Day 1 - Hall and day program - SCEJ 82nd Annual Meeting (Tokyo, 2017)

`SCEJ 82nd Annual Meeting (Tokyo, 2017)`

Last modified: 2017-02-20 10:00:00

Meeting Info.
Program
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- Gen.S.(Oral)
- Gen.S.(Poster)
  - Poster A
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  - Poster C
  - Poster D
  - Poster E
- F: CIT Forum
  - F-1
  - F-2
- SS/SP: S.Ind.
  - SS-1
  - SS-2
  - SS-3
  - SS-4
  - SS-5
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  - SS-7
  - SP-8
  - SP-9
- K: Int.Symp.
  - K-1
  - K-2
  - K-3
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  - HC-11
  - HC-12
  - HC-13
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  - HQ-21
By Hall
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- A-D:3F Kyoshitsu-to
- X,E-H:4F Kyoshitsu-to
  - X: 4F 403
  - E: 4F 404
  - F: 4F 405
  - G: 4F 406
  - H: 4F 407
- I-J:5F Kyoshitsu-to
- LM:4F Koryu-to
  - L: 4F 401
  - M: 4F 402
- N:5F Koryu-to
  - N: 5F 501
- PZ:6F Koryu-to
  - P Poster A
  - P Poster B
  - P Poster C
  - P Poster D
  - P Poster E
  - Z: 6F
- Y:1F Kyoshitsu-to
  - Y 1F Lounge
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Hall and day program : Day 1

The abstracts can be viewed by clicking the Paper IDs.
The ID/PW printed on the PROGRAM book are required.

Day 1(Mar. 6)

Hall A | Hall B | Hall C | Hall E | Hall G | Hall H | Hall L | Hall N | Hall P | Hall Z
HC-12 | K-1 | 7 | 12 | 5 | 2 | 13 | 4 | PS-A | CY-0 | 0-a

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Hall A(Kyoshitsu-to 3F 301)
HC-12 [Session organized by Center/Committee etc.] Enhancement of Public Services to Young Generation by Increasing the Visibility of SCEJ
(15:00–15:40) (Chair: Hasebe Shinji)
15:00– 15:20	A119	[Invited lecture] (machine translation) Outreach Activities of Japan Union of Chemical Science and Technology (JUCST) (JUCST/Kogakuin U.) (Ful)Nakao Shin-ichi	JUCST	HC-12	850
15:20– 15:40	A120	[Invited lecture] Introduction to examples of activities of the Future Human Resource Development Committee in SCEJ (Yokohama Nat. U.) (Ful)Kaminoyama Meguru	Human Resource Development examples of activities	HC-12	790
(15:40–16:40) (Chair: Muramatsu Atsushi)
15:40– 16:00	A121	[Invited lecture] Chemical Communication: Catalysis Society of Japan (Chiba U.) Hara Takayoshi	Chemical Communication Catalysis Society	HC-12	715
16:00– 16:20	A122	[Invited lecture] Chemical Communication (Lion) (Cor)Toki Ikuko	Chemical Communication CSR Company	HC-12	710
16:20– 16:40	A123	[Invited lecture] Chemistry Portal Site: Chem-Station (Waseda U.) Yamaguchi Junichiro	Chemical Communication Portal Site Chem Station	HC-12	712
(16:40–17:00) (Chair: Kaminoyama Meguru)
16:40– 17:00	A124	How to improve the visibility of SCEJ (Kyoto U.) (Ful)Hasebe Shinji	SCEJ Visibility Activity	HC-12	692
Hall B(Kyoshitsu-to 3F 302)
K-1 [International Symposium] Towards Process Intensification: Multiscale Integration of Reaction and Separation Systems
(13:00–13:10)
13:00– 13:10		Opening remark
(13:10–14:10) (Chair: Shimoyama Yusuke, Yamaki Takehiro)
13:10– 13:40	B114	[Invited lecture] How do nano/micro structure technologies contribute to connect material science with device development beyond the "black-box"? ~Challenges and future visions~ (Kyoto U.) (Ful)Inoue Gen	Porous media Visualization Numerical simulation	K-1	366
13:40– 14:10	B115	[Invited lecture] Electrokinetic Ion, Fluid, and Nanoparticle Transport in Nanofluidics: Experiments and Fundamental Understanding (Nat. Yunlin U. Sci. Tech.) Yeh Li-Hsien	Nanofluidics Nanopore sensing Ion current rectification	K-1	513
(14:10–14:40) (Chair: Watanabe Ryo)
14:10– 14:40	B116	[Invited lecture] Heterostructure Nanocrystal Quantum Dots as Light Emitters (KAIST) Lee Doh Chang	Quantum dots Display Heterostructure	K-1	333
(15:00–16:00) (Chair: Wakihara Toru, Horie Takafumi)
15:00– 15:30	B119	[The SCEJ Award for Outstanding Asian Researcher and Engineer] Functional Nanoporous Materials: Green Synthesis and Energy Applications (Nat. Taiwan U.) Wu Kevin Chia-Wen	Metal-organic frameworks Membrane separation Biomass conversion	K-1	269
15:30– 16:00	B120	[Invited lecture] Thin film deposition using chemical reaction in supercritical fluid for high-aspect-ratio 3-dimensional features (U. Tokyo) (Ful)Momose Takeshi	Deposition Supercritical fluid Process development	K-1	335
(16:00–17:00) (Chair: Nakagawa Keizo, Taniya Keita)
16:00– 16:30	B122	[Invited lecture] Catalytic membrane reactors for efficient hydrogen production from hydrogen carriers (South China U. Tech.) Li Gang	Catalytic membrane reactor Silica membrane Hydrogen production	K-1	341
16:30– 17:00	B123	[Invited lecture] Development of an efficient micro chemical process for the production of functional acrylate monomers (Mitsubishi Rayon) (Ful)Yasukawa Toshiya	Microreactor Bench-scale operations Functional acrylate monomers	K-1	442
(17:00–17:20)
17:00– 17:20		Closing remark
Hall C(Kyoshitsu-to 3F 303)
7. Biochemical engineering
(13:00–13:40) (Chair: Ojima Yoshihiro, Nakazawa Hikaru)
13:00– 13:20	C113	Chromium detection using cellular metabolic changes (NIT Suzuka) *(Ful)Ogawa Akiko, Ulziibaatar Sarangua	Chromium Quantity	7-b	861
13:20– 13:40	C114	CRISPR System for Microbial Cell Engineering (Nat. Tsing-Hua U.) Hu Yu-Chen		7-d	875
(13:40–14:40) (Chair: Ogawa Akiko, Moriyama Kosuke)
13:40– 14:00	C115	*Solid-state protein expression on the flocs formed by Escherichia coli* cells** (Osaka City U.) *(Ful·APCE)Ojima Yoshihiro, (Osaka U.) (Stu)Nunogami Shota, (Osaka City U.) (Ful)Azuma Masayuki, (Osaka U.) (Ful)Taya Masahito	Escherichia coli floc formation recombinant protein expression	7-b	267
14:00– 14:20	C116	Enzymatic labeling of a protein with amino-modified DNA for cell imaging (Kyushu U.) *(Stu)Takahara Mari, (Ful)Minamihata Kosuke, (Ful)Wakabayashi Rie, (Ful)Goto Masahiro, (Ful)Kamiya Noriho	Microbialtransglutaminase DNA-protein conjugate aptamer	7-b	842
14:20– 14:40	C117	A photo-responsible enzyme activation design with photothermal conversion device (Tohoku U.) *(Ful)Nakazawa Hikaru, (Ful)Niide Teppei, (Ful)Umetsu Mitsuo	inorganic nanoparticle photothermal conversion device enzyme	7-g	859
(15:00–15:40) (Chair: Ueda Hiroshi, Wang Pi-Chao)
15:00– 15:20	C119	Efficient production of D-lactic acid from lignocellulosic biomass (Osaka U.) *(Ful)Okano Kenji, (Bio-energy) (Ful)Hama Shinji, (Ful)Noda Hideo, (Kobe U.) (Ful)Kondo Akihiko, (Osaka U.) Honda Kohsuke	D-lactic acid lignocellulosic biomass Lactobacillus plantarum	7-a	469
15:20– 15:40	C120	scFv-Fc production by knock-in CHO cells generated using the CRIS-PITCh system (Kyushu U.) *(Ful)Kawabe Yoshinori, (Stu)Komatsu Shinya, Komatsu Shodai, (Ful)Ito Akira, (Hiroshima U.) Sakuma Tetsushi, (Kyushu U.) Nakamura Takahiro, (Hiroshima U.) Yamamoto Takashi, (Kyushu U.) (Ful)Kamihira Masamichi	CRIS-PITCh Genome editing CHO cells	7-a	313
(15:40–16:40) (Chair: Okano Kenji, Kawabe Yoshinori)
15:40– 16:00	C121	Growth promotion and lipid productivity of Botryococcus by steel making slag (Kyutech) *(Stu)Nogami Reijiro, Ushijima Kei, Nishida Haruo, (Ful)Wakisaka Minato	Botryococcus Growth promotion Steel making slag	7-a	814
16:00– 16:20	C122	Growth promotion of Spirulina by alginate oligosaccharides (Kyutech) *(Stu)Nogami Reijiro, Nishida Haruo, (VAST) Hong Dang, (Kyutech) (Ful)Wakisaka Minato	Spirulina Alginate oligosaccharides Growth promotion	7-a	813
16:20– 16:40	C123	*Biodiesel Production from Rhodotorula glutinis* and Activated Sewage Sludge using Supercritical Methanol** (U. Puerto Rico) Estevez Antonio	biodiesel supercritical fluid activated sludge	7-a	494
Hall E(Kyoshitsu-to 4F 404)
12. Materials engineering & interfacial phenomena
(13:00–13:20) (Chair: Yamaguchi Takeo, Kamiya Hidehiro)
13:00– 13:20	E113	[The SCEJ Award for Outstanding Research Achievement] Design of Chemical Systems with Spatiotemporal Pattern Formation under Nonequilibrium (Doshisha U.) (Ful)Shioi Akihisa	The SCEJ Award for Outstanding Research Achievement	12-a	534
(13:20–14:00) (Chair: Tanaka Hideki, Oshiba Yuhei)
13:20– 13:40	E114	Numerical simulation of CLIP system (Kanazawa U.) (Ful)Taki Kentaro	3D printer photopolymerization simulation	12-a	11
13:40– 14:00	E115	Evaluation of localized hydrophilicity in the micropores of hydrophobic titanosilicates (Yokohama Nat. U.) *(Ful)Inagaki Satoshi, Kaneda Midori, (AIST) (Ful)Endo Akira, (Yokohama Nat. U.) Kubota Yoshihiro	titanosilicate supermicropore hydrophilicity	12-a	22
(14:00–14:40) (Chair: Hoshino Yu, Nagamine Shinsuke)
14:00– 14:20	E116	Shell Formation Mechanism of SiO₂@Au Core-Shell Particles with in-line optical measurement (Kyoto U.) *(Stu·APCE)Ohsaki Shuji, (Ful·PCEF)Hosokawa Junji, (Ful)Watanabe Satoshi, (Erlangen U.) Braunschweig Bjoern, Klupp Taylor Robin, (Kyoto U.) (Ful)Miyahara Minoru	SiO2@Au core-shell particles Shell formation mechanism in-line optical measurement	12-a	257
14:20– 14:40	E117	Kinetic modeling of capillary condensation in ordered mesoporous silica materials (Kyoto U.) *(Stu·PCEF)Hiratsuka Tatsumasa, (Ful)Tanaka Hideki, (Ful)Miyahara Minoru	rate constant transition state theory molecular simulation	12-a	430
(15:00–15:20) (Chair: Miura Yoshiko, Kishida Masahiro)
15:00– 15:20	E119	[The SCEJ Award for Outstanding Young Researcher] Development of Bioseparating and Biosensing Materials using Biomolecular Recognition (Fukuoka U.) (Ful)Seto Hirokazu	The SCEJ Award for Outstanding Young Researcher	12-a	563
(15:20–16:00) (Chair: Taki Kentaro, Kuroki Hidenori)
15:20– 15:40	E120	Design of Vesicle Membrane Surface as a Platform for Organic Synthesis in Water (Osaka U.) *(Stu)Iwasaki F., (Ful)Suga K., (Ful)Okamoto Y., (Ful)Umakoshi H.	membranome membrane property interfacial reaction	12-a	607
15:40– 16:00	E121	Evaluation of Molecular Behavior of Chlorophyll a on Self-Assembled Membranes and Its Application for Light Energy Conversion (Osaka U.) *(Stu)Taguchi Shogo, (Ful)Suga Keishi, (NIT Nara) (Ful)Hayashi Keita, (Osaka U.) (Ful)Okamoto Yukihiro, (NIT Nara) (Ful)Nakamura Hidemi, (Osaka U.) (Ful)Umakoshi Hiroshi	liposome chlorophyll a	12-a	635
(16:00–17:00) (Chair: Suga Keishi, Tamaki Takanori)
16:00– 16:20	E122	Difference between gate adsorption behavior of two metal-organic frameworks (Kyoto U.) *(Stu·PCEF)Hiraide Shotaro, (Stu·PCEF)Okunishi Maho, (Ful)Tanaka Hideki, (TUAT) Kondo Atsushi, Maeda Kazuyuki, (Kyoto U.) (Ful)Miyahara Minoru	metal-organic framework free energy analysis gate adsorption	12-a	661
16:20– 16:40	E123	Flow Chemical Process with Polymer Gel Monolith (Kyushu U.) *(Ful)Miura Yoshiko, (Stu)Matsumoto Hikaru, (Fukuoka U.) (Ful)Seto Hirokazu, (Kyushu U.) (Ful)Hoshino Yu	Monolith Gel Organic Chemistry	12-a	730
16:40– 17:00	E124	Kinetic study for estimate of supersaturation of amyloid beta protein (Okayama U.) *(Ful)Shimanouchi Toshinori, (Stu)Okamura Sayuri, (Ful)Kimura Yukitaka	protein accumulation membrane undulation	12-a	794
Hall G(Kyoshitsu-to 4F 406)
5. Chemical reaction engineering
(13:00–15:00) (Chair: Kawanami Hajime, Muranaka Yosuke)
13:00– 13:20	G113	Mixing behavior affected by flow rate ratio and viscosity difference of target fluids (Kyoto U.) *(Stu·PCEF)Asano Shusaku, (Stu·PCEF)Yamada Satoshi, (Ful)Maki Taisuke, (Ful)Mae Kazuhiro	Flow rate ratio Mixing Microreactor	5-f	163
13:20– 13:40	G114	Development of a reduction column of nitrate ion for on-site water quality testing equipments (Hitachi) *(Ful)Asano Y., (U. Tokyo) Sugano O., Endo Y., (Hitachi) (Ful)Togashi S., (U. Tokyo) Miyake R.	microreactor system for reduction copper reductant nitrate ion	5-f	186
13:40– 14:00	G115	The application of etched aluminum wires as catalyst supports for methanol steam-reforming (TUAT) *(Stu)Hiramatsu Hiromi, Matui Kaoru, (Ful)Sakurai Makoto, (Ful)Kameyama Hideo	microreactor etching methanol steam-reforming	5-f	265
14:00– 14:20	G116	Buffer-free particles separation using inertial force and micro pillar arrays (Tokyo Tech) *(Stu)Tottori Naotomo, (Ful)Nisisako Takasi	Deterministic Lateral Displacement inertial focusing buffer-free particles separation	5-f	363
14:20– 14:40	G117	Design and Operation of Gas-Liquid Slug Generation System in Micro Chemical Processes (Kyoto U.) *(Ful)Tonomura O., (Stu·PCEF)Onabe Y., Miyabayashi K., (Ful)Taniguchi S., (Ful)Hasebe S.	Gas-liquid Microreactor Process Design Process Monitoring	5-f	666
14:40– 15:00	G118	Study on methane reforming reaction using new designed plate reactors III: Application to steam reforming (AIST) *(Ful·APCE)Fukuda Takashi, (Ful)Kawanami Hajime, Miyazawa Akira	plate-type reactor methane reforming high throughput	5-f	837
(15:00–17:00) (Chair: Asano Yukako, Tonomura Osamu)
15:00– 15:20	G119	Effective HMF production from saccharides by liquid-liquid extraction using a microreactor (Kyoto U.) *(Ful)Muranaka Yosuke, (Stu·PCEF)Masaki Rie, (Ful)Maki Taisuke, (Ful)Mae Kazuhiro	HMF Segmented flow Extraction	5-g	167
15:20– 15:40	G120	(withdrawn)		100	188
15:40– 16:00	G121	An efficient hydrogenation of biomass derived 5-hydroxymethylfurfural (HMF) in aqueous medium (AIST Tohoku) *(Ful)Chatterjee M., (Ful)Ishizaka T., (Ful)Nagao I., (Ful)Kawanami H.	Hydrogenation biomass Pt/MCM-41	5-g	253
16:00– 16:20	G122	Study of the synthesis of bis(aminomethyl)furan from 5-hydroxymethyl furan derived from glucose etc. (AIST) *(Ful)Kawanami Hajime, Ogawa Kayoko, (Unitika) Ito Takuma, Kobayashi Ryosuke, Akizuki Takamasa, (AIST) (Ful)Chatterjee Maya, (Ful)Nagao Ikuhiro, (Ful)Ishizaka Takayuki	5-hydroxymethylfurufural bismethylaminofuran glucose	5-g	729
16:20– 16:40	G123	Solvolysis and catalytic cracking of lignocellulosic biomass for hydrocarbon production (Shinshu U.) *(Ful)Shimada I., Kobayashi Y., (euglena) Ohta H., Suzuki K., (Chiyoda) (Ful)Takatsuka T.	solvolysis catalytic cracking lignocellulose	5-g	738
16:40– 17:00	G124	Production of a valuable chemical by pyrolysis of waste paper (Kyushu U.) *(Ful)Kudo Shinji, Goto Nozomi, (Ful)Norinaga Koyo, (Ful)Hayashi Jun-ichiro	Pyrolysis Cellulose Paper	5-g	849
Hall H(Kyoshitsu-to 4F 407)
2. Fluid & particle processing
(13:00–14:40) (Chair: Suzukawa Kazumi, Bando Yoshiyuki)
13:00– 13:20	H113	Oxygen Transfer at Free Surface and Liquid Flow in an Aeration Tank (Sanki Eng.) *(Ful)Shibata Kazue, (Keio U.) (Ful)Terasaka Koichi, (Ful)Fujioka Satoko, (Stu)Sudou Keisuke	oxygen transfer gas holdup free surface	2-d	117
13:20– 13:40	H114	Prediction of terminal rise velocity of single bubble based on its surface fluctuation caused by liquid disturbance (Yamaguchi U.) *(Ful)Nakao K., (NIT Oshima) (Ful)Furumoto K.	Single bubble velocity Bubble surface fluctuation Trace impurity	2-d	158
13:40– 14:00	H115	Analytical approach on the force acting on a spherical solid, liquid or gas particle in a simple shear flow 1. General solution of the vorticity transport eq. (Osaka U.) (Ful)Ueyama Korekazu	vorticity transport equation general solution integral constant	2-e	193
14:00– 14:20	H116	Analytical approach on the force acting on a spherical solid, liquid or gas particle in a simple shear flow 2.Boundary conditions on a particle surface(introduction of vorticity flux condition) (Osaka U.) (Ful)Ueyama Korekazu	boundary condition vorticity flux shear force	2-e	194
14:20– 14:40	H117	Analytical approach on the force acting on a spherical solid, liquid or gas particle in a simple shear flow 3. Lift force and lift coefficient (Osaka U.) (Ful)Ueyama Korekazu	lift force lift coefficient vorticity flux condition	2-e	195
(15:00–17:00) (Chair: Homma Shunji, Shibata Kazue)
15:00– 15:20	H119	Improvement in Froth Flotation: Simulation Model Building (Sumitomo Metal Mining) *(Cor)Nakao Y., (Cor)Sugimoto M., (Cor)Seto Y., (Cor)Sakamoto K.	CFD simulation Gas-liquid mixing tank Froth Flotation	2-e	159
15:20– 15:40	H120	Improvement in Froth Flotation: Estimation of Scale-up Factor (Sumitomo Metal Mining) *(Cor)Sugimoto M., (Cor)Nakao Y., (Cor)Seto Y., (Cor)Sakamoto K.	Scale-up Gas-liquid mixing tank Froth Flotation	2-e	160
15:40– 16:00	H121	Numerical Analysis of Shear-induced Deformation and Breakup of a Bubble in Shear-thinning Liquids (Tokushima U.) *(Ful)Ohta Mitsuhiro, Suetsugu Yuki	Bubble deformation Shear flow Shear-thinning fluid	2-e	213
16:00– 16:20	H122	Effect of the addition of nanoparticle on the flow characteristics of concentrated micro particle suspension (Kobe U.) *(Ful)Komoda Yoshiyuki, Matsubara Masaki, (Ful)Suzuki Kosuke, (Ful)Suzuki Hiroshi, (Ful)Hidema Ruri	Rheology Gelation Shear-thickening	2-e	817
16:20– 16:40	H123	Refinement of aeration method in gas-liquid mixing tank aided by CFD simulation (Sumitomo Metal Mining) *(Cor)Homma Takehide, (Cor)Naito Motoyuki	multiphase flow gas-liquid mixing tank CFD simulation	2-e	107
16:40– 17:00	H124	Characteristics of Factal Shaped Impellers on Mass Transfer in a Gas-Liquid Agitated Vessel (Fukuoka U.) (Stu)Sakamoto R., *(Ful)Suzukawa K., (Ful)Kanai Y.	Fractal Shaped Impeller Gas Dispersion Mass Transfer	2-b	767
Hall L(Koryu-to 4F 401)
13. Environmental engineering
(13:00–14:40) (Chair: Terada Akihiko, Ambo Takanori)
13:00– 13:20	L113	Seawater treatment by flow discharge plasma system (Tohoku U.) *(Ful)Mizukoshi Yoshiteru, (Kurita Seisakusho) Horibe Hiroshi, Nishimura Yoshimi, (Katayama Chemical) Muraoka Nobuhiro, Ikeue Yuma, Wakao Yoshiharu	Flow system Seawater treatment Sterilization	13-a	280
13:20– 13:40	L114	The study on the efficiency of the mobilized photocatalytic degradation of 1,4-dioxane (Panasonic) *(Ful)Kori Shunsuke, (Ful)Hara Kohei, (Ful)Hashimoto Yasuhiro, Ino Daisuke	photocatalyst 1,4-dioxane advanced oxidation process	13-a	304
13:40– 14:00	L115	Ion-exchange properties of various kinds of cation on novel aluminosilicate polymeric material (AZMEC) *(Ful)Masada Takenori, (Waseda U.) (Ful)Matsukata Masahiko, (Ful)Yamazaki Atsushi	aluminosilicate polymeric material adsorbent	13-a	501
14:00– 14:20	L116	Zeolite-based adsorbents for removal of organosilicon compounds in a manufacturing factory environment (Seikei U.) *(Ful)Satokawa Shigeo, Okizumi Ayaka, Shimoda Naohiro, (Nitta) Irie Yuta, Shigeta Makoto, Kondo Masaya, Nagata Masahiko	Organosilicon compound adsorptive removal zeolite	13-i	397
14:20– 14:40	L117	*Effect of the organic substances on the inactivation of Escherichia coli* by low levels of ozonated water.** (NIT Kochi) *(Ful)Doi Toshifusa, (Stu)Tamura Seigo, (Stu)Futagami Ken	Ozonated Water Escherichia coli Organic substances	13-a	647
(15:00–16:40) (Chair: Doi Toshifusa)
15:00– 15:20	L119	Nitrate removal using ZVI loaded formed glass (Pref U. Hiroshima) (Ful·PCE)Harada Hiroyuki	Nitrate formed glass iron sulfate	13-b	263
15:20– 15:40	L120	Development of wastewater treatment system by the Fenton reaction combined with catalyst (Mitsubishi Rayon) *(Cor)Ambo Takanori, (Cor)Minagawa Masakazu, (Cor)Ishibashi Ryutaro, (Cor)Sato Erina, (Cor)Kawagishi Tomoki	Wastewater treatment Advanced oxidation process Membrane separation	13-b	350
15:40– 16:00	L121	Improving dewaterability of anaerobically digested sludge by combination of persulfate and zero valent iron (TUAT) *(Ful)Song Kang, (Ful)Riya Shohei, (Ful)Terada Akihiko, (Ful)Hosomi Masaaki	Dewaterability Anaerobically digested sludge Advanced oxidization process	13-b	488
16:00– 16:20	L122	effect of installed of HPJD to change of microbial community in activated sludge (TUAT) *(Stu)Yoshino Hiroyuki, (AIST) Hori Tomoyuki, (DPK) Fujii Tadahiro, (AIST) Sato Yuya, (TUAT) (Ful)Terada Akihiko, (Ful)Hosomi Masaaki	Activated sludge HPJD Microbial community	13-b	493
16:20– 16:40	L123	Characterization of tar from pyrolysis and steam gasification of ABS, PC and PE in a batch furnace (Hiroshima U.) *(Ful)Nunome Yoko, (Nagoya U.) (Stu)Suzuki Toshiya, (Stu)Nedjalkov Ivan, (Ful)Ueki Yasuaki, (Ful)Yoshiie Ryo, (Ful)Naruse Ichiro	tar gasification plastics	13-e	515
Hall N(Koryu-to 5F 501)
4. Separation processes
(13:00–14:00) (Chair: Nishimura Goro)
13:00– 13:20	N113	Recovery of palladium in high viscous polymer solution using polymer precipitation (Saga U.) *(Ful)Kawakita Hidetaka, (Ful)Kajiwara Takafumi, (Ful)Morisada Shintaro, (Ful)Ohto Keisuke	palladium recovery polymer precipitation	4-b	328
13:20– 13:40	N114	Compression and Expansion Properties of Compressible Filter Cake Accompanied with Sudden Change of Filtration Pressure in Membrane Filtration (Nagoya U.) *(Ful)Katagiri N., (Stu)Inagaki G., (Ful)Iritani E.	membrane filtration filter cake irreversibility	4-b	573
13:40– 14:00	N115	Membrane Filtration Properties of High-Compressible-Cell/Low-Compressible-Metabolite Binary Model Suspension (Nagoya U.) *(Ful)Katagiri N., (Stu)Sawada G., (Ful)Iritani E.	membrane filtration cell metabolite	4-b	578
(14:00–15:00) (Chair: Kawakita Hidetaka)
14:00– 14:20	N116	Separation between insulator particles and conductor particles in liquid by a flow dielectrophoretic separator (Kyoto U.) *(Ful)Sano Noriaki, (Stu·PCEF)Tsubouchi Kensuke, (Ful)Tamon Hajime	particle separation dielectrophoresis silica particle	4-b	606
14:20– 14:40	N117	Study of CO₂ absorption in amine-water systems exhibiting the lower critical solution temperature behavior (RITE) *(Ful)Yamada Hidetaka, (Ful)Numaguchi Ryohei, Chowdhury Firoz Alam, (Ful)Yamamoto Shin, (Ful)Goto Kazuya, Kato Tsuguhiro, (NSSMC) Matsuzaki Yoichi, Onoda Masami	CO2 capture Hydrophobic hydration Phase separation	4-d	484
14:40– 15:00	N118	Prediction of particle size distribution by the model of collision and coagulation for precipitation (Sumitomo Metal Mining) *(Cor)Tsuchioka Kazuhiko, (Cor)Maki Kouichiro, (Cor)Nakakura Shuuhei	Particle size distribution Precipitation CFD	4-g	204
(15:20–16:20) (Chair: Sano Noriaki, Yamada Hidetaka)
15:20– 15:40	N120	Energy Saving in a Crude Distillation Unit with a Divided Wall Column (Dong-A U.) (Ful)Kim Young Han	Crude distillation unit Energy saving DWC	4-c	6
15:40– 16:00	N121	Mass Transfer in a Packed Distillation Column - From HETP to HTU - (Kansai Chem. Eng.) *(Ful)Nishimura Goro, (Ful)Kataoka Kunio, (Ful)Yamaji Hiroshi, (Ful)Noda Hideo	Mass Transfer Packed Column Distillation HTU	4-c	4
16:00– 16:20	N122	HETP prediction of packed column (Tokyo U. Sci.) (Ful)Ohe Shuzo	packed column HETP efficiency	4-c	210
Hall P(Koryu-to 6F Foyer)
PS-A [General Session (Poster)] Poster Session A (System, info. & simulation, Supercritical, Energy)
(13:20–15:20)
13:20– 15:20	PA101	Design methodology of parenterals manufacturing processes considering the choice between single-use and multi-use technologies (U. Tokyo) *(Stu)Shirahata H., (Ful)Hirao M., (Ful)Sugiyama H.	Pharmaceuticals Risk evaluation Decision-making	6-b	199
	PA102	Design methodology of decontamination processes using hydrogen peroxide in pharmaceutical manufacturing (U. Tokyo) *(Stu)Yabuta K., (Airex) Futamura H., (Ful)Kawasaki K., (U. Tokyo) (Ful)Hirao M., (Ful)Sugiyama H.	Pharmaceuticals Process design Sterile drug product manufacturing	6-b	200
	PA103	Application of computational fluid dynamics for equipment redesign in sterile manufacturing of biopharmaceuticals (U. Tokyo) *(Stu)Zeberli Anicia, (Stu)Casola Gioele, (Roche) Siegmund Christian, Mattern Markus, (U. Tokyo) (Ful)Sugiyama Hirokazu	Pharmaceuticals Quality CFD	6-b	308
	PA104	Method for Material Loss Reduction in Drug Product Manufacturing Processes (U. Tokyo) *(Stu)Ito M., (Shionogi) (Cor)Akimoto Y., (Cor)Takahashi K., (Cor)Kato Y., (Cor)Kikuchi N., (U. Tokyo) (Ful)Hirao M., (Ful)Sugiyama H.	Pharmaceuticals Batch manufacturing Loss reduction	6-b	343
	PA105	The new development of integrated coal gasified and combined cycle with using water gas shift membrane reactor (TUAT) *(Stu·PCE)Yonamine Wataru, (TUAT/JSPS) Sivasakthivel Thangavel, (TUAT) (Ful)Fushimi Chihiro	IGCC WGSMR CCS	6-b	610
	PA106	Development of a Multi-input-multi-output Process Control Method Using Past Operation data (U. Tokyo) *(Stu)Watanabe T., Tanaka K., (Ful)Kaneko H., (Ful)Funatsu K.	soft sensor inverse analysis process control	6-d	8
	PA107	Accurate Computing of Dielectric Constant and Viscosity by a Combination of QM and MD Calculations (TS Tech.) *(Ful)Yamaguchi Toru, (RITE) (Ful)Yamada Hidetaka, (TS Tech.) Fujiwara Takayuki, (Yamaguchi U.) Hori Kenji	viscosity dielectric constant quantum mechanics and molecular dynamics	6-f	687
	PA108	Life cycle design of food packaging by activity model (U. Tokyo) *(Stu)Yokokawa N., (Ful)Sugiyama H., (Ful)Hirao M.	food packaging activity model design for environment	6-g	171
	PA109	Micronization of β-carotene using supercritical antisolvent recrystallization with tube-type precipitator (Nagoya U.) *(Stu)Kodama Tomohiko, (Stu)Murakami Kazuya, (Stu)Uemori Chiho, (Ful)Wahyudiono , (Ful)Kanda Hideki, (Ful)Goto Motonobu	Mincronization Supercritical carbon dioxide carotenoid	8-a	202
	PA110	Study of water effect on solubility in supercritical carbon dioxide using Chrastil equation (Tokyo Tech) *(Stu)Omata Masataka, (Stu)Yokozaki Yuta, (Ful)Shimoyama Yusuke	carbon dioxide solubility Chrastil equation	8-b	594
	PA111	Diffusion coefficients of metal complexes in liquid and supercritical states (Shizuoka U.) *(Ful)Kong Chang Yi, Murohusi Yuuki, (Chuo U.) (Ful)Funazukuri Toshitaka	diffusion coefficient metal complex supercritical carbon dioxide	8-b	855
	PA112	Analysis based on solubility parameter for polymer precipitation behavior in the CO₂ painting (Tohoku U.) *(Stu·PCEF)Abe Kohei, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi	CO2 painting CO2 solubility Phase equilibria	8-b	237
	PA113	Measurement of diffusion coefficients of chromium(III) acetylacetonate in supercritical carbon dioxide at high temperatures (Chuo U.) *(Stu)Yamamoto Minoru, (Ful)Taguchi Minori, (Ful)Funazukuri Toshitaka, (Shizuoka U.) (Ful)Kong Chang Yi	Diffusion coefficient Cr(acac)3 Supercritical carbon dioxide	8-b	627
	PA114	Fabrication of chitosan/drug colloidal solution by supercritical fluid extraction (Tokyo Tech) *(Stu)Murakami Yuya, (Ful)Shimoyama Yusuke	carbon dioxide emulsion extraction slug flow	8-c	533
	PA115	Adsorption and desorption behaviors of VOCs under supercritical CO₂ condition for regeneration of activated carbon (Tohoku U.) *(Stu·PCEF)Kikuchi Koichi, (Ful)Ushiki Ikuo, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi, (DAI-DAN) (Ful)Ito Yasuyuki	supercritical carbon dioxide activated carbon regeneration	8-c	288
	PA116	Transport phenomena on chiral separation by supercritical fluid chromatography (Chuo U.) *(Stu)Yonezawa Kosei, (Stu)Ono Yuna, (Ful)Taguchi Minori, (Ful)Funazukuri Toshitaka	Parameter estimation Supercritical fluid chromatography Chiral separation	8-c	579
	PA117	Supercritical fluid extraction from dairy by-product and analysis of extraction behavior by using an extraction model (Tohoku U.) *(Stu·PCEF)Oda Erika, (Ful)Ota Masaki, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi, (SHALOM) Kon Tatsuhiko, Sekiya Eiji	supercritical extraction solubility	8-c	240
	PA118	Mechanism analysis of hydrothermal acid leaching of lithium cobalt oxide using citric acid. (Tohoku U.) *(Stu)Aikawa Tatsuya, (Ful)Watanabe Masaru, (Ful)Aida Taku, (Ful)Smith Richard	Recycle Separations Metal recovery	8-c	434
	PA119	Extraction of residual organic substances in polyacrylic acid using supercritical CO₂ (Shizuoka U.) *(Stu)Tachikawa Daisuke, (Ful)Okajima Idzumi, (Ful)Sako Takeshi	supercritical CO2 extraction monomer	8-c	622
	PA120	supercritical carbon dioxide extraction and isomer evaluation of lycopene from tomato pulp (Nagoya U.) *(Stu)Watanabe You, Honda Masaki, (Kagome) Higashiura Takuma, Hukaya Tetsuya, (Surabaya U.) (Ful)Machmudah Siti, (Nagoya U.) (Ful)Wahyudiono , (Ful)Kanda Hideki, (Ful)Goto Motonobu	supercritical extraction isomer	8-c	772
	PA121	Extraction of sunflower oil from sunflower seeds using supercritical carbon dioxide and application to Chrastil model (Nihon U.) *(Stu)Sugiura Hirosuke, (Stu)Ozawa Kousuke, (Ful)Matsuda Hiroyuki, (Ful)Kurihara Kiyofumi, (Ful)Tochigi Katsumi	supercritical extraction sunflower oil Chrastil model	8-c	719
	PA122	Subcritical water saccharification of starch by microwave heating (Shizuoka U.) *(Stu·PCEF)Moroyama K., (Ful)Okajima I., (Ful)Sako T.	Saccharification Starch Subcritical water	8-d	623
	PA123	Synthesis of cross-linked polyacrylic acid in supercritical carbon dioxide (Shizuoka U.) *(Stu·PCEF)Suzuki H., (Ful)Okajima I., (Ful)Sako T.	supercritical carbon dioxide acrylic acid synthesis	8-d	618
	PA124	Synthesis of N-substituted succinimide in high temperature and high pressure water (NIT Hachinohe) *(Stu)Takahashi Yuka, (Ful)Honma Tetsuo, (Kumamoto U.) (Ful)Sasaki Mitsuru	succinimide high temperature and high pressure water organic synthesis	8-d	634
	PA125	Depolymerization of polybutylene terephthalate under hydrothermal conditions in the presence of amine (Chuo U.) *(Stu)Matsuzawa Daiki, (Ful)Taguchi Minori, (Ful)Funazukuri Toshitaka	Poly(butylene terephthalate) Depolymerization Amine	8-d	669
	PA126	Synthesis of organically modified CaMoO₄ nanoparticles for liquid scintillator to contemplate neutrino-less double-β decay detection (Tohoku U.) *(Stu)Shirakawa Yuki, (Ful)Noguchi Takio, (Ful)Aida Tsutomu, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi, (Ful)Koshimizu Masanori, Fujimoto Yutaka, Asai Keisuke	Nanoparticle Subcritical Calcium molybdate	8-e	314
	PA127	Fabrication of HfO₂ nanoparticles surface-modified with organic molecules using a flow type reactor and application to X-ray detection (Tohoku U.) *(Stu)Hiyama Fumiyuki, (Tohoku U. NICHe) (Ful)Noguchi Takio, (Ful)Aida Tsutomu, (Tohoku U.) (Ful)Takami Seiichi, (Tohoku U. WPI-AIMR) (Ful)Adschiri Tadafumi, (Tohoku U.) (Ful)Koshimizu Masanori, Fujimoto Yutaka, (NAIST) Yanagida Takayuki, (NIRS) Nishikido Fumihiko, (KEK) Kishimoto Syunji, Haruki Rie, (Tohoku U.) Asai Keisuke	supercritical nanoparticle scintillator	8-e	673
	PA128	Analysis of Exfoliation Mechanism in Fabrication of Boron Nitride Nanosheets by Using Supercritical Fluid (Tohoku U. IMRAM) *(Stu)Fugane Takumi, (Ful)Tomai Takaaki, (Ful)Honma Itaru	Supercritical fluid Boron Nitride Two-dimensional material	8-e	592
	PA129	Hydrothermal synthesis of photoluminescent nanocarbon with flow reactors (Kanazawa U.) *(Stu)Sakai Naoki, (Ful)Hiejima Yusuke, (AIST) (Ful)Hayashi Takumichi, (Ful)Kanakubo Mitsuhiro, (Kanazawa U.) Nitta Koh-hei	hydrothermal synthesis carbon dots photoluminescence	8-e	236
	PA130	Creation of magnetic particle in super-critical fluid (Toyo U.) *(Stu)Ishido Yuma, Maekawa Toru, Nakajima Yoshikata	Super-critical fluids Magnetic-particle Ferrocene	8-e	298
	PA131	Kinetics study of continuous hydrothermal synthesis of metal oxide nanoparticles (Tohoku U.) *(Stu·PCEF)Tanaka Yutaro, (Ful)Aoki Nobuaki, (Ful)Aida Tsutomu, (Ful)Seong Gimyeong, (Ful)Hojo Daisuke, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi	Hydrothermal synthesis Nanoparticle Kinetics	8-e	417
	PA132	Effect of reaction conditions to the structure and oxygenated functional groups under hydrothermal carbonization (Tohoku U.) *(Stu)Miyajima Atsumi, (Ful)Watanabe Masaru, (Ful)Aida Taku, (Ful)Smith Richard	hydrothermal carbonization oxygenated functional groups	8-e	438
	PA133	Supercritical water synthesis of LiMn_xNi_yCo_1-x-yO₂ in tubular flow reactor and discharge voltage characteristics of LiMn_xNi_yCo_1-x-yO₂ synthesized (Kanazawa U.) *(Stu·PCEF)Ogawa Kohei, (Ful)Tamura Kazuhiro, (Ful)Tada Kaoru	Lithium-ion battery supercritical water cathode nano-size particle	8-e	807
	PA134	Development of decomposition technique of waste solution by hydrothermal process (Shizuoka U.) *(Stu·PCEF)Kemmochi T., (Ful)Okajima I., (Ful)Sako T.	hydrothermal dichloromethane dechlorination	8-f	619
	PA135	Controlled depolymerization of Bovine serum albumin in high temperature water (Tohoku U.) *(Stu)Oshima Minori, (Ful)Aida Taku, (Stu)Ozawa Kenta, (Ful)Hiraga Yuya, (U. Tsukuba) Fukuda Shinya, Tanabe Yuhiko, Suzuki Ikune, (Tohoku U.) (Ful)Smith R. L.	high temperature water protein depolymerization	8-g	779
	PA136	Gasification of plywood chip for biomass power generation (Gifu U.) *(Stu)Hirako Tomoya, (Ful)Kumabe Kazuhiro, (Ful)Moritomi Hiroshi	Gasification Plywood chip Biomass power generation	9-a	680
	PA137	The effect of LiOH addition on dehydration reaction of Mg(OH)₂ (Chiba U.) *(Stu)Kurosawa R., (Ful)Ryu J.	Magnesium hydroxide Chemical heat storage Dehydration/Hydration reaction	9-b	233
	PA138	Reactivity evaluation of Li-based mixed oxide with CO₂ as a chemical heat storage material (Chiba U.) *(Stu)Hanaoka Y., (Ful)Ryu J.	chemical heat storage Li-based mixed oxide carbon dioxide capture	9-b	261
	PA139	Hydration properties of several rare earth compounds as possible chemical heat storage materials (Kyoto U.) *(Stu)Shizume Kunihiko, (Ful)Hatada Naoyuki, Uda Tetsuya	thermochemical heat storage rare earth compounds hydration / dehydration	9-b	464
	PA140	Electricity generation by up-converted low grade waste heat (U. Tokyo) *(Stu)Mishina Tomohiro, Uehara Kazuki, Okamoto Hiroya, Haruna Youta, Fukuhara Shouhei, (Stu)Fujiwara Naoya, (Ful)Wakihara Toru, (Ful)Yoshie Kenichi	waste heat recovery Zeolite Organic Rankine cycle	9-b	699
	PA141	Investigation on the continuous hydrocarbon extraction process from a microalga Botryococcus braunii (Tohoku U.) *(Stu)Hamano Yuichiro, (Ful)Hiraga Yuya, (Ful)Ota Masaki, (Ful)Sato Yoshiyuki, (Ful)Inomata Hiroshi	Botryococcus braunii Microalga Biofuel	9-c	375
	PA142	Hydrothermal reforming of biomass waste using surface-controlled cerium oxide nano-catalysts (Tohoku U.) *(Stu·PCEF)Inoue Ryohei, (Ful)Seong Gimyeong, (Ful)Aida Tsutomu, (Ful)Aoki Nobuaki, (Ful)Hojo Daisuke, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi	nano-catalyst lignin hydrothermal reforming	9-c	303
	PA143	Chemical conversion of hydrocarbon resource using cubic CeO₂ nano-crystals (Tohoku U.) *(Stu·PCEF)Hirai Haruka, (Ful)Seong Gimyeong, (Tohoku U. NICHe) (Ful)Aida Tsutomu, (Tohoku U.) (Ful)Aoki Nobuaki, (Tohoku U. WPI) (Ful)Hojo Daisuke, (Ful)Takami Seiichi, (Ful)Adschiri Tadafumi	supercritical hydrothermal synthesis methane nano-catalyst	9-c	653
	PA144	Reactivity of solid residue from hydrothermal liquefaction of microalgae in oxidizing atmosphere (TUAT) *(Stu)Tomita R., (Ful)Fushimi C.	Microalgae Solid residue Oxidation	9-c	432
	PA145	Measurement of particulate formation in combustion of decayed wood at low temperatures (TUAT) *(Stu)Ishimoto Atsushi, Niikura Mai, Yoshida Makoto, (TUAT/Tokyo Dylec) Hama Naoya, (TUAT) (Ful)Lenggoro Wuled	Biomass conversion Wood-decaying Aerosol	9-c	644
	PA146	Analysis of deposited carbon on heat caring particles during coal pyrolysis process in a downer reactor (TUAT) *(Stu)Koyama M., (Stu·PCEF)Kobayashi M., Sivasakthivel T., (Ful)Fushimi C., (AIST) (Ful)Matsuoka K.	coal pyrolysis heat caring particles deposited carbon	9-c	443
	PA147	Enhancement of oxygen release in perovskite-oxides supported CuO oxygen carriers in chemical looping with oxygen uncoupling for solid fuels combustion (U. Tokyo) *(Int)Ochieng James Ochieng, (Ful)Kosaka Fumihiko, (Ful)Oshima Yoshito, (Ful)Otomo Junichiro	chemical looping oxygen uncoupling perovskite oxides CuO	9-c	662
	PA148	Product tar characterization and arsenic behavior in pyrolysis of arsenic-containing wood pellet (Gifu U.) *(Stu)Kajikawa Daisuke, (Ful)Kumabe Kazuhiro, (Ful)Moritomi Hiroshi	Wood Tar Arsenic	9-c	707
	PA149	Effects of Coexisting Components in Gasification Yield Gas on Adsorption Performance of Sulfides into Activated Coke (Gifu U.) *(Stu)Ishida Ryota, (Ful)Kobayashi Nobusuke, (Ful)Itaya Yoshinori	Adsorption Coexisting Gas Activated Coke	9-c	9
	PA150	Improvement of redox kinetics and morphological evaluation of ilmenite-based oxygen carriers in chemical looping systems (U. Tokyo) *(Stu)Miya K., (Ful)Otomo J.	chemical looping oxide ion conductor morphological change	9-c	319
	PA151	Degradation behavior of iron/alumina oxygen carrier particles in chemical-looping systems (U. Tokyo) *(Stu)Saito Yuya, (Ful)Kosaka Fumihiko, (Chuo U.) (Ful)Hatano Hiroyuki, (U. Tokyo) (Ful)Otomo Junichiro	chemical looping degradation of oxygen carrier coal	9-c	390
	PA152	Modeling of reversible solid oxide fuel cell / water electrolysis (RSOFC/EC) systems for energy storage (Tokyo Tech) *(Stu)Lee H., (Stu)Yanagawa D., (Stu)Shimamura R., (Ful)Hasegawa K., (Ful)Ihara M.	Power to Gas Solid oxide fuel cell Water electrolysis	9-e	79
	PA153	Development of proton conductive solid oxide fuel cell focusing on a chemical and geometric structure of the interface of the electrolyte (Tokyo Tech) *(Stu)Kameda K., (Stu)Shimamura R., (Stu)Kurahashi Y., (Ful)Hasegawa K., (Ful)Ihara M.	proton conductor solid oxide fuel cell electrolyte	9-e	88
	PA154	Energy system using hydrogen energy storage based on the real data on smart energy system "Ene-Swallow" in Tokyo institute of technology (Tokyo Tech) *(Stu)Yanagawa D., (Ful)Shimizu T., (Stu)Lee H., (Ful)Hasegawa K., (Ful)Ihara M.	Energy system Hydrogen Ene-Swallow	9-e	130
	PA155	Relationship between proton conductivity and effects of amounts of oxygen vacancy, structural symmetry of layered perovskite oxide (Tokyo Tech) *(Stu)Matsuhira T., (Stu)Kurahashi Y., (Ful)Hasegawa K., (Ful)Ihara M.	Solid oxide fuel cell Electrolyte perovskite	9-e	170
	PA156	Fabrication of Si-Cu Self-Supporting Films by Rapid Vapor Deposition and Their Application to Lithium Secondary Battery Anodes (Waseda U.) *(Stu)Hashizume Yuta, (Stu)Aoi Shigeki, (Ful)Sugime Hisashi, (Ful)Osawa Toshio, (Ful)Noda Suguru	lithium secondary batteries silicon anodes rapid vapor deposition	9-e	246
	PA157	Fabrication of large grain polycrystalline Si films for solar cells by rapid vapor deposition on and mechanical detachment from heat-resistant substrates (Waseda U.) *(Stu)Ishijima Naoya, (Stu)Fujita Makoto, (Ful)Osawa Toshio, (Ful)Sugime Hisashi, (Ful)Noda Suguru	poly-crystalline silicon films crystal growth solar cells	9-e	425
	PA158	Separation of over voltage and analysis of unsteady anode reaction on pulse jet-rechargeable direct carbon fuel cell (Tokyo Tech) *(Stu)Iida Yuta, (Stu)Shimamura Ryota, (Ful)Hasegawa Kei, (Ful)Ihara Manabu	SOFC liquid fuel anode reaction analysis	9-e	517
	PA159	Evaluation of Nanosurface Control and Ultra High Speed Deposition on Double Porous Si Substrate for Fabricating Monocrystalline Thin Film Si Solar Cell (Tokyo Tech) *(Stu)Matsuura Akira, (Stu)Takazawa Chiaki, (Waseda U.) (Stu)Fujita Makoto, (Ful)Hasegawa Kei, (Ful)Noda Suguru, (Tokyo Tech) (Ful)Ihara Manabu	Solar cell Mono crystal Thin film	9-e	630
	PA160	Application of proton-conductive electrode catalyst to polymer electrolyte fuel cells (Tokyo City U.) *(Stu)Ichiki Shuma, Oyama Tomoya, (Ful)Take Tetsuo	Proton-conductive electrode catalyst Polymer electrolyte fuel cells Proton conductive network	9-e	650
	PA161	Microstructural control and Reaction analysis of Cathodes for Electrochemical Synthesis of Ammonia (U. Tokyo) *(Stu)Nakamura Takehisa, (Ful)Kosaka Fumihiko, (Ful)Otomo Junichiro	Ammonia electrosynthesis Proton conductor Microstructure of cathode	9-e	436
	PA162	Modeling of hydrogen absorption and desorption in Magnesium (Kyoto U.) *(Stu·PCEF)Kitagawa Yuta, (Ful)Tanabe Katsuaki	hydrogen storage magnesium modeling	9-e	640
	PA163	Enhancing rate performance of lithium titanate by hybridizing with carbon nanotubes (Waseda U.) *(Stu)Honda Yoichiro, (Stu)Yamagata Go, (Ful)Noda Suguru	lithium ion batteries lithium titanate carbon nanotubes	9-e	370
	PA164	Design of proton conducting solid oxide fuel cells based on transport properties of lanthanum tungstate (U. Tokyo) *(Stu)Tsukimura Reina, (Stu)Kojo Gen, (Tokyo Gas) (Ful)Matsuzaki Yoshio, (U. Tokyo) (Ful)Otomo Junichiro	Proton conductor Solid oxide fuel cell Lanthanum tungstate	9-e	499
PA165	Closed Cycle EDR using non aqueous solvent (OIT) *(Stu)Iseda Takayuki, (Stu)Kaga Daiki, (Stu)Kamikyuu Keisuke, (Ful)Miyamoto Hitoshi	Electro dialysis Reversal Membrane Potential Cell Resistance	9-e	260
PA166	Evaluation of steam electrolysis with solid oxide fuel cells using a coupled analysis. (U. Tokyo) *(Stu)Okamura Shintarou, (Ful)Otomo Junichiro	SOFC steam electrolysis coupled analysis	9-e	367
PA167	Flow analysis in electrode layer of the redox flow battery (Gunma U.) *(Stu·PCEF)Saito Jin, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	Redox flow battery Mass transport analysis Modeling	9-e	447
PA168	Investigation of fuel cell catalysts by a chemisorption/desorption method (Gunma U.) *(Stu·PCEF)Yamaguchi Ryo, (Ful)Nakagawa Nobuyoshi, (Ful)Ishitobi Hirokazu	fuel cell catalyst chemisorption methanol oxidation	9-e	553
PA169	Development of a TiO₂ modified composite catalyst for methanol electro-oxidation (Gunma U.) *(Stu·PCEF)Yagi S., (Ful)Ishitobi H., (Ful)Nakagawa N.	Direct methanol fuel cell TiO2 Carbon	9-e	582
PA170	Effect of flow state on the overpotential of the redox flow battery (Gunma U.) *(Stu·PCEF)Sugawara Satoshi, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	Vanadium redox flow battery Carbon paper Electrode structure	9-e	651
PA171	Enhancement of ethanol electro-oxidation activity by intermetallic PtPb anode catalyst for a DEFC (Gunma U.) *(Stu·PCEF)Tomaru Hiroyuki, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	direct ethanol fuel cell intermetallic PtPb catalytic activity	9-e	655
PA172	Metal-free solid oxide fuel cell with direct synthesis of carbon nanotube (Tokyo Tech) *(Stu)Hosoda M., (Stu)Iida Y., (Stu)Shimamura R., (Ful)Hasegawa K., (Ful)Ihara M.	Solid oxide fuel cell Carbon nanotube direct synthesis	9-e	81
PA173	Investigation of the reduction condition for electrochemical reduction of the CO₂ using supported Sn catalyst (Kanazawa U.) *(Stu)Mukae Y., (Kanazawa U./JST-PRESTO) (Ful)Tsujiguchi T., (Kanazawa U.) (Ful)Osaka Y., (Ful)Kodama A.	Electrochemical reduction of CO2 Faradaic efficiency Energy career	9-e	232
PA174	Improvement of resistance to toluene of solid oxide fuel cell by promoting internal reforming (U. Tsukuba) *(Stu)Tanaka Shota, (AIST) (Ful)Kuramoto Koji, (U. Tsukuba) (Ful)Hanada Nobuko, Ishida Masayoshi	Solid Oxide Fuel Cell Toluene Catalyst	9-e	325
PA175	Stabilization and power density improvement of stack-type thermoelectric power generating module by using various flexible materials (Nagoya U.) *(Stu)Ishihara Yuya, (Stu)Taguchi Hiroya, (Toshima Manufucturing) Sakai Kenzi, Kimoto Kentarou, (LIXIL) (Ful)Isu Norihumi, (Nagoya U.) (Ful)Deguchi Seiichi	thermoelectric generation low-temperature waste heat flexible materials	9-e	727
PA176	Preparation and thermoelectric properties of PEDOT/Bi₂Te₃ nanoplate thin films by combining method of electropolymerization and printing process (Tokai U.) *(Stu)Deguchi Toshiaki, Wada Koudai, Hosokawa Yuichi, Takahashi Momoko, Tomita Koji, Takashiri Masayuki	Bi2Te3 nanoplate PEDOT thermoelectric	9-e	804
PA177	Effect of acid solutions on thermoelectric properties of electrodeposited Bi-Te thin films (Tokai U.) *(Stu)Okuhata Mitsuaki, Takashiri Masayuki	electrodeposition thermoelectoric bismuth telluride	9-e	805
PA178	Study on burning performance of[Cu(CN₄H₂)]/BCN (Fukuoka U.) *(Stu)Kai Mariko, (Ful)Masamoto Hiroshi, (Ful)Shigematsu Mikiji, (Ful)Kowhakul Wasana	tetrazole complex burning performance	9-e	382
PA179	Development of piezoelectric energy harvesting technology by using resonance from feeble flow field (Nagoya U.) *(Stu)Taguchi Hiroya, Takagi Kentaro, Inoue Tsuyoshi, (Fuji Ceramics) Nozoe Takashi, Saito Seigo, Sano Takahiko, (LIXIL) (Ful)Isu Norihumi, (Nagoya U.) (Ful)Deguchi Seiichi	piezoeloctric power generator energy harvesting technology resonance	9-e	498
PA180	Explication of mechanism of amino acid decomposition in subcritical water using carbon (TUAT) *(Stu)Usami R., (Ful)Fushimi C.	glycine subcritical water	9-e	597
PA181	Evaluation of membrane and fuel cell performance using highly cross-linked aromatic anion conducting membranes (Tokyo Tech) *(Stu)Hattori Kengo, (Tokyo Tech/JST-CREST) (Ful)Miyanishi Shoji, (Ful)Oshiba Yuhei, (Ful)Yamaguchi Takeo	Solid alkaline fuel cell Anion conducting membrane Cross-linking	9-e	751
PA182	Effect of alloying metals on oxygen reduction activity of connected Pt-alloy nanoparticles for PEFCs (Tokyo Tech) *(Stu)Kubota Daichi, (KAST/Tokyo Tech) (Ful)Kuroki Hidenori, (Tokyo Tech/KAST) (Ful)Tamaki Takanori, (Ful)Yamaguchi Takeo	Polymer electrolyte fuel cell Connected platinum-alloy nanoparticles Carbon-free electrocatalyst	9-e	762
PA183	Analysis of adhesion phenomena at high temperature and its prevention for low-rank coal combustion ash (TUAT) *(Stu)Kawada Hirotatsu, Matsusita Miki, Horiguchi Genki, (Ful)Tsukada Mayumi, (Ful)Kamiya Hidehiro, (TEPCO) Yamauchi Yusuke, Okabe Harumi	ash adhesion high temperature	9-f	152
Hall Z(Koryu-to 6F )
Opening Ceremony
9:00– 10:40		Opening Remark Chair of SCEJ Kanto branch (Sumitomo Bakelite Co.,Ltd.) Asakuma Sumitoshi
		Greeting of the SCEJ-President President of the SCEJ (Kaneka Corp.) Sugawara Kimikazu
		Commendation Ceremony
0-a The SCEJ Award
(10:40–12:00) (Chair: Adschiri Tadafumi)
10:40– 11:20	Z106	[The SCEJ Award] Study on the Development of the Alumite Catalysts, and it's Applied Technology on the Environment and Energy Fields (TUAT) (Ful)Kameyama Hideo	The SCEJ Award	0-a	531
11:20– 12:00	Z108	[The SCEJ Award] Research on Biochromatography Separation Engineering (Yamaguchi U.) (Ful)Yamamoto Shuichi	The SCEJ Award	0-a	532

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SCEJ 82nd Annual Meeting (Tokyo, 2017)

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