4 results on '"Matsuda, Koji"'
Search Results
2. An overview of the Muara Laboh geothermal system, Sumatra.
- Author
-
Stimac, Jim, Ganefianto, Novi, Baroek, Marino, Sihotang, Mauliate, Ramadhan, Irvan, Mussofan, Wildan, Sidik, Ridwan, Alfiady, Dyaksa, Dayinta A., Azis, Herwin, Putra, Alfianto P., Martikno, Rudy, Irsamukhti, Robi, Santana, Sonny, Matsuda, Koji, Hatanaka, Hideki, Soeda, Yoshio, Cariou, Laurent, and Egermann, Patrick
- Subjects
- *
GEOTHERMAL ecology , *MARGINS (Security trading) , *CENOZOIC Era , *ANDESITE , *ROCK permeability , *COMPOUND fractures - Abstract
• The Muara Laboh geothermal system is a liquid-dominated, fracture-controlled reservoir showing some characteristics of both intrusion-related and fault circulation systems. • The developed reservoir has two distinct sectors of differing fluid chemistry and temperature. • Reservoir fluids generally have low salinity (∼400-1600 ppm Cl) with benign chemistry and low non-condensable gas (NCG) content (∼0.5 to 2 wt% in steam). • In the deep SW reservoir, fluids ascend along WNW to NNW and N to NE fracture, dikes, and stock margins. • In the shallower NE steam cap and outflow, N to NE steeply dipping fractures dominate, with bounding N to NNW faults. The Muara Laboh geothermal system is a liquid-dominated, fracture-controlled reservoir showing some characteristics of both intrusion-related and fault circulation systems. The developed reservoir has moderate to high-temperature (230–310 °C) with a long NNW outflow (160–230 °C) extending to the Sapan Malulong boiling chloride springs. Reservoir fluids generally have low salinity (∼400-1600 ppm Cl) with benign chemistry and low non-condensable gas (NCG) content (∼0.5 to 2 wt% in steam). The proven reservoir is divided into distinct SW and NE sectors. The principal deep upflow zone (270 to 310 °C) is located in the SW and is associated with Patah Sembilan volcano and satellite vents (Anak Patah Sembilan). The SW upflow is characterized by relatively low salinity (∼400-600 ppm Cl), whereas fluids in the NE emerge from a second upflow along faults and fractures at 240–250 °C (1200–1600 ppm Cl) and ascend to an initial-state steam cap near the Idung Mancung fumarole. The shallow NE part of the geothermal system is hosted mainly by Quaternary to Miocene Age andesitic to rhyolitic rocks, whereas the deeper SW part of the system occurs in a Mesozoic to Cenozoic Age plutonic complex and its host rocks that are cut by younger dikes. Rock porosity and permeability trends can be related to reservoir age, volcanic deposit type, and alteration history. Fracture permeability is high, whereas matrix porosity (<1-7%) and permeability are moderate to low and decrease with depth. The volcanic sequence is capped by tuffs dated at ∼34,000 to 41,000 years BP, incapsulated in debris flows. This sequence may have formed during and shortly after likely sector collapse episodes of the Patah Sembilan volcano. The shallow clay cap of the system wraps around the crater, suggesting that it was excavated during crater formation. Permeable fracture patterns and their origins differ somewhat between the deep SW and the shallow NE reservoir. In the deep SW reservoir, fluids ascend along fractured margins of stock and dike intrusions. Steeply dipping intrusions and open fractures strike from WNW to NNW, subparallel to the main Great Sumatra Fault trend, with a secondary set of N to NE fractures and intrusions parallel with the inferred maximum horizontal stress direction (SH Max). In the shallower NE steam cap and outflow, N to NE steeply dipping fractures dominate, with bounding N to NNW faults. Bulk rock alteration includes shallow argillic and transitional clay zones overlying phyllic and propylitic zones. High-T propylitic alteration (secondary amphibole) and rare potassic alteration (secondary biotite) are associated with intrusion. Vein paragenesis in the SW reservoir indicates that portions of the initially permeable propylitic zone have been sealed by calcite and quartz ± prehnite. Late calcite veins suggest ingress of steam-heated bicarbonate waters contributed to resealing of the system. These relationships suggest that the SW system underwent extensive boiling, fluid loss, and inflow of dilute bicarbonate waters, possibly related to sector collapse and partial excavation of the topseal of the system (now Patah Sembilan crater). [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
3. The synchrotron and its related technology for ion beam therapy
- Author
-
Hiramoto, Kazuo, Umezawa, Masumi, Saito, Kazuyoshi, Tootake, Satoshi, Nishiuchi, Hideaki, Hara, Shigemistu, Tanaka, Masanobu, Matsuda, Koji, Sakurabata, Hiroaki, and Moriyama, Kunio
- Subjects
- *
SYNCHROTRONS , *PARTICLE accelerators , *QUANTUM theory , *NUCLEAR physics - Abstract
Abstract: Hitachi has developed several new technologies for the synchrotron and its related system to realize reliable and flexible operation of a proton therapy system. Especially important among them are a non-resonant RF acceleration cavity using FINEMET core with multiple power feeding and radio frequency driven beam extraction technique (RF-DE) for a synchrotron. Various treatment operations such as variable acceleration energy or respiration gating became possible and simple due to the above technique. For beam transport, a beam steering method for the beam, using transfer matrix realizes quick and precise correction of the beam orbit. A compact microwave ion source has also been developed for the injector to obtain further higher reliability and availability. Most of these technologies are also effective to enhance the reliability and flexibility of other ion beam therapy systems. [Copyright &y& Elsevier]
- Published
- 2007
- Full Text
- View/download PDF
4. Magnetization of mesenchymal stem cells using magnetic liposomes enhances their retention and immunomodulatory efficacy in mouse inflamed skeletal muscle.
- Author
-
Kono, Yusuke, Takegaki, Junya, Ohba, Takeshi, Matsuda, Koji, Negoro, Ryosuke, Fujita, Satoshi, and Fujita, Takuya
- Subjects
- *
MESENCHYMAL stem cells , *LIPOSOMES , *SKELETAL muscle , *NITRIC-oxide synthases , *MUSCLE strength , *MYOBLASTS - Abstract
• Magnetic liposomes enable the efficient magnetization of mesenchymal stem cells. • Magnetized MSCs were much retained in mouse skeletal muscle under a magnetic field. • Magnetized MSCs showed high immunomodulatory effects on inflamed skeletal muscle. Sarcopenia, an age-related reduction in skeletal muscle mass and strength, is mainly caused by chronic inflammation. Because mesenchymal stem cells (MSCs) have the capacity to both promote myogenic cell differentiation and suppress inflammation, they are a promising candidate for sarcopenia treatment. In this study, to achieve the long-term retention of MSCs in skeletal muscle, we prepared magnetized MSCs using magnetic anionic liposome/atelocollagen complexes that we had previously developed, and evaluated their retention efficiency and immunomodulatory effects in mouse inflamed skeletal muscle. Mouse MSCs were efficiently magnetized by incubation with magnetic anionic liposome/atelocollagen complexes for 30 min under a magnetic field. The magnetized MSCs differentiated normally into osteoblasts and adipocytes. Additionally, non-magnetized MSCs and magnetized MSCs increased IL-6 and inducible nitric oxide synthase mRNA expression and decreased TNF-α and IL-1β mRNA expression in C2C12 mouse skeletal muscle myotubes through paracrine effects. Moreover, magnetized MSCs were significantly retained in cell culture plates and mouse skeletal muscle after their local injection in the presence of a magnetic field. Furthermore, magnetized MSCs significantly increased IL-6 and IL-10 mRNA expression and decreased TNF-α and IL-1β mRNA expression in inflamed skeletal muscle. These results suggest that magnetized MSCs may be useful for effective sarcopenia treatment. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.