUGENG WAHYUDI, Optimization of Hard Roof Structure over Retained Goaf-side Gateroad by Pre-split Blasting Technology, International Journal of Rock Mechanics and Mining Sciences, DOI:10.1016/j.ijrmms.2017.04.007, 2017.04.
15. Hideki Shimada, Takashi Sasaoka, Akihiro HAMANAKA, Toru Sato, Fumihiko Matsumoto, Application of Pipe Jacking Technology into ASEAN Countries, Proc. of NASTT's 2017 No-Dig Show and ISTT's 35th annual International No-Dig, CD-ROM, 2017.04.
16. Kai Wen, Hideki Shimada, Wei Zeng, Takashi Sasaoka, Akihiro HAMANAKA, Numerical Analysis of Face Stability of Slurry Pipe Jacking Tunnel in Frozen Ground, Earth Science Research, 6, 2, 1-18, 2017.02.
17. 島田 英樹, 笹岡 孝司, 濵中 晃弘, ワヒュディ スゲン, 久保田 士郎, 佐分利 禎, 飛石の発生メカニズムとその制御に関する基礎的研究, 石灰石, 405, 20-29, 2017.01.
18. Hideki Shimada, Takashi Sasaoka, SUGENG WAHYUDI, Shuichi Fujita, Yasuhiro Yoshida, Takashi Senda, Practical Design of Over-cutting Area on Pipe Jacking Method by Application of Chemical Grouting, Proc. of the 8th Asian Joint Symposium on Geotechnical and Geoenvironmental Engineering, Tainan TAIWAN, CD-ROM, 2016.11.
19. Hideki Shimada, Takashi Sasaoka, SUGENG WAHYUDI, Shuichi Fujita, Yasuhiro Yoshida, Keisuke Takahashi, Development of Construction Material for Covering of Seabed Resources Using Fly Ash, Proc. of 9th Asian Rock Mechanics Symposium, CD-ROM, 2016.10.
20. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Naung Naung, Phanthoudeth Pongpanya, Tunnel Crown Deformation Generated by Pipe Jacking Technology in a Weak Rock Underground Coal Mine, Proc. of International NO-DIG Beijing 2016 34th International Conference and Exhibition, Beijing CHINA, CD-ROM, 2016.10.
21. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Shuichi Fujita, Yasuhiro Yoshida, Yoshihiko Kanemasu, Yasuharu Toshida, Development of Backfilling Material for Over-cutting Area of Pipe Jacking Using Fly Ash by Application of
Chemical Injection, Proc. of Trenchless Asia for Smart City 2016, CD-ROM, 2016.06.
22. Sendy Dwiki, Hideki Shimada, Rudy Sayoga Gautama, Takashi Sasaoka, Ginting Jalu Kusuma, Fundamental Research of Fly Ash and Organic Material Utilization as Dry Cover Layer for Acid Mine Drainage Prevention Method: Column Leaching Study, International Journal of Applied and Natural Science, 5, 3, 121-132, 2016.05.
23. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Shuichi Fujita, Toru Sato, Effect of Construction of Tunnels by Pipe Roof Method on Adjacent Building Structure, Proc. of Trenchless Asia 2016 Conference, CD-ROM, 2016.05.
24. Hideki Shimada, Matsui Kikuo, Toru Sato, Masaya Hirai, Construction Technology of Utility Pipeline Installation in Rock and Gravel with Cobbles and Boulders by the Slurry Type Micro-tunneling Methods, Proc. of Trenchless Asia 2016 Conference, CD-ROM, 2016.05.
25. Sendy Dwiki, Hideki Shimada, Rudy Sayoga Gautama, Ginting Jalu Kusuma, Takashi Sasaoka, Fatimah Koten, Shinji Matsumoto, Evaluation of Acid Mine Drainage Characterization for Predicting Post Drainage Water Quality in Coal Mines, Journal of the Polish Mineral Engineering Society, 36, 2, 23-28, 2016.03.
26. Shinji Matsumoto, Hideki Shimada, Takashi Sasaoka, Ginting Jalu Kusuma, Rudy Sayoga Gautama, Construction of Dry Cover System for Prevention of Acid Mine Drainage at Mine Waste Dump in Open Cast Coal Mine, Journal of Environmental Protecton, 7, 161-169, 2016.02.
27. Seiichi Sakamoto, Shinji Matsumoto, Hideki Shimada, Takashi Sasaoka, Shuichi Fujita, SUGENG WAHYUDI, Yasuhiro Yoshida, Keisuke Takahashi, New Development Covering Material Using Fly Ash for Construction of Seabed Structures, Proc. of International Symposium on Earth Science and Technology 2015, 201-204, 2015.12.
28. Takashi Sasaoka, SUGENG WAHYUDI, Hideki Shimada, Utilization of Coal Ash as a Barrier Material for Radioactive Waste Disposal, Journal of Geoscience and Environment Protection, 10.4236/gep.2015.34005, 3, 3, 31-43, 2015.06.
29. Takashi Sasaoka, Akihiro Hamanaka, SUGENG WAHYUDI, Shuichi Fujita, Yasuhiro Yoshida, Hideki Shimada, Construction of Seabed Structures by New Development Covering Material Using Fly Ash, Journal of Development and Applications of Oceanic Engineering, 10.14355/daoe.2015.04.001, 4, 1-9, 2015.06.
30. Akihiro Hamanaka, Naoya Inoue, Hideki Shimada, Takashi Sasaoka, Matsui Kikuo, Ikuo Miyajima, Design of Self-sustainable Land Surface Against Soil Erosion at Rehabilitation Areas in Open-cut Mines in Tropical Areas, 29, 4, 305-315, 2015.06.
31. Akihiro Hamanaka, Naoya Inoue, Hideki Shimada, Takashi Sasaoka, Matsui Kikuo, Ikuo Miyajima, Design of Self-sustainable Land Surface Against Soil Erosion at Rehabilitation Areas in Open-cut Mines in Tropical Areas, 29, 4, 305-315, 2015.06.
32. Hideki Shimada, Takashi Sasaoka, Shuichi Fujita, SUGENG WAHYUDI, Yasuhiro Yoshida, Construction of Seabed Structures by New Development Covering Material Using Fly Ash, Proc. of 19th Conference on Environment and Mineral Processing, 1, 189-196, 2015.06.
33. 島田 英樹, 笹岡 孝司, 松井 紀久男, 久保田 士郎, 発破振動予測シミュレーションに必要な各種特性値の決定および発破振動予 測式に関する検討, 石灰石, 392, 44-51, 2014.11.
34. Hideki Shimada, Takashi Senda, Takashi Sasaoka, Shuichi Fujita, SUGENG WAHYUDI, Akihiro Hamanaka, Matsui Kikuo, Dai Watanabe, Analytical Study on Soil Behavior and Its Countermeasures Using a Pipe Jacking Method in Deep Strata, Proc. of International NO-DIG 2014 32nd Internatinal Conference and Exhibition, Madrid SPAIN, CD-ROM, 2014.10.
35. Qing Yu, Jinrong Ma, Hideki Shimada, Takashi Sasaoka, Influence of Coal Extraction Operation on Shaft Lining Stability in Eastern Chinese Coal Mines, Journal of Geotechnical and Geological Engineering, 10.1007/s10706-014-9760-9, 32, 821-827, 2014.08, In order to find the relationship between the shaft lining stability and the coal extraction operation, a 3D numerical model of strata layers and shaft lining was established for simulating the influence of coal extraction operation on shaft lining. Certain factors including mining depth, safety pillar width, mining width and mining height were taken as the influence factors in the simulation. The results indicated that the coal extraction could lead to the initiation of the failure in the aquifer and rock layers. As the mining depth increases, the shear strain increment in aquifer becomes small. In this case, the distance between mining panel and aquifer should be larger than 220 m and the safety pillar width should not less than 70 m. The maximum principal stress in aquifer had a little relation to mining operations. The mining panel width should not exceed 50 m without any support..
36. Hideki Shimada, Sri Maryati, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, Soil Erodibility Characteristics of Reclamation Area - Case Study in Indonesian Coal Mining, Journal of Civil Engineering and Architecture, 8, 7, 855-859, 2014.07, Soil erosion is one of the most important problems in Indonesia coal mining reclamation area because located in tropical areas which has high average of rainfall. Severe soil erosion leads to the unsuccessful reclamation progress in the post mine surface due to impact on steep slope and limit of seedling establishment. Considering the impact of soil erosion in mining activities, Indonesian government had issued several regulations related to erosion control. Soil erodibility is one of the main factors controlling soil erosion. It will determine amount of soil loss and total sediment. Estimation of soil erodibility aims to determine the susceptibility of soil to be eroded by water. The estimation considers soil texture, percentage of organic matter, soil structure and soil permeability. This study was integration between field work to collect soil sample, soil laboratory analysis, soil erodibility analysis using erodibility equation Wischmeier and Smith (1978) and analysis to predict soil erosion/ annual total soil loss. The results show that soil erodibility in study area was calculated to range from 0.091 to 0.142 tons ha h/ha/MJ/mm and soil erodibility of the study area was categorized as very low and low. There are strong relationships between soil erodibility and soil erosion but the correlation was not fully linier due to other factors controlling soil erosion / annual total soil loss..
37. Takashi Sasaoka, Hideki Shimada, Nay Zar Lin, Hiroshi Takamoto, Matsui Kikuo, Suseno Kramadibrata, Budi Sulistianto, Geotechnical Issues on Application of Rock Bolting Technology for Development of Underground Coal Mines in
Indonesia, International Journal of Mining, Reclamation and Environment, dx.doi.org/10.1080/17480930.2014.912377, 28, 3, 150-172, 2014.07.
38. Takashi Sasaoka, Hideki Shimada, Nay Zar Lin, Hiroshi Takamoto, Matsui Kikuo, Suseno Kramadibrata, Budi Sulistianto, Geotechnical Issues on Application of Rock Bolting Technology for Development of Underground Coal Mines in
Indonesia, International Journal of Mining, Reclamation and Environment, dx.doi.org/10.1080/17480930.2014.912377, 28, 3, 150-172, 2014.07.
39. Hideki Shimada, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, Behavior of Grouting Material for Floor Reinforcement Technique in Underground Mines, International Journal of Mining, Reclamation and Environment, 28, 2, 133-148, 2014.04, In underground coal mines, floor heave is a major problem that is caused by groundwater, high strata stress and weak floors. Controlling the stability of the roadways is the key to maintaining the safety and efficiency of underground mining. Appropriate cement grouting is an effective and attractive floor reinforcement technique that can control excessive floor heave and closure. The cement grouting also reduces the permeability of the rock mass and consequently controls the movement of groundwater into the roadway. Injecting cement grout into roadway floors provides a more uniform reinforcement throughout the floor. It may even be possible to reinforce an extremely fractured floor. In this respect, this technique is superior to floor bolting/doweling. This technique may be performed either as a pre- or post- development reinforcement. It is very difficult, however, to reinforce a floor that is not heavily fractured by the injection technique. Therefore, before floor injection, floor blasting is performed in order to create an adequate number of fractures in the floor. Fracturing by blasting also relieves and improves stress conditions in the floor. From this point of view, the behavior of grouting injection for floor reinforcement technique is discussed.
.
40. Hideki Shimada, Yasuhiro Yoshida, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, By-functional Material of Lubrication and Backfilling for Pipe Jacking, Journal of Current Advances in Civil Engineering, 2, 2, 68-73, 2014.04, In Japan, pipe jacking has been firmly established as a special method for the construction of underground pipelines.
Recent technological developments have produced successful methods for the stabilization of unstable strata by employing lubricant around the pipes. The contraction of the lubricant volume after injection into the over-cutting area needs to be reduced for slurry pipe jacking. Moreover, pressurized lubricant functions as an important support in the mitigation of overburden pressure. Therefore most of the underground deformations caused by the pipe jacking construction may be caused by changing stress and strain conditions over the course of construction. Moreover, lubrication can effectively reduce the needed thrust if a discrete layer of lubricant is maintained between the pipe and the excavated soil. The lower frictional force that lubrication enables allows larger jacking lengths to be achieved. That is why the discussion of appropriate lubricants and injection methods, etc. in preparation for such changes is inevitable. From this point of view, the new backfilling material can be developed for several kinds of soil conditions..
41. 濱中 晃弘, 島田 英樹, 笹岡 孝司, 松井 紀久男, 一ノ瀬 政友, インドネシア露天掘り石炭鉱山におけるダンピングサイトの現状と今後の課題 -酸性鉱山排水問題に着目して-, Journal of MMIJ, 130, 1, 9-15, 2014.01, AMD の発生は岩石中に含有される硫化鉱物と酸素や水との反応により生じるため,ダンピングサイトにおいて酸素や水の浸透を制限する有効な工法を適用することでAMD の発生を最小限にすることができると考えられる。そこで本論文では,インドネシア東カリマンタンにて操業中のKaltim Prima Coal (KPC) 鉱山を対象として,熱帯雨林気候条件下の露天掘り石炭鉱山の既設ダンピング
サイトにおける各種調査による現状把握ならびに酸性鉱山排水抑制に向けた今後の課題に関して検討を行った研究結果を報告した。
 
2.AMD の.
42. Hideki Shimada, Yasuhiro Yoshida, Takashi Senda, Yasutaka Maeda, Takashi Sasaoka, Shuichi Fujita, Matsui Kikuo, Dai Watanabe, Development of Backfilling Material Using Fly Ash by Application of Chemical Injection, Journal of the Polish Mineral Engineering Society, 32, 2, 37-42, 2013.12.
43. Hideki Shimada, Yasuhiro Yoshida, Yasutaka Maeda, Takashi Sasaoka, Shuichi Fujita, Akihiro Hamanaka, Matsui Kikuo, Development of Grouting Material for Fly Ash Backfilling by Application of Chemical Injection, Proc. of the 22nd Mine Planning and Equipment Selection, 1, 403-410, 2013.10, Generally, grouting in dam construction is the construction method that soil voids and crack around borehole is filled by pressurized injection of grouting material such as cement and permeability or mechanical characteristics of rock mass is improved.
It was previously mentioned that backfilling material plays an important role as a support against overburden pressure after finishing construction. Therefore most of the underground deformations caused by the injection may be caused by changing the condition of surrounding rock masses and numbers of cracks. That is why the discussion of appropriate injection methods, etc. in preparation for such changes is inevitable. From this point of view, the new backfilling material can be developed for several kinds of soil conditions in this paper.
.
44. Hideki Shimada, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, Development of Injection Material for Offshore Structures Using Flyash-Surfactant Mixtures, International Journal of Applications of Oceanic Engineering, 2, 3, 70-76, 2013.08, In recent years, many waste disposal sites have been conventionally constructed on land in Japan. However, there are limitations to constructing these sites on land. Thus, construction of the disposal sites by reclamation of nearby seashore has been conducted. Although injection material is required to make the established offshore structure, it has high mobility, and does not bleed, etc. Therefore, an injection material which uses a material mixture of the surface-active agent with flyash has been developed. Usage of flyash instead of cement leads to improved mobility, reduced construction cost and so on.
Considering these points, in order to clarify to at which degree the contents of surfactant affects the properties of the injected flyash mixture into the joints of steel sheet pile for offshore structures, different combinations of flyash, surfactant and.
45. Hideki Shimada, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, Relation between Fluidability of Flyash Cement and Properties of Flyash Particles, Open Journal of Geology, 10.4236/ojg.2013.33025, 3, 3, 216-221, 2013.07, A large amount of waste is produced by preparation plants. The properties of the waste vary depending on the minera- logical contents of the mother rock in which the coal is embedded. The waste quality depends on the method of mining and cleaning. The waste mainly consists of clays, quartz, carbonaceous materials, mica, pyrites, and so on. About 80% of coal-ash is now utilized and the remainder is disposed of at disposal sites. However, the life span of disposal sites is limited, and it is difficult to find new disposal sites. It is therefore requested that the percentage of utilized flyash be increased in all applicable fields in Japan. Thus, it is very desirable that cement supplemented with flyash be used as injection material for natural/artificial openings. With this perspective in mind, we attempt to clarify how much the size and shape of the flyash affects the properties of the injection mixture by way of an injection test..
46. Hideki Shimada, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, Toru Sato, Effect of Application of Pipe Roof Method by Using Pipe Jacking on Behavior of Surrounding Soil, Journal of Physical Science and Application , 3, 6, 353-358, 2013.06, Tunnels in an urban area, in many cases, are constructed in soft ground which contains underground water, near existing facilities and structures. Structural stability for the tunnel and also the nearby structures and facilities is vital in this kind of work. Slurry pipe jacking was firmly established as a special method for the non-disruptive construction of underground pipelines of sewage systems. This method utilizes mud slurry that is formed around the pipes in order to stabilize the surrounding soil. In the pipe roof method the tubing elements that are constructed by slurry pipe jacking are near each other longitudinally, and create a rigid and stable lining before the excavation of the main tunnel. This paper discusses the application of a slurry pipe jacking system on the pipe roof method by means of numerical analysis. Because of the rigid behavior of the lining, the results show little subsidence, making this method a reliable method of constructing large tunnels with small cover in an urban area. .
47. Yanlong Chen, Hideki Shimada, Takashi Sasaoka, Akihiro Hamanaka, Matsui Kikuo, Research on Exploiting Residual Coal around Final End-walls by Highwall Mining System in China, International Journal of Mining, Reclamation and Environment, 27, 3, 166-179, 2013.05, To improve the resources’ recovery ratio and the economic benefits of surface
coal mines, we present a residual coal extraction technology from final end-walls
with highwall mining system in China. Based on Mark–Bieniawski formula and
tributary area theory, the evaluation methodology of highwall mining parameters
under the thick cover was given. Furthermore, the pillar design chart in the
highwall mining system under the thick cover was also concluded. In order to
examine the rationality of the pillar design with the presented methodology,
numerical simulation was also carried out. The outcome shows that it will require
a larger pillar width with the thickening of the cover; hence, the recovery ratio will
decrease correspondingly. To improve coal recovery ratio, the backfilling
technology should be considered under the thick cover. According to twodimension
numerical simulation results, the calculated methodology for pillar
stability of highwall mining system under the thick cover presented in this article
is acceptable. It also found that keeping the pillar width-to-height ratio above 1 is
a key measure to maintain the pillar stable and integral under the thick cover.
Meanwhile, it can be concluded that the bigger safety factor is demanded for roof
of openings under much thicker cover and higher stress ratio. In other words, the
highwall mining system is feasible to extract the residual coal around end-walls in
Chinese surface coal mines. Thus, not only coal recovery ratio can be improved
but also can increase the production life of surface coal mines in China..
48. Hideki Shimada, Akihiro Hamanaka, Takashi Sasaoka, Matsui Kikuo, Development of Flash Setting Material for Temporally Pipeline Restoration after Earthquake, Open Journal of Geology, 10.4236/ojg.2013.32013, 3, 2, 94-100, 2013.04, There are many earthquakes in Japan. If a large earthquake were to occur, it is necessary to consider how pipelines such as: gas, sewage, telecommunications, and so on are restored quickly. At that time, damaged gas pipelines are very dan- gerous because fire in large areas could be caused by the leakage of gas from the damaged pipeline. Accordingly, it is necessary for gas companies to stop the supply of gas to houses over a large area. Once the gas supply is stopped, there is a considerable amount of time to repair the pipelines over the area. For this reason, a quick method for restoring damaged gas pipelines would be useful after an earthquake. Recently, we have been developing new flash setting mate- rial for the damaged gas pipeline by an injection into the house connection of gas when the gas supply is stopped quickly in an emergency. From these points of view, in order to clarify to what degree the contents of flash settling ma- terial affect the properties of the injected fly ash mixture causing heavy damage to the gas pipeline in an earthquake, different combinations of fly ash, chemical agents and water were considered in several experiments..
49. Takashi Senda, Hideki Shimada, Takashi Sasaoka, Matsui Kikuo, Behavior of Surrounding Soil during Construction and Its Countermeasures Using Pipe Jacking Method in Deep Strata, Open Journal of Geology, 10.4236/ojg.2013.32007, 3, 2, 44-48, 2013.04, In Japan when urban infrastructures need to be constructed, the difficulty of utilizing the ground or shallow strata will lead to a more frequent use of the deep strata. The common construction methods are open-cut, pipe jacking, and shield methods. In recent years, a new pipe jacking method has been established that can be adapted to 20 m below the ground or more. Using this method, the drivage machine and the jacking pipe continue to move an underground until the com- pletion of the driving. Therefore an over-cutting area (so-called tail-void) must be formed to lower the friction between the ground and the pipe. The tail-void is filled with lubrications. However, because the stress release from the ground continues to advance when the tail-void is formed, hence there are some challenges required to cope with the stability of the surrounding ground. In order to utilize the pipe jacking method in the deeper strata layers, the theory, analysis and installation of tail-void have to be systemized, and such systematic data must be stored. Therefore, the conditions of tail-void in the deep pipe jacking method are discussed using numerical analyses..
50. Hideki SHIMADA, Ginting Jalu KUSUMA, Akihiro HAMANAKA, Shnji MATSUMOTO, Takashi SASAOKA, Kikuo MATSUI, Model of the Internal Structure of Coal Overburden Dumps for the Control of Acid Mine Drainage Generation, Proc. of the 21st International Symposium on Mine Planning and Equipment Selection, CD-ROM, 2012.11, The presence of water and oxygen are some of the important factors influencing the oxidation rate of sulfide minerals within overburden dumps. In the overburden dumps, the availability of water and oxygen is strongly controlled by the physical structure of the dump, as well as the surface climate and geochemical reaction within the dump. In this study, made up of a series of field investigations, physical and geochemical laboratory characterizations were conducted in order to evaluate the internal physical structure and geochemical characteristics of coal mine overburden dumps. As the result of a series of analysis, alternate geochemical characteristics may control the acidification-neutralization reaction of infiltrated water, the precipitation of secondary minerals and may subsequently determine the quality of the overburden dump drainage. The internal structure formed and the spatial heterogeneity of geochemical characteristics in the overburden dumps controls the acid drainage inhibition process within the dumps..
51. Hideki SHIMADA, Koichi ARAKI, Takashi SASAOKA, Shuichi FUJITA, Kikuo MATSUI, Dai WATANABE, Analytical Study on Prediction of Pipeline Positions by a Restoration Method, Proc. of NO-DIG2012 30th International Conference and Exhibition, CD-ROM, 2012.11, Buried pipelines that have sagged can result in damage to welded joints, disconnections and so on. Performance can also be affected with stagnation or stoppage of flow, which can lead to major secondary problems, such as caved-in roads or effluent leakage. To overcome these problems, various methods have been proposed and used for the restoration of flow performance and fixing damaged sections of underground pipelines without the need for excavation. However, there are not many methods available that do not require excavation for repairing reduced flow performance and stoppages, or pipeline damage caused by sagging, which is thought to be the major contributor to this type of damage. The authors provide a report on construction methods and examples that do not require excavation, but instead use a system of grouting for the ground, surrounding the buried pipeline, to aid in the repair of the pipeline position, which can actually improve the surrounding foundations..
52. Hideki SHIMADA, Yanlong CHEN, Koichi ARAKI, Takashi SASAOKA, Kikuo MATSUI, Experimental and Numerical Investigation of Ground Deformation Using Chemical Grouting for Pipeline Foundation, International Journal of Geotechnical and Geological Engineering, 30, 2, 289-298, 2012.04, Based on experimental and numerical investigations, we focused on a U.G.S. (Under Ground Scope) chemical grouting method which can actually improve the pipeline surrounding foundation to solve pipeline saggy damage. As is known, saggy pipelines can result in the destruction of welded joints, disconnections and shear fractures, and can also lead to more serious accidents, such as caved-in roads or effluent leakage. However, this method can deal with these difficulties successfully.
Based on the experimental results, a solution-form injection material can lift up the ground effectively, using less total solution amount than suspension-form injection materials. Therefore, a suspension-form injection material with a shorter gel time is more suitable for a U.G.S. method, making it more effective to remove pipelines.
The discussion results of some patterns of injection tests in a laboratory setting that were carried out in order to find the relationship between the behavior of the grouting material and the deformation of the soil were obtained. According to the experimental results, it is considered that the material can be injected into a foundation by fracture grouting if the permeation coefficient is lower than 1.00×10-3 mm/s. The situation was analyzed by using two-dimension FEM (Finite Element Method) analysis software Phase2 and the analysis result proposes that the real data and simulation data are nearly the same in impermeable soil. Furthermore, even if the construction object is permeable soil, we can also make it impermeable soil by grouting in two phases: soil improvement grouting and restoration grouting.
.
53. Hideki SHIMADA, Ginting Jalu KUSUMA, Koh HIROTO, Takashi SASAOKA, Kikuo MATSUI, Rudy Sayoga GAUTAMA, Budi SULISTIANTO, Development of a New Covering Strategy in Indonesian Coal Mines to Control Acid Mine Drainage Generation: A Laboratory-scale Result, International Journal of Mining, Reclamation and Environment, 26, 1, 74-89, 2012.03, A large amount of waste is produced by the preparation plant. The properties of the waste varies, dependent on the mineralogical contents of the mother rock in which the coal is embedded. The waste quality depends on the method of mining and cleaning. The waste mainly consists of clays, quartz, carbonaceous materials, mica, pyrites, and so on. About 80% of coal-ash is now utilized and the remaining is disposed of at disposal sites. However, the life span of the disposal site is limited, and it is difficult to find new disposal sites. It is therefore requested that the percentage of utilization of flyash be increased in every field in Japan. So, it is very desirable that cement with flyash added be applied as the injection material for natural/artificial openings.
From these points of view, in order to clarify to what degree the contents of surfactant affects the properties of the injected flyash mixture in slurry pipe jacking, different combinations of flyash, surfactant and water were considered by means of several experiments.
.
54. Hideki SHIMADA, Ginting Jalu KUSUMA, Koh HIROTO, Takashi SASAOKA, Akihiro HAMANAKA, Hiroshi TAKAMOTO, Shuichi FUJITA, Kikuo MATSUI, Laboratory Evaluation of Multi-Layer Cover to Control Acid Mine Drainage in the Coal Mine Waste Rock Dump, Proc. of the 20th International Symposium on Mine Planning and Equipment Selection, Almaty KAZAKHSTAN, 1335-1349, 2011.10.
55. Toru SATO, Tony SUZUKI, Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Jacking in Japan: The Pipe Roof Method, Trenchless International, 12, 2011.07.
56. Hideki SHIMADA, Ginting Jalu KUSUMA, Koh HIROTO, Takashi SASAOKA, Akihiro HAMANAKA, Hiroshi TAKAMOTO, Kikuo MATSUI, Study on Multi Layer Covering Systems of Non Acid Forming and Potentially Acid Forming of Coal Mine Waste Rock to Control Acid Mine Drainage, Proc. of 5th International Conference on Sustainable Development in the Minerals Industry, Aachen GERMANY, 227-236, 2011.06.
57. Hideki SHIMADA, Jan GOTTFRIED, Akihiro HAMANAKA, Takashi SASAOKA, Yasuhiro YOSHIDA, Shuichi FUJITA, Kikuo MATSUI, Application of Injection Material for Offshore Structures Using Flyash-surfactant Mixtures, Proc. of 14th Conference on Environment and Mineral Processing, Ostrava CZECH, 2, 399-406, 2011.06.
58. Hideki SHIMADA, Takashi SASAOKA, Yasuhiro YOSHIDA, Shuichi FUJITA, Akihiro HAMANAKA, Kikuo MATSUI, Development of Construction Material Using Flyash-Surfactant Mixtures for an Ocean Floor, Proc. of 5th International Workshop and Conference on Earth Resources Technology, Ipoh MALAYSIA, 73, 76, 2011.05.
59. Suseno KRAMADIBRATA, Ganda Marihot SIMANGUNSONG, Kikuo MATSUI, Hideki SHIMADA, Role of Acoustic Emission for Solving Rock Engineering Problems in Indonesian Underground Mining, Journal of Rock Mechanics and Rock Engineering, 44, 3, 289, 2011.04, In situ stress measurement is not well accepted yet in Indonesia due to the unavailability of technology, high costs and because it is impractical in remote regions. Alternatively, the Kaiser effect of acoustic emission (AE) can be used as a method for determining the stress-state at depth, without creating induced stress and is practical in remote areas. This paper is focused on the development of the AE test. The research has started to study the phenomenon of stress memory in a rock sample, the factors influencing the phenomenon, and finally, to determine the in situ stresses around underground excavations by applying the AE method. It is expected that knowledge in gaining the most important input parameters for maintaining the stability of underground excavations can be well understood and be reliably conducted at a reasonable cost..
60. Sugeng WAHYUDI, Hideki SHIMADA, Ganda Mahirot SIMANGUNSONG, Takashi SASAOKA, Kikuo MATSUI, Suseno KRAMADIBRATA, Budi SULISTIANTO, A Review Study of Predictive Model Blast Vibration Attenuation Equation by Using Neural Network as an Evaluator, International Journal of Mining, Reclamation and Environment, 25, 1, 69-85, 2011.03.
61. 島田英樹,幸村将士,荒木紘一,松井紀久男, パイプラインの位置修復グラウチングに伴う周辺地山への影響, 下水道協会誌, 48, 581, 72-84, 2011.03.
62. Takashi SASAOKA, Hideki SHIMADA, Kikuo MATSUI, Study on Utilization of Flyash for Barrier/Buffer Materials for Radioactive Waste Disposal, Proc. of 19th International Symposium on Mine Planning & Equipment Selection, Fremantle AUSTRALIA, CD-ROM, 2010.12.
63. Takashi SASAOKA, Hideki SHIMADA, Kikuo MATSUI, Study on Utilization of Flyash for Barrier/Buffer Materials for Radioactive Waste Disposal, Proc. of 19th International Symposium on Mine Planning & Equipment Selection, Fremantle AUSTRALIA, CD-ROM, 2010.12.
64. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Ginting Jalu KUSUMA, Jiro OYA, Hiroshi TAKAMOTO, Suseno KRAMADIBRATA, Budi SULISTIANT, Fundamental Study of Acid Drainage Control Using Flyash, Proc. of 19th International Symposium on Mine Planning & Equipment Selection, Fremantle AUSTRALIA, CD-ROM, 2010.12.
65. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Ginting Jalu KUSUMA, Jiro OYA, Hiroshi TAKAMOTO, Suseno KRAMADIBRATA, Budi SULISTIANT, Fundamental Study of Acid Drainage Control Using Flyash, Proc. of 19th International Symposium on Mine Planning & Equipment Selection, Fremantle AUSTRALIA, CD-ROM, 2010.12.
66. Hideki SHIMADA, Yasuhiro YOSHIDA, Koichi ARAKI, Takashi SASAOKA, Shuichi FUJITA, Kikuo MATSUI, Masuhiko IINO, Takahisa TOMII, Application of Flash Setting Material for Temporary Earthquake Disaster Restoration of Gas Pipelines Using Fly Ash Cement Mixtures, Proc. of NO-DIG2010 28th International Conference and Exhibition, Singapore SINGAPORE, CD-ROM, 2010.11.
67. 島田英樹,佐藤 徹,笹岡孝司,松井紀久男, 推進工法を用いたパイプルーフ工法による地下埋設物の構築に伴う周辺地山の影響, 下水道協会誌, 47, 576, 139-148, 2010.10, 推進工法は、都市部における管埋設工法の中で有効な方法として多用され,急速な進歩を遂げてきた。しかし,現在,都市部における下水道普及率は既に約72%を超えており,今後下水管渠埋設への推進工法の需要は低減することが予測され,また,他の生活関連整備に伴う管路構築においても同様に一段落の傾向にある。このような理由から,推進工法の新たな適用分野が模索されており,現在,山岳トンネルの長距離先受け工法や地下浅部のアンダーパス先受け工法への利用等が図られている。しかしながら、現在適用されている種々の先受け工法の施工では,仮設工であるために経済性や簡便な施工性のみが評価の基準となるため,施工に伴う周辺地山への影響についての基礎的な資料がこれまで十分には得られていなかった。そこで、本論文では、まずAGF工法と推進工法を用いたパイプルーフ工法の比較をはじめ、推進工法を用いたパイプルーフ工法の周辺地山の安定性に及ぼす影響等を明らかにするために,解析により種々検討した。その結果、先受け工法としては,パイプルーフ工法はAGF工法と同様な効果があることが分かった。また、パイプルーフ数あるいはパイプルーフ径の増大,トンネル内壁とパイプルーフ間の間隔が小さくなるほど,周辺地山の破壊領域の減少ならびに地表面沈下の抑制が可能であることが判明した。次に,推進工法を用いた先受け工法として適用した事例について報告し,地山の安定性に及ぼす種々の影響等について検討した。その結果,推進工法を用いたパイプルーフ工法により地表面沈下量を20mm程度に抑制できたことから,本施工方法はトンネル掘削のための補助工法として極めて有用性があることが判明した。.
68. 森田 智,島田英樹,笹岡孝司,松井紀久男, 推進用ボックスカルバートの函耐力に関する数値解析についての報告, 下水道協会誌, 47, 115-124, 2010.08.
69. Hideki SHIMADA, Toru SATO, Takashi SASAOKA, Kikuo MATSUI, Effect of Application of Pipe Roof Method by Using Pipe Jacking on Stability of Surrounding Soil, Proc. of the 4th International Workshop and Conference on Earth Resources Technology, Phuket THAILAND, CD-ROM, 2010.05.
70. Hideki SHIMADA, Yasuhiro YOSHIDA, Jiro OYA, Takashi SASAOKA, Kikuo MATSUI, Hideaki NAKAGAWA, Jan GOTTFRIED, Application of Injection Material for Rehabilitation of Underground Pipeline Using Fly Ash Surfactant Mixtures, International Journal of Mining, Reclamation and Environment, 24, 1, 5-17, 2010.03.
71. Masashi KOMURA, Koichi ARAKI, Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Takahisa TOMII, Chemically Restoring Pipeline Position, Trenchless International, 7, 58-60, 2010.04.
72. Hideki SHIMADA, Yasuhiro YOSHIDA, Koichi ARAKI, Takashi SASAOKA, Shuichi FUJITA, Kikuo MATSUI, Shinobu SATAKE, Masaaki ISHIKAWA, Application of Flash Setting Material for Temporally Earthquake Disaster Restoration of Gas Pipeline Using Fly Ash Cement Mixtures, Proc. of 18th International Symposium on Mine Planning & Equipment Selection and 11th International Symposium on Environmental Issues and Waste Management in Energy and Mineral Production, Banff CANADA, CD-ROM, 2009.11.
73. Hideki SHIMADA, Koichi ARAKI, Masashi KOMURA, Takashi SASAOKA, Kikuo MATSUI, Takahisa TOMII, Lifeline Restoration Method for Pipe Positions by Using Chemical Grouting in Urban Area, Proc. of 2009 Korea-Japan Joint Symposium on Rock Engineering, Suwon KOREA, pp.95-102, 2009.10.
74. Toru SATO, Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masaya HIRAI, Reizo YAMAOKA, Pipe Bursting - Big in Japan, Trenchless International, Issue 4, pp.34-35, 2009.07.
75. Candra NUGRAHA, Hideki SHIMADA, Takashi SASAOKA, Masatomo ICHINOSE, Kikuo MATSUI, Imanuel MANEGE, Geochemistry of Waste Rock at Dumping Area, International Journal of Mining, Reclamination and Environment, Vol.23, No.2, pp.132-143, 2009.06.
76. Candra NUGRAHA, Hideki SHIMADA, Takashi SASAOKA, Masatomo ICHINOSE, Kikuo MATSUI, Imanuel MANEGE, Waste Rock Characteristics at Tropical Coal Mine Area: A Case Study of PT. Kaltim Prima Coal, Indonesia, International Journal of the Japanese Committee for Rock Mechanics, 2009.05.
77. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Koichi ARAKI, Hideaki NAKAGAWA, Feasibility Study on Infrastructure Development for Waste Water in Yogyakarta, Indonesia, Proc. of the 3rd International Workshop and Conference on Earth Science Technology, Sapporo JAPAN, CD-ROM, 2009.05.
78. Hideki SHIMADA, Yasuhiro YOSHIDA, Takashi SASAOKA, Kikuo MATSUI, Shuichi FUJITA, Takashi KAWAI, Kikuo MATSUI, Property of Flyash Surfactant Injection into Over-cutting Area As Lubricant for Slurry Pipe Jacking, Proc. of NO-DIG2009 27th International Conference and Exhibition, Toronto CANADA, CD-ROM, 2009.03.
79. Hideki SHIMADA, Hideaki NAKAGAWA, Takashi SASAOKA, Kikuo MATSUI , Feasibility Study on Sustainable and Environmental Conscious Infrastructure Development in Yogyakarta, Indonesia, Proc. of the 2nd International Symposium on Novel Carbon Resource Science, Bandung INDONESIA, pp.IV-25-IV-34, 2009.03.
80. 吉田安廣, 島田英樹, 笹岡孝司, 松井紀久男, 一ノ瀬政友, 藤田修一, 峯下政一, 水沼達也, フライアッシュセメントと界面活性剤の混合材料を用いた管更生用中込材の開発, Journal of MMIJ, Vol.124, No.12, pp.794-800, 2008.02.
81. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Takashi KAWAI, Yasuhiro YOSHIDA, Koichi ARAKI, Constructions of an Infrastructure Pipeline Using Pipe Jacking Trenchless Technology in Japan, Proc. of GEO-CHAINGMAI 2008, Chaingmai THAILAND, CD-ROM, 2008.12.
82. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Jan GOTTFRIED, Oldrich KODYM, Vladimir KEBO, Numerical Study on Effect of Rock Mass Stability on Deep Deposit Slicing at Uranium Mine in Czech Republic, Proc. of International Symposium on 16th Mine Planning and Equipment Selection, pp.666-672, 2008.10.
83. 島田英樹,吉田安廣,笹岡孝司,松井紀久男, 推進工法における可塑性滑材の所特性および問題点, 下水道協会誌, Vol.45, No.550, pp.141-153, 2008.08.
84. Hideki SHIMADA, Yasuhiro YOSHIDA, Takashi SASAOKA, Shuichi FUJITA, Masatomo ICHINOSE, Masuhiko IINO, Kikuo MATSUI, Lubrication Property Requirements for Injection into Over-cutting Area Using Extra-large-diameter Slurry Pipe Jacking, Proc. of NO-DIG2008 26th International Conference and Exhibition, Moscow RUSSIA, CD-ROM, 2008.06.
85. Kikuo MATSUI, Takashi SASAOKA, Hideki SHIMADA, Takeshi UEDA, Suseno KRAMADIBRATA, Budi SULISTIANTO, Highwall Mining Systems at Surface Coal Mines in Indonesia, Coal International, Vol.256, No.3, pp.28-31, 2008.05.
86. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Takashi KAWAI, Yasuhiro YOSHIDA, Koichi ARAKI, Constuction of an Infrastructure Pipeline Using a No-Digging Pipe-jacking System in Japan, Proc. of the International Workshop and Conference on Earth Science Technology, Bangkok THAILAND, CD-ROM, 2008.04.
87. Hideki SHIMADA, Kikuo MATSUI, Takashi SASAOKA, Masatomo ICHINOSE, Construction of Lifeline System Using Slurry Pipe Jacking in Japan, Proc. of 3rd Brazilian Congress of Trenchless Technology, Sao Paulo BRAZIL, CD-ROM, 2008.02.
88. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Jan GOTTFRIED, Masuhiko IINO, Yasuhiro YOSHIDA, Effect of Flyash Type on Fluidability of Flyash Cement, Proc. of International Symposium on 16th Mine Planning and Equipment Selection and Environment Issues and Waste Management in Energy and Mineral Production, Bangkok THAILAND, CD-ROM, 2007.12.
89. 大屋二郎,島田英樹,松井紀久男,一ノ瀬政友,笹岡孝司,中川英朗, インドネシア露天掘り石炭鉱山における酸性水発生メカニズムと抑制に関するスレーキング問題, Journal of MMIJ, Vol.123, No.11, pp.511-517, 2007.11.
90. Hideki SHIMADA, Takashi KAWAI, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Masuhiko IINO, Yasuhiro YOSHIDA, Behavior of Over-cutting Area Injected by Flyash Surface-active Agent Mixture Material, Proc. of NO-DIG2007 25th International Conference and Exhibition, Rome ITALY, CD-ROM, 2007.09.
91. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Takashi KAWAI, Practical Study on Large Diameter Pipe Jacking in the Construction of Sewage Systems, Proc. of First Sri Lankan Geotechnical Society International Conference on Soil and Rock Engineering, Colombo SRI LANKA, CD-ROM (1920.pdf), 2007.08.
92. Hideki SHIMADA, Takashi SASAOKA, Jan GOTTFRIED, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Masuhiko IINO, Yasuhiro YOSHIDA, Relation between Fluidability of Flyash Cement and Size/Shape of Flyash Particles, Proc. of 11th Conference on Environment and Mineral Processing, Ostrava CZECH, Vol.3, pp.161-168, 2007.05.
93. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Masuhiko IINO, Yasuhiro YOSHIDA, Application of Grouting Material for Ground Inprovement Using Flyash Cement Mixed with Surfactant, Proc. of International Workshop on Earth Resources Technology,Fukuoka JAPAN, pp.27-32, 2007.04.
94. 島田英樹,松井紀久男,一ノ瀬政友,笹岡孝司,久保田士郎,Ganda Marihot SIMANGUNSONG,緒方雄二, 石灰石鉱山における発破振動および起砕物の粒度に関する二、三の考察, 資源と素材, Vol.121, No.12, pp.573-581, 2006.12.
95. 島田英樹,松井紀久男,一ノ瀬政友,前畠龍三,中川英朗,古川博文,植田 武,Budi SULISTIANTO,Suseno KRAMADIBRATA, 露天掘り炭鉱のリハビリテーションの検討と石炭灰の利用, 資源と素材, Vol.121, No.10/11, pp.504-512, 2006.11.
96. Hideki SHIMADA, Takashi KAWAI, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Yasuhiro YOSHIDA, Behavior of Lubricant Injection into Over-cutting Area for Slurry Pipe Jacking, Proc. of NO-DIG2006 24th International Conference and Exhibition, Brisbane AUSTRALIA, CD-ROM, 2006.11.
97. Hideki SHIMADA, Kikuo MATSUI, Jiro OYA, Masatomo ICHINOSE, Ryuzo MAEHATAKE, Hideaki NAKAGAWA, Suseno KRAMADIBRATA, Budi SULISTIANTO, Fundamental Study of Acid Drainage Control by Flyash, Proc. of International Symposium on 15th Mine Planning and Equipment Selection, Vol.1, pp.337-342, 2006.09.
98. Saeid KHAZAEI, Hideki SHIMADA, Takashi KAWAI, Junichi YOTSUMOTO, Kikuo MATSUI, Monitoring of Over Cutting Area and Lubrication Distribution in a Large Slurry Pipe Jacking Operation, Journal of Geotechnical and Geological Engineering, Vol.24, No.3, pp.735-755, 2006.06.
99. Hideki SHIMADA, Takashi SASAOKA, Saeid KHAZAEI, Yasuhiro YOSHIDA, Kikuo MATSUI, Performance of Mortal and Chemical Grout Injection into Surrounding Soil when Slurry Pipe-jacking Method is Used, Geotechnical and Geological Engineering, Vol.24, No.1, pp.57-77, 2006.02.
100. Hideki SHIMADA, Kikuo MATSUI, Masatomo ICHINOSE, Jan GOTTFRIED, Shuichi FUJITA, Imam A. SADISUN, Yasuhiro YOSHIDA, Control of Slaking Behavior when Flyash Cement is Injected into Slake-prone Rock, Proc. of the 14th International Symposium on Mine Planning and Equipment Selection and the 5th International Conference on Computer Applications in the Minerals Industries, Banff CANADA, CD-ROM(pp.1148-1166), 2005.11.
101. Hideki SHIMADA, Keisuke TAkAHASHI, Kikuo MATSUI, Shuichi FUJITA, Takashi KAWAI, Seiichi MINESHITA, Tatsuya MIZUNUMA, Yasuhiro YOSHIDA, Iwao SATO, Application of Material Mixed with Flyash and Chemical Additives on Slurry Pipe Jacking, Proc. of NO-DIG2005 23th International Conference and Exhibition, Rotterdam THE NETHERLANDS, CD-ROM(paper 01), 2005.09.
102. 島田英樹,松井紀久男, 石灰石鉱山における切羽の亀裂状態と発破による破砕産物の粒度との関連性, 第64回石灰石鉱業大会資料, pp.135-143, 2005.06.
103. Imam A.SADISUN, Hideki SHIMADA, Masatomo ICHINOSE, Kikuo MATSUI, Study on the Physical Disintegration Characteristics of Subang Clayston Subjected to a Modified Slaking Index Test, Journal of Geotechnical and Geological Engineering, No.23, No.3, pp.199-218, 2005.05.
104. 酒井栄治,松元文彦,森田 智,島田英樹,松井紀久男, 軟弱地盤やシラスへの泥濃式推進工法の適用性, 土木学会岩盤力学に関するシンポジウム講演論文集, pp.315-320, 2005.01.
105. Hideki SHIMADA, Saeid KHAZAEI, Jan GOTTFRIED, Kikuo MATSUI, Eiji SAKAI, Stability of Surrounding Soil by Using Pipe Jacking in Using Pipe Roof Method, Proc. of International Conference on Tunnnelling Asia 2004, New Dehli, INDIA, pp.Ⅵ/1-Ⅵ/9, 2004.12.
106. Hideki SHIMADA, Kikuo MATSUI, Saeid KHAZAEI, Takashi KAWAI, Junichi YOTSUMOTO, Eiji SAKAI, Yasuhiro YOSHIDA, Design and Construction for Lifelines Using Slurry Pipe-jacking in Urban Areas, Proc. of Viet nam - Japan Joint Seminar on Geotechnics and Geoenvironment Engineering, Hanoi VIET NAM, pp.243-250, 2004.11.
107. 四本純一,川合 孝,島田英樹,松井紀久男, 大口径推進工法における周辺地盤への影響について, トンネル工学報告集, 第14巻,pp.443-450, 2004.11.
108. 吉田辰洋,島田英樹,松井紀久男,森田 智,松元文彦,酒井栄治, 泥濃式推進工法における推進に伴う地山挙動の実験的検討, 第15回非開削技術研究発表会論文集, pp.17-22, 2004.09.
109. Kikuo MATSUI, Hideki SHIMADA, Takashi SASAOKA, Hirofumi FURUKAWA, Takeshi UEDA, Atsuko YABUKI, Suseno KRAMADIBRATA, Budi SULISTIANTO, Highwall Stability due to Punch Mining at Opencut Coal Mines, International Journal of Surface Mining, Reclamation and Environment, Vol.18, No.3, pp185-204, 2004.09.
110. 島田英樹,Imam A.SADISUN,一ノ瀬政友,植田 武,吉田安廣,松井紀久男, フライアッシュセメントの特性と鉱山への適用について, 資源と素材, 第120巻第8号,pp.469-475, 2004.08.
111. Takahiro FUNATSU, Masahiro SETO, Hideki SHIMADA, Kikuo MATSUI, Mahinda KURUPPU, Combined Effects of Increasing Temperture and Confining Pressure on the Fracture Toughness of Clay Bearing Rocks, International Journal of Rock Mechanics and Mining Science, 10.1016/j.ijrmms.2004.02.008, 41, 6, 927-938, Vol.41, No.6, pp.927-938, 2004.06.
112. Kikuo MATSUI, Ryuichi ITOI, Takeshi UEDA, Hideki SHIMADA, Jan GOTTFRIED, Hideaki NAKAGAWA, Suseno KRAMADIBRATA, Budi SULISTIANTO, Hirofumi FURUKAWA, Control of Acid Mine Drainage and Erosion at Opencut Coal Mines in Indonesia, Proc. of 8th Conference on Environment and Mineral Processing, Ostrava CZECH, Vol.2, pp.481-486, 2004.06.
113. Junichi YOTSUMOTO, Takashi KAWAI, Hideki SHIMADA, Saeid KHAZAEI, Kikuo MATSUI, Fujisawa Tackels Flooding Head on, Tunnelling and Trenchless Construction, pp.20-21, 2004.06.
114. Kikuo MATSUI, Hideki SHIMADA, Ryuichi ITOI, Takeshi UEDA,Atsuko YABUKI, Imam A.SADISUN, Budi SULISTIANTO,Suseno KRAMADIBRATA, Made A.RAI, Development of Opencut Coal Mines Considering Indonesian Environments, Proc. of the 8th International Symposium on Environmental Issues and Waste Management in Energy and Mineral Production, Antalya TURKRY, pp.157-162, 2004.05.
115. Imam A.SADISUN, Hideki SHIMADA, Masatomo ICHINOSE, Kikuo MATSUI, Textural and Mineralogical Properties of Argillaceous Rocks in Relation to their Properties to Slaking, Proc. of the 4th Asian Symposium on Engineering Geology and the Environment, Hong Kong, CHINA, pp.166-172, 2004.05.
116. 笹岡孝司,島田英樹,久保田士郎,松井紀久男, 推進工法における薬液注入に関する検討, 資源と素材, 第120巻第3号, pp.152-158, 2004.03.
117. T.Srinivasulu, K.Matsui, H.Shimada, G.N.Gupta, Development and Application of Intelligent Ethernet Based System for Longwall Applications, Proc. of Geomechanics and Ground Contro,l New Dheli INDIA, pp.187-193, 2003.11.
118. S.Khazaei, H.Shimada, T.Kawai, J.Yotsumoto, K.Matsui, Over-cutting and Lubricant Distribution on Control by RADAR in Large Diameter Slurry Pipe Jacking Method, Proc. of International Workshop on Earth Science and Technology, Fukuoka JAPAN, pp.163-170, 2003.11.
119. K.Matsui, H.Shimada, A.Yabuki, T.Ueda, H.Furukawa, Optimal Highwall Thick Seam Mining Systems Considering the In-situ Stress Conditions, Proc. of the 3rd International Symposium on Rock Stress, Kumamoto JAPAN, 527-533, pp.527-533, 2003.11.
120. H.Shimada, I.A.Sadisun, M.Ichinose, Y.Yoshida, K.Matsui, The Application of Flyash Cement as Lining Material for Slope Stability of Slake-prone Rocks, Proc.of the 4th International Conference on Computer Applications in the Minerals Industries, Calgary CANADA, CD-ROM, 2003.09.
121. 島田英樹,酒井栄治,笹岡孝司,松井紀久男, 泥濃式推進工法における矩形管採用時の地山の安定性および泥水の浸透挙動, 下水道, 第40巻、第489号,pp.134-145, 2003.07.
122. T.Srinivasulu, K.Matsui, H.Shimada, G.N.Gupta, Development and Application of Smart-real Time System for Continuous Monitoring of Powered Supports Behavior and Automatic Evaluation of its Performance-A Case Study, Proc. of 3rd International Symposium on High Performance Mine Production, Aachen GERMANY, No.22(CD-ROM), 2003.06.
123. H.Shimada, T.Sasaoka, S.Kubota, K.Matsui, Y.Yoshida, The Application of Flyash Cement in Mining Backfill Material, Proc.of 12th International Symposium on Mine Planning & Equipment Selection, Kalgoorlie AUSTRALIA, CD-ROM(pp.199-204), 2003.04.
124. T.Srinivasulu, K.Matsui, H.Shimada, G.N.Gupta, PXI Systems for Monitoring Longwall Gate Roads Convergence, Proc.of 12th International Symposium on Mine Planning & Equipment Selection, Kalgoorlie AUSTRALIA, CD-ROM(pp.539-542), 2003.04.
125. H.Cao, H.Shimada, S.Kubota, K.Matsui, Study on the Stability of Highwall in Punch Longwall Mining, Proc. of New Development in Rock Mechanics and Rock Engineering, Shenyang CHINA, 471-474, pp.471-474, 2002.10.
126. H.Shimada, T.Sasaoka, H.Yamakawa, S.Kubota, K.Matsui, Effect of Shapes on Stability of Surrounding Soil Using Slurry Pipe-jacking, Proc. of New Development in Rock Mechanics and Rock Engineering, Shenyang CHINA, 395-398, pp.395-398, 2002.10.
127. I.A.Sadisun, H.Shimada, M.Ichinose, K.Matsui, Improved Procedures for Evaluating Physical Detreioration of Argillaceous Rocks, Proc. of New Development in Rock Mechanics and Rock Engineering, Shenyang CHINA, pp.36-39, 2002.10.
128. I.A.Sadisun, BANDONO, H.Shimada, M.Ichinos, K.Matsui, Determination of Slaking in Claystone of Upper Subang Formation, Proc. of International Association for Engineering Geology and the EnvironmentDurban, SOUTH AFRICA, pp.2635-2644, 2002.09.
129. 島田英樹,笹岡孝司,久保田士郎,松井紀久男, 推進工法における薬液注入時の薬液の浸透挙動ならびに力学的改良効果に関する数値解析的検討, 非開削技術, 第40号, pp.51-57, 2002.07.
130. T.Sasaoka, H.Shimada, S.Kubota, K.Matsui, 177. Study on Stability of Soil around Micro-tunnel Construction Using Slurry Pipe-jacking when Flyash Mortal Injectioninto Over-cutting Area, Proc. of 3rd Korea-Japan Joint Symposium on Rock Engineering, Seoul KOREA, Vol.2, pp.589-596, 2002.07.
131. 古賀 誠,島田英樹,松井紀久男, グラウト材の塑性粘度とろ過理論を導入した注入解析の現場への適用性 −グラウチングにおけるグラウト材の浸透挙動に関する研究(第3報)−, 資源と素材, 第118巻、第5,6号、pp.385-391, 2002.06.
132. I.A.Sadisun, H.Shimada, M.Ichinose, K.Matsui, The Role of Petrographical Aspects in Swelling Characteristics of Argillaceous Rocks, Proceedings of the Indonesian Science Meeting Kyushu-Okinawa 2002, Kagoshima JAPAN, pp.55-64, 2002.05.
133. H.Shimada, T.Sasaoka, S.Kubota, K.Matsui, Construction Method of Micro-tunnels Using Slurry Pipe-jacking, Proc. of International Workshop on Intelligent Mining Systems, Fukuoka JAPAN, pp.115-122, 2002.04.
134. 古賀 誠,島田英樹,松井紀久男, グラウト材の模擬地盤への注入実験とろ過理論を導入した注入解析の適用性 −グラウチングにおけるグラウト材の浸透挙動に関する研究(第2報)−, 資源と素材, 第118巻, 第1号, pp.29-35, 2002.01.
135. H.Shimada, T.Sasaoka, S.Kubota, K.Matsui, Study on Stability of Soil around Micro-tunnel Construction Using Slurry Pipe-jacking, Proc. of 14th Southeast Asian Geotechnical Conference. Hong Kong CHINA, 425-429, pp.425-429, 2001.12.
136. H.Shimada, K.Matsui, S.Kramadibrata, H.Timbul, M.A.Rai, Study of Insitu Stress Determination by Means of Acoustic Emission of Uniaxial Compression Test, Proc.of Intelligent Models in the Control of Mining Technologies, Ostrava CZECH, pp.46-54, 2001.09.
137. H.Shimada. T.Sasaoka, M.Inoue, S.Kubota, K.Matsui, Estimation of Thrust in the Construction of Underground Pipelines of Sewage Systems in Curved Jacking Area Using Slurry Pipe-jacking, Proc. of 19th International NO-DIG Conference & Exhibition, Prague CZECH, CD-ROM, 2001.09.
138. H.Shimada, M.Inoue. T.Sasaoka, S.Kubota, K.Matsui, Estimation of Thrust in the Construction of Underground Pipeline Systems in a Curved Area Using Slurry Pipe-jacking, Proc. of 2001 ISRM Symposium -2nd Asian Rock Mechanics Symposium, Beijing CHINA, 423-426, pp.423-426, 2001.09.
139. H.Z.Anwar, H.Shimada, M.Ichinose, K.Matsui, Geotechnical Characteristic of Shale and Its Effect on Construction Stability : with a Special Reference in Longwall Mining, Proc. of 3rd Asian Symposium Engineering Geology and the Environment, Yogyakarta INDONESIA, pp.170-177, 2001.09.
140. Y.Y.Jeong,島田英樹,松井紀久男,B.A.Jang,J.Kim, 韓国産花崗岩の疲労挙動に関する実験的検討, 第22回西日本岩盤工学シンポジウム論文集, pp.77-80, 2001.07.
141. 井上雅文, 島田英樹,久保田士郎, 松井紀久男, ベルスタモール工法における曲線区間の推進力評価法, 下水道, 第38巻, 第463号,pp.127-135, 2001.05.
142. 古賀 誠,島田英樹, 松井紀久男, 均質地盤に対するグラウト材の一次元注入解析 −グラウチングにおけるグラウト材の浸透挙動に関する研究(第1報)−, 資源と素材, 第117巻, 第3号, pp.209-214, 2001.03.
143. 島田英樹,後藤史樹,瀬戸政宏,松井紀久男, DRA法による地圧測定の適用性に関する基礎的研究 −先行応力の推定に及ぼす封圧および応力レベルの影響−, 資源と素材, 第117巻, 第3号, pp.202-208, 2001.03.
144. 笹岡孝司, 島田英樹, 久保田士郎, 松井紀久男, 泥水加圧式推進工法における泥水特性と裏込め注入, 資源と素材, 第117巻, 第3号, pp.195-201, 2001.03.
145. 島田英樹, 井上雅文, 久保田士郎, 松井紀久男, 泥濃式推進工法における曲線推進時の推進力の評価, 土木学会、岩盤力学に関するシンポジウム講演論文集, pp.111-115, 2001.01.
146. S.Kubota, H.Shimada, K.Matsui, Z.Liu, S.Ito, Initiation of Condensed Explosive from Incidence of Underwater Shock Wave, Proc. of ACFD 2000 Beijing Int. Confe. on Applied Computational Fluid Dynamics, Beijing CHINA, pp.552-558, 2000.10.
147. 久保田士郎, 島田英樹, 松井紀久男, 劉 志躍, 伊東 繁, 高性能爆薬と水中衝撃波との干渉過程の数値解析, 平成11年度衝撃波シンポジウム論文集, pp.61-64, 2000.03.
148. 島田英樹, 井上雅文, 久保田士郎,松井紀久男, 泥濃式推進工法における管埋設時の推進力の予測について, 非開削技術, 第30号,pp.23-29, 2000.01.
149. 井上雅文,島田英樹,松井紀久男, ベルスタモール工法における長距離曲線推進時の設計・施工例について, 第10回非開削技術研究発表会論文集, pp.11-19, 1999.11.
150. H.Z.Anwar, H.Shimada, M.Ichinose, K.Matsui, Slake-durability Behavior of Coal Mine Shales, Proc. of '99 Int. Sympo. on Mining Science and Technology, Beijing CHINA, pp.343-346, 1999.08.
151. H.Z.Anwar, H.Shimada, M.Ichinose, K.Matsui, M.Z.Kafrawi, Study on the Application of Rock Bolting Technology in Ombilin and Ikeshima Coal Mine, Proc. of '99 Japan-Korea Joint Symposium on Rock Engineering, Fukuoka JAPAN, pp.483-488, 1999.08.
152. S.Kubota, H.Shimada, K.Matsui, A.Masui, Y.Ogata, Y.Wada, M.Seto, K.Katsuyama, Control of The Flyer Motion in Explosive Welding for Pipe Repair, Proc. of the 1st Japan-China Joint Workshop on Industrial Applications of Explosive, Shock-Wave and High-Strain-Rate Phenomena, Kumamoto JAPAN, pp.97-102, 1999.03.
153. H.Shimada, K.Matsui, H.Z.Anwar, Control of Hard-to-Collapse Massive Roofs in Longwall Face Using Hydraulic Fracturing Technique, Proc. of 17th International Conference on Ground Control in Mining, Morgantown USA, 79-87, pp.79-87, 1998.08.
主要総説, 論評, 解説, 書評, 報告書等
1. 島田英樹, わが国の礫地山の泥水式推進工法に関する状況について, No-Dig Today, No.104, pp.41-45 , 2018.07.
2. 島田 英樹, 佐藤 徹, 多様な断面で多様な分野に適用される推進工法, 月刊推進技術, 2017.11.
3. 島田 英樹, 九州大学における世界展開力強化事業-地球資源工学におけるグローバル人材養成のための学部・大学院ビルドアップ協働教育プログラム-, 季刊資源と素材, Vol.2, No.1, pp.76-77, 2017.01.
4. 島田 英樹, 我が国の推進工法に関わる研究課題ならびに今後の展望 -世界が認める推進技術の継承のために-, 月刊推進技術, 2014.08, 今日、都市開発事業において、深度の浅い空洞の開発、維持に関するニーズが急速に高まり、安全かつ効果的に空洞を開発、維持、管理するためには、深度の浅い空洞やその周辺領域の変形・破壊挙動を解明する必要がある。深度の浅い空洞の変形・破壊挙動は、空洞周辺に作用する重力の影響や不均質な地圧、地下水圧の影響が複雑に関係しているため、これらの要因を十分把握した上で厳密に検討しなければならない。筆者は1990年代より石炭鉱山の岩盤掘削に関する研究を行ってきたが、石炭鉱山の閉山に伴いそれまで培ってきた技術や蓄積してきた知見を資源開発の他分野に拡張するために推進工法に関わる研究を開始し、現在、推進工法を対象とした理論、実験および実測による検討を行っている。研究開始当時、泥水加圧式推進工法をはじめとする推進工法を研究テーマとして取り扱われた例は国内外とも極めて少なく、施工中に発生した様々な現象を未だ経験的により解決しているのが実状であったため、これの適用現場の安定性の評価、低推力推進メカニズム、低推力で推進できる泥水の開発などの3つの分野に分けて実験、実測および解析を行い、2007年ローマで開催された国際非開削技術協会でNO-DIGアワードを受賞した。本報告では、筆者がこれまで実施してきた研究状況、本研究テーマの課題、解決法などに絞って簡単にまとめた内容について示す。.
5. 島田英樹,佐藤 徹,松井紀久男, パイプルーフ工法の歴史と最新技術, 基礎工, 2013.03.
6. 島田英樹,吉田安廣,千田 尚,松井紀久男, 注入技術の適用と今後の課題 -可塑性滑材の諸特性ならびに問題点-, 月刊推進技術, 2012.12.
7. Hideki Shimada, Takashi Senda, 推進と地盤の挙動, No-Dig Today, 2012.04, 一般に推進工事は、シールド工法と同様に、既設の他のトンネル、ガス管や水道管等の地下埋設物、ビルや鉄道・橋梁等の各種重要施設物の基礎等と、近接・交差して施工されることが多い。さらに地上には各種施設・道路等が密集している.したがって、掘進に際してはこれらの近接構造物に変状を与えないことが厳しく要求されている。また、トンネル前面および上部における変状には、注視すべき課題が多く残されている.すなわち、推進工事およびシールド工事の増加とともに技術も向上し、年々難しくなる地質条件、施工条件を克服できるようになってきたが、沈下問題の解決は未だ十分とは言えず、古くて新しい課題として残されている。そこで、近年の推進と地盤の挙動に関する研究結果と研究動向について述べる。.
8. 島田英樹,笹岡孝司,松井紀久男, 震災時のガスパイプライン修復におけるフライアッシュセメントを用いた瞬結材の開発, 九州大学グローバルCOEプログラム新炭素資源学ニューズレター, Vol.3, pp.5-7, Application of Flash Setting Material for Temporary Earthquake Disaster Restoration of Gas Pipelines Using Fly Ash Cement Mixtures
Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI
Newsletter, G-COE Program Kyushu University, Novel Carbon Resource Science, Vol.3, pp.5-7, April 2010, 2010.04.
9. 島田英樹,笹岡孝司,松井紀久男, 岩盤推進技術に関する動向, 月刊推進技術, 2010.05.
10. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Application of Flash Setting Material for Temporary Earthquake Disaster Restoration of Gas Pipelines Using Fly Ash Cement Mixture, Journal of Novel Carbon Resouce Sciences, Vol.1, pp.1-5, 2010.03.
11. 島田英樹,川合 孝,松井紀久男, 生活基盤設備建設で活躍する推進技術, 月刊推進技術, 2009.10.
主要学会発表等
1. Hideki SHIMADA, Takashi SASAOKA, Sugeng WAHYUDI, Akihiro HAMANAKA, Fumihiko MATSUMOTO, Tomo MORITA, Stability of Surrounding Soil by Using Underpinning Pipe Jacking Method, NO-DIG 2019 37th International Conference and Exhibition, 2019.09.
2. Hideki SHIMADA, Sugeng WAHYUDI, Takashi SASAOKA, Akihiro HAMANAKA, Behavior of Surrounding Soil in the Case of Application of Under-pinning Method by Using Pipe Jacking, Trenchless Asia 2019, 2019.07.
3. Hideki SHIMADA, Sugeng WAHYUDI, Takashi SASAOKA, Akihiro HAMANAKA, Application of Rectangular Pipe Jacking to Excavation of Large Space, 23rd International Trenchless Technology Conference, 2019.04.
4. Hideki SHIMADA, Sugeng WAHYUDI, Satoru ASANO, Kazuki MAEHARA, Takashi SASAOKA, Akihiro HAMANAKA, Application of Soil Improvement by Sodium Silicate-based Grouting on Indonesian Sand, 10th Asian Rock Mechanics Symposium, 2018.10.
5. Hideki SHIMADA, Kazuki MAEHARA, Masahiro TANAKA, Sugeng WAHYUDI, Takashi SASAOKA, Akihiro HAMANAKA, Fumihiko MATSUMOTO, Tomo MORITA, Behavior of Soil around Rectangular Pipe by Using New Type Excavation of Pipe Jacking, NO-DIG 2018 36th International Conference and Exhibition, 2018.10.
6. Hideki SHIMADA, Takashi SASAOKA, Koichiro WATANABE, Takeshi TSUJI, Akira IMAI, Hajime MIKI, Yasuhiro FUJIMITSU, Yuichi SUGAI, Kotaro YONEZU, Naoki HIROYOSHI, International Field Practice 2017 -Cooperative Program for Resources Engineering between Kyushu University and Hokkaido University, Japan- , The 8th SOMP Regional Meeting, 2018.07.
7. 島田英樹,笹岡孝司,濱中晃弘,Sugeng WAHYUDI,久保田士郎,佐分利禎, 飛石の発生メカニズムとその制御に関する基礎的研究, 第77回石灰石鉱業大会, 2018.05.
8. Hideki SHIMADA, Sugeng WAHYUDI, Takashi SASAOKA, Akihiro HAMANAKA, Shuichi FUJITA, Kikuo MATSUI, Optimum Backfilling Material into Over-cutting Area Surrounded by Acid Sulfate Soils in East Asian Countries, Trenchless Asia 2018, 2018.05.
9. Hideki Shimada, Construction Technology of Utility Pipeline Installation in Rock and GCB Conditions by the Slurry Type Micro-tunneling Methods in Japan, 22nd International Trechless Technology Conference, 2018.04.
10. Hideki Shimada, Shinji Matsumoto, Akihiro HAMANAKA, Takashi Sasaoka, Ginting Jalu Kusuma, Effect of Acid Soil Properties on Soil Erosion at a Dumping Site in an Open-pit Coal Mine, Indonesia, 2nd International Symposium on Land Reclamation and Ecological Restration, 2017.10.
11. Hideki Shimada, Acid Mine Drainage and Rehabilitation in Open-pit Mine for Environmental Protection, Scientific-Practical Seminar on Deep Processing of Mineral Resources and Environmental Aspects of Mining Industry, 2017.10.
12. Hideki Shimada, Takashi Sasaoka, Hamanaka Akihiro, Toru Sato, Fumihiko Matsumoto, Application of Pipe Jacking Technology into ASEAN Countries, Proc. of NASTT's 2017 No-Dig Show and ISTT's 35th annual International No-Dig, 2017.04.
13. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Hamanaka Akihiro, Recent Pipe Jacking Technology in Japan and Its Application into ASEAN Countries, 20th Annual National Conference on Geotechnical Engineering, 2016.11.
14. Hideki Shimada, Takashi Sasaoka, SUGENG WAHYUDI, Shuichi Fujita, Yasuhiro Yoshida, Takashi Senda, Practical Design of Over-cutting Area on Pipe Jacking Method by Application of Chemical Grouting, The 8th Asian Joint Symposium on Geotechnical and Geoenvironmental Engineering, 2016.11.
15. Hideki Shimada, Takashi Sasaoka, SUGENG WAHYUDI, Shuichi Fujita, Yasuhiro Yoshida, Keisuke Takahashi, Development of Construction Material for Covering of Seabed Resources Using Fly Ash, 9th Asian Rock Mechanics Symposium, 2016.10.
16. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Naung Naung, Phanthoudeth Pongpanya, Tunnel Crown Deformation Generated by Pipe Jacking Technology in a Weak Rock Underground Coal Mine, International NO-DIG Beijing 2016 34th International Conference and Exhibition, 2016.10.
17. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Shuichi Fujita, Yasuhiro Yoshida, Yoshihiko Kanemasu, Yasuharu Toshida, Development of Backfilling Material for Over-cutting Area of Pipe Jacking Using Fly Ash by Application of
Chemical Injection, Trenchless Asia for Smart City 2016, 2016.06.
18. Hideki Shimada, SUGENG WAHYUDI, Takashi Sasaoka, Shuichi Fujita, Toru Sato, Effect of Construction of Tunnels by Pipe Roof Method on Adjacent Building Structure, Trenchless Asia 2016 Conference, 2016.05.
19. Hideki Shimada, Matsui Kikuo, Toru Sato, Masaya Hirai, Construction Technology of Utility Pipeline Installation in Rock and Gravel with Cobbles and Boulders by the Slurry Type Micro-tunneling Methods, Trenchless Asia 2016 Conference, 2016.05.
20. Seiichi Sakamoto, Shinji Matsumoto, Hideki Shimada, Takashi Sasaoka, Shuichi Fujita, SUGENG WAHYUDI, Yasuhiro Yoshida, Keisuke Takahashi, New Development Covering Material Using Fly Ash for Construction of Seabed Structures, International Symposium on Earth Science and Technology 2015, 2015.12.
21. Hideki Shimada, Takashi Sasaoka, SUGENG WAHYUDI, Matsui Kikuo, Ginting Jalu Kusuma, Rudy Sayoga Gautama, Fundamental Study of Effect of Waste Rock Condition on Control of Acid Mine Drainage at Open Pit Coal Mine in Tropical Regions, VIETROCK 2015 International Symposium, 2015.03.
22. Hideki Shimada, Takashi Senda, Takashi Sasaoka, Shuichi Fujita, SUGENG WAHYUDI, Akihiro Hamanaka, Matsui Kikuo, Dai Watanabe, Analytical Study on Soil Behavior and Its Countermeasures Using a Pipe Jacking Method in Deep Strata, International NO-DIG 2014 32nd Internatinal Conference and Exhibition, 2014.10.
23. Hideki Shimada, Yasuhiro Yoshida, Takashi Senda, Yasutaka Maeda, Takashi Sasaoka, Shuichi Fujita, Matsui Kikuo, Dai Watanabe, Development of Backfilling Material Using Fly Ash by Application of Chemical Injection, 17th Conference on Environment and Mineral Processing, 2013.06, Lubrication can effectively reduce the needed thrust if a discrete layer of lubricant is maintained between a pipe and the excavated soil. A lower frictional force allows greater jacking lengths to be achieved. The reduction of frictional stress around the pipe strongly affects the efficiency of lubrication injection. The lubricant must be designed to form a layer in the surrounding soil, be pressurized to overcome ground water pressure and stabilize the over-cutting area. The lubricant should also fill the over-cutting area completely to minimize surface settlement. However, for a commercial lubricant to be effective, it has been suggested that ingredients such as sodium and potassium be eliminated. As a result, in order that a lubricant does not lose its function as a support against the overburden pressure of an over-cutting area and to enable a reduction in thrust, a higher quality lubricant which can overcome these problems must be developed as soon as possible. In this paper, in order to examine the characteristics and behaviour of a material developed as a lubricant and backfilling for a deeper strata excavation system such as a pipe jacking, a fundamental investigation is performed and the various results are discussed..
24. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Development of Coal Mine in South Gobi, Mongolia, The Kick-off Seminar on ASEAN-Japan BUILD UP Cooperative Education Program for Global Human Resource Development in Earth Resource Engineering, 2013.01, Much attention is paid to Mongolia, particularly, South Gobi as a new source of coal. Many countries such as Japan, Korea, USA, as well as nearby China and Russia are very interested in large scale coal mine projects, namely, Tavan Tolgoi project in South Gobi area where affluent and high quality coal deposits for steaming and metallurgical use are underlain. There is, however, a bottle neck by poorly developed infrastructure in South Gobi, which has for a long time prevented from coal mine development there. A couple of new coal mines have already been developed and coal has been mined in South Gobi. Considering environmental impacts from development of coal mines, the Department of Earth Resources Engineering, Kyushu University (DEREKU) has started a joint research program with Mongolian University of Science and Technology (MUST)..
25. Hideki SHIMADA, Ginting Jalu KUSUMA, Akihiro HAMANAKA, Shnji MATSUMOTO, Takashi SASAOKA, Kikuo MATSUI, Model of the Internal Structure of Coal Overburden Dumps for the Control of Acid Mine Drainage Generation, The 21st International Symposium on Mine Planning and Equipment Selection, 2012.11, The presence of water and oxygen are some of the important factors influencing the oxidation rate of sulfide minerals within overburden dumps. In the overburden dumps, the availability of water and oxygen is strongly controlled by the physical structure of the dump, as well as the surface climate and geochemical reaction within the dump. In this study, made up of a series of field investigations, physical and geochemical laboratory characterizations were conducted in order to evaluate the internal physical structure and geochemical characteristics of coal mine overburden dumps. As the result of a series of analysis, alternate geochemical characteristics may control the acidification-neutralization reaction of infiltrated water, the precipitation of secondary minerals and may subsequently determine the quality of the overburden dump drainage. The internal structure formed and the spatial heterogeneity of geochemical characteristics in the overburden dumps controls the acid drainage inhibition process within the dumps..
26. Hideki SHIMADA, Koichi ARAKI, Takashi SASAOKA, Shuichi FUJITA, Kikuo MATSUI, Dai WATANABE, Analytical Study on Prediction of Pipeline Positions by a Restoration Method, NO-DIG2012 30th International Conference and Exhibition, 2012.11, Buried pipelines that have sagged can result in damage to welded joints, disconnections and so on. Performance can also be affected with stagnation or stoppage of flow, which can lead to major secondary problems, such as caved-in roads or effluent leakage. To overcome these problems, various methods have been proposed and used for the restoration of flow performance and fixing damaged sections of underground pipelines without the need for excavation. However, there are not many methods available that do not require excavation for repairing reduced flow performance and stoppages, or pipeline damage caused by sagging, which is thought to be the major contributor to this type of damage. The authors provide a report on construction methods and examples that do not require excavation, but instead use a system of grouting for the ground, surrounding the buried pipeline, to aid in the repair of the pipeline position, which can actually improve the surrounding foundations..
27. Hideki SHIMADA, Ginting Jalu KUSUMA, Koh HIROTO, Takashi SASAOKA, Akihiro HAMANAKA, Hiroshi TAKAMOTO, Shuichi FUJITA, Kikuo MATSUI, Laboratory Evaluation of Multi-Layer Cover to Control Acid Mine Drainage in the Coal Mine Waste Rock Dump, The 20th International Symposium on Mine Planning and Equipment Selection , 2011.10.
28. Hideki SHIMADA, Ginting Jalu KUSUMA, Koh HIROTO, Takashi SASAOKA, Akihiro HAMANAKA, Hiroshi TAKAMOTO, Kikuo MATSUI, Study on Multi Layer Covering Systems of Non Acid Forming and Potentially Acid Forming of Coal Mine Waste
Rock to Control Acid Mine Drainage, 5th International Conference on Sustainable Development in the Minerals Industry, 2011.06.
29. Hideki SHIMADA, Jan GOTTFRIED, Akihiro HAMANAKA, Takashi SASAOKA, Yasuhiro YOSHIDA, Shuichi FUJITA, Kikuo MATSUI, Application of Injection Material for Offshore Structures Using Flyash-surfactant Mixtures, 14th Conference on Environment and Mineral Processing, 2011.06.
30. Hideki SHIMADA, Takashi SASAOKA, Yasuhiro YOSHIDA, Shuichi FUJITA, Akihiro HAMANAKA, Kikuo MATSUI, Development of Construction Material Using Flyash-Surfactant Mixtures for an Ocean Floor, 5th International Workshop and Conference on Earth Resources Technology, 2011.05.
31. 島田英樹,荒木紘一,幸村将士,Yanlong CHEN,笹岡孝司,松井紀久男,一ノ瀬政友, 位置グラウチングによる周辺地山の移動特性に関する検討, 資源・素材学会春季大会, 2011.03.
32. Takashi SASAOKA, Hideki SHIMADA, Kikuo MATSUI, Study on Utilization of Flyash for Barrier/Buffer Materials for Radioactive Waste Disposal, 19th International Symposium on Mine Planning & Equipment Selection, 2010.12.
33. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Ginting Jalu KUSUMA, Jiro OYA, Hiroshi TAKAMOTO, Suseno KRAMADIBRATA, Budi SULISTIANTO, Fundamental Study of Acid Drainage Control Using Flyash, 19th International Symposium on Mine Planning & Equipment Selection, 2010.12.
34. Hideki SHIMADA, Yasuhiro YOSHIDA, Koichi ARAKI, Takashi SASAOKA, Shuichi FUJITA, Kikuo MATSUI, Masuhiko IINO, Takahisa TOMII, Application of Flash Setting Material for Temporary Earthquake Disaster Restoration of Gas Pipelines Using Fly Ash Cement Mixtures, NO-DIG2010 28th International Conference and Exhibition, 2010.11.
35. Hideki SHIMADA, Toru SATO, Takashi SASAOKA, Kikuo MATSUI, Effect of Application of Pipe Roof Method by Using Pipe Jacking on Stability of Surrounding Soil, The 4th International Workshop and Conference on Earth Resources Technology, 2010.05.
36. Hideki SHIMADA, Takashi SASAOKA, Koichi ARAKI, Shuichi FUJITA, Kikuo MATSUI, Temporary Earthquake Disaster Restoration of Gas Pipelines Using Flyash Cement Mixtures, 5th International Symposium on Novel Carbon Resouce Science, 2010.04.
37. 島田英樹,佐藤 徹,平石 望,笹岡孝司,松井紀久男,一ノ瀬政友, 推進工法での推進機構の相違による周辺地山への影響, 資源・素材学会春季大会, 2010.03.
38. Hideki SHIMADA, Koichi ARAKI, Masashi KOMURA, Takashi SASAOKA, Kikuo MATSUI, Takahisa TOMII, Lifeline Restoration Method for Pipe Positions by Using Chemical Grouting in Urban Area, 2009 Korea-Japan Joint Symposium on Rock Engineering, 2009.10.
39. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Koichi ARAKI, Hideaki NAKAGAWA, Feasibility Study on Infrastructure Development for Waste Water in Yogyakarta, Indonesia, 3rd International Workshop and Conference on Earth Science Technology, 2009.05.
40. Hideki SHIMADA, Yasuhiro YOSHIDA, Takashi SASAOKA, Kikuo MATSUI, Shuichi FUJITA, Takashi KAWAI, Kikuo MATSUI, Property of Flyash Surfactant Injection into Over-cutting Area As Lubricant for Slurry Pipe Jacking, NO-DIG2009 27th International Conference and Exhibition, 2009.04.
41. 島田英樹,吉田安廣,笹岡孝司,藤田修一,一ノ瀬政友,松井紀久男,飯野益彦, 裏込注入時におけるフライアッシュセメントを用いた瞬結材の開発, 資源・素材学会春季大会, 2009.03.
42. Hideki SHIMADA, Hideaki NAKAGAWA, Takashi SASAOKA, Kikuo MATSUI, Feasibility Study on Sustainable and Environmental Conscious Infrastructure Development in Yogyakarta, Indonesia, The 2nd International Symposium on Novel Carbon Resource Science , 2009.03.
43. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Takashi KAWAI, Yasuhiro YOSHIDA, Koichi ARAKI, Constructions of an Infrastructure Pipeline Using Pipe Jacking Trenchless Technology in Japan, GEO-CHAINGMAI 2008, 2008.12.
44. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Jan GOTTFRIED, Oldrich KODYM, Vladimir KEBO, Numerical Study on Effect of Rock Mass Stability on Deep Deposit Slicing at Uranium Mine in Czech Republic, International Symposium on 16th Mine Planning and Equipment Selection, 2008.10.
45. Hideki SHIMADA, Yasuhiro YOSHIDA, Takashi SASAOKA, Shuichi FUJITA, Masatomo ICHINOSE, Masuhiko IINO, Kikuo MATSUI, Lubrication Property Requirements for Injection into Over-cutting Area Using Extra-large-diameter Slurry Pipe Jacking, NO-DIG2008 26th International Conference and Exhibition, 2008.06.
46. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Takashi KAWAI, Yasuhiro YOSHIDA, Koichi ARAKI, Constuction of an Infrastructure Pipeline Using a No-Digging Pipe-jacking System in Japan, The International Workshop and Conference on Earth Science Technology, 2008.04.
47. Hideki SHIMADA, Kikuo MATSUI, Takashi SASAOKA, Masatomo ICHINOSE, Construction of Lifeline System Using Slurry Pipe Jacking in Japan, 3rd Brazilian Congress of Trenchless Technology, 2008.02.
48. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Jan GOTTFRIED, Masuhiko IINO, Yasuhiro YOSHIDA, Effect of Flyash Type on Fluidability of Flyash Cement, International Symposium on 16th Mine Planning and Equipment Selection and Environment Issues, 2007.12.
49. Hideki SHIMADA, Takashi KAWAI, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Masuhiko IINO, Yasuhiro YOSHIDA, Behavior of Over-cutting Area Injected by Flyash Surface-active Agent Mixture Material, NO-DIG2007 25th International Conference and Exhibition, 2007.09.
50. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Takashi KAWAI, Practical Study on Large Diameter Pipe Jacking in the Construction of Sewage Systems, First Sri Lankan Geotechnical Society International Conference on Soil and Rock Engineering, 2007.08.
51. Hideki SHIMADA, Takashi SASAOKA, Jan GOTTFRIED, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Masuhiko IINO, Yasuhiro YOSHIDA, Relation between Fluidability of Flyash Cement and Size/Shape of Flyash Particles, 11th Conference on Environment and Mineral Processing, 2007.05.
52. Hideki SHIMADA, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Masuhiko IINO, Yasuhiro YOSHIDA, Application of Grouting Material for Ground Inprovement Using Flyash Cement Mixed with Surfactant, International Workshop on Earth Resources Technology, 2007.04.
53. 島田英樹,笹岡孝司,松井紀久男,一ノ瀬政友,藤田修一,吉田安廣,飯野益彦,峯下誠一,水沼達也, フライアッシュ界面活性剤混合材料の海中シーリング材としての適用性, 資源・素材学会春季大会, 2007.03.
54. Hideki SHIMADA, Takashi KAWAI, Takashi SASAOKA, Kikuo MATSUI, Masatomo ICHINOSE, Shuichi FUJITA, Yasuhiro YOSHIDA, Behavior of Lubricant Injection into Over-cutting Area for Slurry Pipe Jacking, NO-DIG2006 24th International Conference and Exhibition, 2006.11.
55. Hideki SHIMADA, Kikuo MATSUI, Jiro OYA, Masatomo ICHINOSE, Ryuzo MAEHATAKE, Hideaki NAKAGAWA, Suseno KRAMADIBRATA, Budi SULISTIANTO, Fundamental Study of Acid Drainage Control by Flyash, 15th International Symposium on Mine Planning and Equipment Selection, 2006.06.
56. 島田英樹,高橋恵輔,松井紀久男,一ノ瀬政友,藤田修一,峯下政一,水沼達也,吉田安廣,佐藤 巌, フライアッシュセメント界面活性剤混合材料充填材の周辺環境への影響, 資源・素材学会春季大会, 2006.03.
特許出願・取得
特許出願件数  2件
特許登録件数  4件
その他の優れた研究業績
2015.04, 深海底資源の開発に必要な履工材料の開発に成功した。.
2013.09, ボックス推進工法が世界で記事になった。.
2010.06, 震災後のガスパイプライン復旧用材料を開発、公開した。.
2002.08, 滑材注入タイプの補助システムを共同で開発し、事業化に成功した。.
2001.09, ボックスタイプ推進工法を共同で開発し、事業化に成功した。.
1998.04, フライアッシュセメントFF21の工法を立ち上げ商品化に成功した。.
学会活動
所属学会名
資源・素材学会
土木学会
地盤工学会
岩の力学連合会
Society for Mining, Metallurgy, and Exploration, Inc.
日本下水道協会
日本非開削技術協会
学協会役員等への就任
2019.05~2020.03, 資源・素材学会, 将来構想委員会委員.
2019.06~2021.05, 日本非開削技術協会, 副会長.
2019.02~2020.01, 資源・素材学会九州支部, 副支部長.
2019.02~2021.01, 資源・素材学会, 代議員.
2018.03~2023.03, 日本非開削技術協会, 国際委員会委員.
2018.02~2022.01, 資源・素材学会, 代議員.
2017.04~2021.03, 資源・素材学会採掘部門委員会 , 委員長.
2016.05~2017.03, 資源・素材学会, 資源・素材教育センター実行委員会委員.
2015.10~2017.10, 岩の力学連合会, 運営委員.
2015.03~2016.03, 資源・素材学会石炭等エネルギー開発利用部門委員会, 委員長.
2015.04~2017.03, 岩の力学連合会, 理事.
2013.04~2020.03, Society for MPES, 運営委員.
2013.04~2015.03, 資源・素材学会, 幹事.
2010.01~2012.12, 資源・素材学会, 運営委員.
2009.06~2011.05, 岩の力学連合会, 幹事.
2008.01~2010.03, 資源・素材学会, 幹事.
2007.06~2015.05, 資源・素材学会九州支部, 常議員.
2004.04~2007.12, 資源・素材学会開発機械システム工学部門委員会, 幹事.
2006.06~2011.12, 資源・素材学会九州支部, 常議員.
2000.04~2015.12, 資源・素材学会九州支部, 幹事.
学会大会・会議・シンポジウム等における役割
2017.11.30~2017.12.01, International Symposium on Earth Science and Technology 2017, 座長(Chairmanship).
2016.12.08~2016.12.09, International Symposium on Earth Science and Technology 2016, 座長(Chairmanship).
2016.11.29~2016.11.29, 第27回非開削技術研究発表会, 座長(Chairmanship).
2016.09.13~2016.09.15, 資源・素材関係学協会合同秋季大会 , 座長(Chairmanship).
2015.12.03~2015.12.04, International Symposium on Earth Science and Technology 2015, 座長(Chairmanship).
2015.11.24~2015.11.24, 第26回非開削技術研究発表会, 座長(Chairmanship).
2015.09.08~2015.09.10, 資源・素材関係学協会合同秋季大会 , 座長(Chairmanship).
2014.12.04~2014.12.05, International Symposium on Earth Science and Technology 2014, 座長(Chairmanship).
2013.12.03~2013.12.04, International Symposium on Earth Science and Technology 2013, 座長(Chairmanship).
2013.10.14~2013.10.19, The 22nd International Symposium on Mine Planning and Equipment Selection, 座長(Chairmanship).
2012.11.28~2012.11.30, The 21st International Symposium on Mine Planning and Equipment Selection, 座長(Chairmanship).
2012.09.18~2012.09.19, International Symposium on Earth Science and Technology 2012, 座長(Chairmanship).
2012.09.11~2012.09.13, 資源・素材関係学協会合同秋季大会, 座長(Chairmanship).
2012.05.09~2012.05.11, 6th International Conference on Earth Resources Technology, 座長(Chairmanship).
2012.03.26~2012.03.28, 資源・素材学会, 座長(Chairmanship).
2011.12.06~2011.12.07, International Symposium on Earth Science and Technology 2011 , 座長(Chairmanship).
2011.10.12~2011.10.14, The 20th International Symposium on Mine Planning and Equipment Selection, 座長(Chairmanship).
2011.09.01~2011.09.02, 第32回西日本岩盤工学シンポジウム, 座長(Chairmanship).
2010.12.07~2010.12.08, International Symposium on Earth Science and Technology 2010 , 座長(Chairmanship).
2010.03.30~2010.04.01, 資源・素材学会春季大会, 座長(Chairmanship).
2009.12.08~2009.12.09, International Symposium on Earth Science and Technology 2009, 座長(Chairmanship).
2009.11.16~2009.11.18, 18th International Symposium on Mine Planning & Equipment Selection and 11th International Symposium on Environmental Issues and Waste Management in Energy and Mineral Production, 座長(Chairmanship).
2009.10.22~2009.10.23, 2009 Korea-Japan Joint Symposium on Rock Engineering, 座長(Chairmanship).
2009.05.29~2009.05.29, 資源・素材学会九州支部春季例会, 審査委員.
2009.03.26~2009.03.28, 資源・素材学会春季大会, 座長(Chairmanship).
2009.03.10~2009.03.11, The 2nd International Simposium on Novel Carbon Resource Science, 座長(Chairmanship).
2008.12.01~2008.12.02, International Symposium on Earth Science and Technology 2008, 座長(Chairmanship).
2008.10.20~2008.10.22, International Symposium on 16th Mine Planning and Equipment Selection, 座長(Chairmanship).
2008.10.07~2008.10.09, 資源・素材学会秋季大会, 司会(Moderator).
2008.09.02~2008.09.03, 第12回岩の力学国内シンポジウム, 座長(Chairmanship).
2007.03, 資源・素材学会, 座長(Chairmanship).
2006.11, NO-DIG2006 24th International Conference and Exhibition, 座長(Chairmanship).
2006.09, 15th International Symposium on Mine Planning and Equipment Selection, 座長(Chairmanship).
2006.03, 資源・素材学会, 座長(Chairmanship).
2005.12, 3rd International Workshop on Earth Science and Technology, 座長(Chairmanship).
2005.09, 資源・素材学会, 座長(Chairmanship).
2005.08, 2005 East Asia Symposium on Rock Enginnering, 座長(Chairmanship).
2005.05, 資源・素材学会九州支部春季例会, 座長(Chairmanship).
2005.03, 資源・素材学会春季大会, 座長(Chairmanship).
2004.11, 22nd International NODIG Conference and Exhibition, 座長(Chairmanship).
2004.10, The 5th International Symposium on Mining Science and Technology, 座長(Chairmanship).
2004.10, 第15回非開削技術研究発表会, 座長(Chairmanship).
2004.09, 資源・素材関係学協会合同秋季大会, 座長(Chairmanship).
2004.05, 資源・素材学会九州支部春季例会, 座長(Chairmanship).
2004.03, 資源・素材学会, 座長(Chairmanship).
2003.03, 資源・素材学会, 座長(Chairmanship).
2003.05, 資源・素材学会九州支部, 司会(Moderator).
2003.09, Fourth International Conference on Computer Applications in the Minerals Industries, 座長(Chairmanship).
2003.11, International Workshop on Earth Science and Technology, 司会(Moderator).
2013.12.03~2013.12.04, CINEST国際会議, 幹事.
2011.12.06~2011.12.07, 地球科学技術に関する国際会議, 幹事.
2010.12.05~2011.12.06, 地球科学技術に関する国際会議, 幹事.
2009.12.05~2009.12.06, 地球科学技術に関する国際会議, 幹事.
2010.09.13~2011.09.15, 資源・素材学会秋季大会, 大会役員.
2009.03.11~2009.03.12, 第2回新炭素資源学国際会議, 幹事.
2008.12.01~2008.12.02, 地球科学技術に関する国際会議, 幹事.
2006.09, 資源・素材学会秋季大会, 幹事.
2006.12, 4th International Workshop on Earth Science and Technology, Secretary.
2005.08, 4th Japan-Korea Symposium on Rock Engineering, Secretary.
2005.12, 3rd International Workshop on Earth Science and Technology, Secretary.
2004.12, 2nd International Workshop on Earth Science and Technology, Secretary.
2003.11, International Symposium on Rock Stress, Committee.
2003.11, International Workshop on Earth Science and Technology, Secretary.
1999.07, 2nd Japan-Korea Symposium on Rock Engineering, Secretary.
1999.09, 資源・素材学会秋季大会, 幹事.
1993.10, 資源・素材学会秋季大会, 幹事.
学会誌・雑誌・著書の編集への参加状況
2015.04~2020.03, International Journal of Mining Reclamation and Environment, 国際, 編集委員.
2016.04~2018.03, 資源・素材学会誌, 国内, 編集委員.
2015.04~2017.03, 岩の力学連合会電子ジャーナル, 国内, 編集委員長.
2013.06~2020.12, CINEST国際会議, 国際, 査読委員.
2012.01~2012.12, 資源・素材学会誌, 国内, 編集委員.
2009.01~2012.12, 資源・素材学会誌, 国内, 編集委員.
2010.04~2012.03, 資源・素材学会誌, 国内, 編集委員.
2009.04~2010.03, 資源・素材学会誌, 国内, 査読委員.
2002.04~2003.03, 露天掘り鉱山における残壁技術解説書, 国内, 編集委員.
学術論文等の審査
年度 外国語雑誌査読論文数 日本語雑誌査読論文数 国際会議録査読論文数 国内会議録査読論文数 合計
2019年度 32  12  15  63 
2018年度 24  12  15  53 
2017年度 18  18  13  54 
2016年度 15  20  49 
2015年度 18  12  15  45 
2014年度 12  18  40  13  83 
2013年度 13  10  23  10  56 
2012年度 12  25  50 
2011年度 12  25  15  58 
2010年度 10  25  12  50 
2009年度 15  37 
2008年度 12  28 
1998年度
1999年度 10  16 
2000年度
2001年度
2002年度 13  23 
2003年度 20  26 
2004年度 16  21 
2005年度 15  22 
2006年度 18  25 
その他の研究活動
海外渡航状況, 海外での教育研究歴
マラウイ大学, Malawi, 2019.11~2019.11.
バンドン工科大学, Indonesia, 2018.08~2018.08.
オストラバ工科大学, CzechRepublic, 2018.03~2018.04.
バンドン工科大学, Indonesia, 2016.03~2016.03.
バンドン工科大学, Indonesia, 2014.05~2015.05.
バンドン工科大学, チュラロンコン大学, Indonesia, Thailand, 2013.11~2013.11.
バンドン工科大学, Indonesia, 2012.09~2012.09.
チュラロンコン大学, Thailand, 2012.04~2012.04.
カンボジア工科大学, Cambodia, 2012.04~2012.04.
オストラバ工科大学, アーヘン工科大学, CzechRepublic, Germany, 2011.06~2011.06.
オストラバ工科大学, CzechRepublic, 2010.06~2010.06.
オストラバ工科大学, CzechRepublic, 2009.06~2009.06.
バンドン工科大学, Indonesia, 2009.03~2009.03.
チュラロンコン大学, Thailand, 2009.02~2009.02.
シンガポール大学, Singapore, 2009.01~2009.01.
バンドン工科大学, Indonesia, 2008.07~2008.07.
ガジャマダ大学, Indonesia, 2008.07~2008.07.
オストラバ工科大学, CzechRepublic, 2008.06~2008.06.
ハサヌディン大学, バペナス, バペダ, Indonesia, 2008.01~2008.02.
西オーストラリア大学, カーティン大学, Australia, Australia, 1999.12~2000.11.
バージニア工科大学, ウエストバージニア大学, UnitedStatesofAmerica, UnitedStatesofAmerica, 1996.03~1996.08.
外国人研究者等の受入れ状況
2017.12~2017.12, 2週間未満, オストラバ工科大学, CzechRepublic, 学内資金.
2016.12~2016.11, 2週間未満, Guru Nanak Institute of Technology , India.
2015.10~2015.10, 2週間未満, 河南理工大学, China, 外国政府・外国研究機関・国際機関.
2015.10~2016.06, 1ヶ月以上, サンパウロ大学, Brazil, 外国政府・外国研究機関・国際機関.
2015.05~2015.06, 2週間以上1ヶ月未満, ラオス国立大学, , 外国政府・外国研究機関・国際機関.
2015.08~2015.08, ラオス国立大学, , 外国政府・外国研究機関・国際機関.
2013.08~2013.09, 2週間以上1ヶ月未満, ラオス国立大学, Laos, AUN/SEED-net.
2011.12~2011.12, 2週間以上1ヶ月未満, Guru Nanak Institute of Technology, India, 日本学術振興会.
2009.11~2010.01, 1ヶ月以上, バンドン工科大学, Indonesia, 学内資金.
2008.06~2008.09, 1ヶ月以上, Assiut University, Egypt, 外国政府・外国研究機関・国際機関.
2008.04~2009.03, 1ヶ月以上, Myanmar, 外国政府・外国研究機関・国際機関.
2007.08~2007.12, 1ヶ月以上, Assiut University, Egypt, 外国政府・外国研究機関・国際機関.
2006.08~2007.01, 1ヶ月以上, 西安科技大学, China, 政府関係機関.
2005.07~2005.09, 1ヶ月以上, インド岩盤工学研究所, India, 日本学術振興会.
2004.07~2004.09, 1ヶ月以上, インド岩盤工学研究所, India, 日本学術振興会.
2003.10~2003.11, 2週間以上1ヶ月未満, バンドン工科大学, Indonesia, 日本学術振興会.
2003.07~2003.09, 1ヶ月以上, インド岩盤工学研究所, India, 日本学術振興会.
2002.07~2002.09, 1ヶ月以上, インド岩盤工学研究所, India, 日本学術振興会.
2002.03~2002.04, 2週間未満, オストラバ工科大学, CzechRepublic, 外国政府・外国研究機関・国際機関.
2002.03~2002.04, 2週間未満, オストラバ工科大学, CzechRepublic, 外国政府・外国研究機関・国際機関.
2001.10~2001.12, 1ヶ月以上, インド岩盤工学研究所, India, 日本学術振興会.
2000.02~2000.03, 2週間以上1ヶ月未満, バンドン工科大学, Indonesia, 日本学術振興会.
2002.09~2002.11, 1ヶ月以上, インドネシア科学院, Indonesia, 日本学術振興会.
1999.10~2000.09, 1ヶ月以上, 長春科学技術大学, China, 政府関係機関.
1999.07~1999.09, 1ヶ月以上, インドネシア科学院, Indonesia, 日本学術振興会.
1998.08~1998.09, 2週間以上1ヶ月未満, バンドン工科大学, Indonesia, 日本学術振興会.
1998.07~1998.09, 1ヶ月以上, インドネシア科学院, Indonesia, 日本学術振興会.
受賞
優秀講演賞, 土木学会, 2016.11.
Poster Award, CINEST 2012, 2012.09.
Poster Award, CINEST 2012, 2012.09.
Poster Award, CINEST 2012, 2012.09.
Paper Award, CINEST 2012, 2012.09.
Paper Award, CINEST 2012, 2012.09.
Best Paper Award, International Symposium on Earth Science and Technology 2011, 2011.12.
Best Paper Award, International Conference on Pipelines and Trenchless Technology, 2011.10.
若手ポスター賞, 資源・素材学会, 2010.10.
NO-DIG Award (academic), International Society of Trenchless Technology, 2007.09.
黒瀬賞(技術開発部門), 日本下水道管渠推進技術協会, 2007.05.
Best Paper Award, International Conference on Systemics, Cybernetics and Informatics, 2007.01.
若手ポスター賞, 資源・素材学会, 2006.09.
奨励賞, 資源・素材学会, 2000.03.
研究資金
科学研究費補助金の採択状況(文部科学省、日本学術振興会)
2012年度~2014年度, 基盤研究(B), 分担, モンゴルにおける環境低負荷型石炭資源開発および技術協力システムの確立.
2011年度~2013年度, 基盤研究(C), 代表, 露天掘り鉱山採掘跡地におけるバイオマス燃料の安定供給を目指した環境修復工法の開発.
2011年度~2013年度, 基盤研究(C), 代表, 露天掘り鉱山採掘跡地におけるバイオマス燃料の安定供給を目指した環境修復工法の開発.
2005年度~2006年度, 基盤研究(C), 代表, フライアッシュセメント・石炭ズリを用いた環境低負荷型有効利用に関する研究.
2004年度~2005年度, 萌芽研究, 分担, 石炭燃焼灰の微粉砕化によるベントナイト代替物としての利用に関する研究.
2003年度~2004年度, 若手研究(B), 代表, 地球環境を考慮したフライアッシュの有効利用に関する研究.
競争的資金(受託研究を含む)の採択状況
2008年度~2008年度, JBIC連携促進調査, 代表, ジョグジャカルタ市における持続可能型・環境調和型下水道インフラ整備のための地中調査
.
共同研究、受託研究(競争的資金を除く)の受入状況
2019.07~2021.03, 代表, デンカ(株)東山新切羽における地中空洞の岩盤安定性評価および継続採掘可否判断と安全な採掘方法立案、西山切羽における発破粒度コントロールに関する研究.
2019.06~2019.11, 代表, 大東地区情報通信基盤整備推進事業調査設計業務(陸上部基盤設備)における海底ケーブルの陸揚げにあたり、管路構築のための陸上・海底地質に関する知見、及び適切な調査方法を踏まえた、安全な最適な工法立案の受託研究.
2017.11~2019.03, 代表, デンカ(株)青海鉱山東山新切羽における地中空洞の岩盤安定性評価および継続採掘可否判断に必要な情報提供と安全な採掘方法の立案の受託研究.
2018.01~2018.03, 代表, 露天掘銅鉱山におけるピット残壁の安定性に関する数値解析および考察並びに定水位透水試験.
2017.04~2018.03, 代表, インドネシアにおける坑内掘り炭鉱開発に関する最適諸技術の共同研究.
2017.04~2018.03, 代表, 硬質地盤におけるシールドカッター摩耗評価手法の研究.
2016.10~2017.03, 代表, 露天掘り同鉱山におけるピット鉱壁の安定性に関する数値解析および考察.
2016.09~2017.03, 代表, インドネシア共和国GDM炭鉱地域における岩石・沿層坑道安定性評価およびLW試験採炭切羽周辺の岩盤挙動解析の受託研究
.
2016.04~2018.03, 代表, 硬質地盤におけるシールドカッター摩耗評価手法の研究.
2016.04~2017.03, 代表, インドネシアにおける坑内掘り炭鉱開発に関する最適諸技術に関する共同研究.
2014.09~2017.03, 代表, 環境負荷低減型発破システムの開発に関する研究.
2015.10~2016.03, 代表, インドネシア共和国GDM炭鉱地域における坑道安定性評価の受託研究.
2015.05~2016.05, 代表, 深海底資源開発のためのシーリング材の開発.
2015.04~2016.03, 代表, シールドマシン用カッタビットの摩耗に関する研究.
2015.04~2016.03, 代表, インドネシアにおける坑内掘り炭鉱開発に関する最適諸技術の共同研究 .
2013.12~2014.03, 分担, インドネシアにおける坑内掘り炭鉱開発に関する最適諸技術の共同研究.
2014.04~2015.03, 分担, 地質構造及び岩盤状態に基づく残壁の安定性に及ぼす発破振動の影響評価方法の確立.
2012.04~2013.03, 代表, 発破振動予測シミュレーションに必要な各種特性値の決定および発破振動予測式に関する研究.
2010.10~2011.03, 代表, シールドマシン用カッタビットの摩耗に関する研究.
2008.10~2009.03, 分担, パイプラインの位置修復グラウチングに関する研究.
2008.04~2008.09, 分担, 拡径破砕機による改築推進工法における地山変状の科学的解明に関する研究.
2007.10~2008.03, 分担, 石灰石鉱山における発破規格と起砕物の粒度および発破振動の関連性調査.
2007.04~2008.03, 分担, 拡径破砕機による改築推進工法における地山変状の科学的解明に関する研究.
2006.10~2007.03, 分担, 拡径破砕機による改築推進工法における地山変状の科学的解明に関する研究.
2004.04~2005.03, 分担, 地球環境負荷低減型の石炭開発のための技術開発.
2005.04~2006.03, 分担, インドネシアの石炭資源開発に伴う環境評価・修復技術に関する調査研究.
2005.04~2006.03, 分担, 分割型超大口径推進工法における地山変状および管周ボイド状況の科学的解明に関する研究.
2004.04~2005.03, 分担, 土圧式推進工法におけるテールボイド充填材の効果に関する研究.
2003.04~2004.01, 分担, 長距離推進メカニズムの科学的検証に関する共同研究.
2003.02~2003.03, 分担, 長距離推進メカニズムの科学的検証に関する共同研究.
寄附金の受入状況
2018年度, 東曹産業, インドネシアのダム修復時の一次止水のための薬液注入工法の適用性に関する基礎的研究 .
2018年度, 日特建設, インドネシアのダム修復時の一次止水のための薬液注入工法の適用性に関する基礎的研究 .
2019年度, 東燃ゼネラル石油奨励・奨学財団, 石炭地下ガス化における木質バイオマス及び廃プラスチックの有効利用に関する研究.
2019年度, 石灰石鉱業協会, 横孔発破における起砕挙動および起砕物の飛翔挙動に関する基礎的研究.
2019年度, 大林財団, 使途特定寄付金/二段土留め施工における土留め壁の挙動およびその制御に関する研究.
2017年度, 日特建設, インドネシアのダム修復時の一次止水のための薬液注入工法の適用性に関する基礎的研究.
2017年度, 東曹産業, インドネシアのダム修復時の一次止水のための薬液注入工法の適用性に関する基礎的研究.
2017年度, 石灰石鉱業協会, 露天掘り石灰石鉱山における土壌浸食を考慮した環境修復のための再緑化の検討.
2016年度, 日特建設, 使途特定寄付金.
2016年度, ディーシー, 採石鉱山における斜面の安定性と緑化対策.
2016年度, 日特建設, 珪酸ソーダを用いた地盤改良材の数種の地盤への適用性.
2016年度, 東曹産業, 珪酸ソーダを用いた地盤改良材の数種の地盤への適用性.
2016年度, 石灰石鉱業協会, 起爆秒時差の起砕メカニズムならびに起砕物挙動に及ぼす影響に関する研究.
2015年度, 宇部興産, 深海底資源開発におけるカバー材の開発.
2015年度, 石灰石鉱業協会, 石灰石鉱業協会研究奨励金/露天掘り鉱山における発破に伴う起砕物の飛翔特性に関する研究 .
2015年度, 日本鉱業振興会, 試験研究助成金/環境低負荷型鉱山開発および維持管理情報システムに関する調査研究 .
2014年度, 日本鉱業振興会, 試験研究助成金/環境低負荷型鉱山開発および維持管理情報システムに関する調査研究.
2013年度, 日本鉱業振興会, 試験研究助成金/環境低負荷型鉱山開発および維持管理情報システムに関する調査研究.
2013年度, 石灰石鉱業協会, 石灰石鉱業協会研究奨励金/発破振動の最終残壁に及ぼす影響を考慮したプレスプリットの最適施工に関する研究.
2012年度, 石灰石鉱業協会, 石灰石鉱業協会研究奨励金/発破振動予測シミュレーションに必要な各種特性値の決定および発破振動予測式に関する研究.
2011年度, 丸和技研, シールド工法用掘削ビットの摩耗に関する研究.
2010年度, 石灰石鉱業協会, 使途特定寄付金.
2009年度, イセキ開発工機, 使途特定寄付金.
2009年度, 石灰石鉱業協会, 使途特定寄付金.
2008年度, 石灰石鉱業協会, 使途特定寄付金.
2007年度, 三協マテリアル, 使途特定寄付金.
2006年度, 石灰石鉱業協会, 委任経理金.
2005年度, 石灰石鉱業協会, 委任経理金.
2004年度, 協和エクシオ(株), 委任経理金.
2004年度, FF21工法協会, 委任経理金.
2004年度, 資源・素材学会, 委任経理金.
学内資金・基金等への採択状況
2013年度~2013年度, 社会連携事業経費, 分担, 炭鉱関連博物館連携ネットワークを利用した炭鉱遺産を活用した教育プログラムの提案.
2011年度~2011年度, 九州大学後援会助成金(海外渡航)
, 代表, 露天掘り石炭鉱山における再緑化に関する基礎的研究.
2011年度~2011年度, 社会連携事業資金, 分担, 筑豊地区における炭鉱跡地情報の有効活用化に関する調査・研究
.
2010年度~2010年度, 九州大学後援会助成金(海外渡航)
, 代表, グラウチングにおけるパイプラインの位置修復に関する研究.
2010年度~2010年度, 社会連携事業資金, 分担, 筑豊地区における炭鉱遺産データの有効活用化に関する調査研究.
2009年度~2009年度, 八十周年記念事業国際学術交流基金による戦略的交流事業(発展途上国からの若手研究者育成), 分担, 地球環境低負荷型発破制御技術の開発に関する研究.
2008年度~2008年度, 社会連携事業資金, 分担, 旧池島炭鉱を用いた高校生への啓蒙活動.
2008年度~2008年度, 九州大学後援会助成金(外国人招聘等), 分担, バンドン工科大学・講師 ガンダ・マリホット・シマングンソン博士.
2002年度~2004年度, 九州大学教育研究プログラム・研究拠点形成プロジェクト教育研究, 分担, インドネシアにおける資源開発のためのデータベースの構築と周辺環境を考慮した
資源開発システムの開発.

九大関連コンテンツ

pure2017年10月2日から、「九州大学研究者情報」を補完するデータベースとして、Elsevier社の「Pure」による研究業績の公開を開始しました。
 
 
九州大学知的財産本部「九州大学Seeds集」