Papers
2024
| 1. |
H.
Kiyomoto, Y. Sakai, Y. Kansha: Evaluation of isothermal and isofield designs of
a temperature sensor using a magnetic phase transition, Therm. Sci. Eng. Prog., (2024) Vol.
50 102597 |
| 2. |
F.
Xu, J. Wang, K. Sakurai, Y. Sakai, S. Sabu, H. Kanayama, R. Zhang, D. Satou, Y.
Kansha: Soft-sensor model for indoor temperature prediction under heating
conditions, Therm. Sci.
Eng. Prog, (2024) Vol. 51 102650 |
2023
| 1. |
J. Sun, Y. Sato, Y.
Sakai, Y. Kansha: Ternary deep eutectic solvents: Evaluations based on how
their physical properties affect energy consumption during post-combustion CO2
capture, Energy, Vol. 270 (2023) 126901 |
| 2. |
S. Kato, Y. Sakai, Y. Sato, Y. Kansha: Enhancement of Wastewater Treatment
Using Mist and Photocatalyst, Chem. Eng. Technol., Vol. 46 (6) (2023) pp. 1185-1190 |
| 3. |
F. Xu, K. Sakurai, Y.
Sato, Y. Sakai, S. Sabu, H. Kanayama, D. Satou, Y. Kansha, Soft-Sensor Modeling
of Temperature Variation in a Room under Cooling Conditions, Energies, Vol.
16(6) (2023) 2870 |
| 4. |
C. Feng, M. Chen, Y. Zhou, Z. Xie, X. Li, P. Xiaokaiti, Y. Kansha, A. Abudula,
G. Guan: High-entropy NiFeCoV Disulfides for Enhanced Alkaline Water/Seawater
Electrolysis, J. Colloid Interface Sci., Vol. 645 (2023) pp.
724-734
|
| 5. |
N. Kitiphatpiboon, M. Chen, C. Feng, Y. Kansha, S. Li, A. Abudula, P. Wu, Y. Ma, G. Guan: Highly durable FeNiSx/NiFe(OH)x electrocatalyst for selective oxygen evolution reaction in alkaline simulated seawater at high current densities, Int. J. Hydrogen Energy, Vol.48(88), (2023) pp.34255-34271 |
| 6. |
J. Sun, Y. Sato, Y.
Sakai, Y. Kansha: A review of ionic liquids and deep eutectic solvents design
for CO2 capture with machine learning, J. Clean. Prod., Vol. 414 (2023) 137695 |
| 7. |
X. Mei, H. Kiyomoto, S. Kato, Y. Kansha: Data-driven Soft Sensor for Crude
Oil Fouling Monitoring in Heat Exchanger Networks, IEEE Sensors Journal, Vol. 23(21), (2023) pp. 26336-26346
|
| 8. |
G. Talero, Y. Kansha: Simulation of the Conversion of Japanese Waste Biomass to Light Olefins: Reducing Biogenic Emissions via CO2 Recirculation in the Water Gas Shift Reactor, Chem. Eng. Trans., Vol. 106, (2023) pp. 1093-1098 |
| 9. |
K. Sakurai, F. Xu, Y.
Sato, Y. Sakai, Y. Kansha: Heterogeneous Approach in Reforming Batch Reactor Structure for an Improved
Efficiency, Chem. Eng. Trans., Vol. 106, (2023) pp. 1267-1272 |
| 10. |
Y. Sato, Y. Kansha: Comparative Study of Carbon Dioxide Purification Methods,
Chem. Eng. Trans., Vol. 106, (2023) pp. 1069-1074 |
| 11. |
K. Sakurai, F. Xu, Y. Sato, Y. Sakai, S. Sabu, H. Kanayama, D. Satou, Y.
Kansha: Classification of Thermal Comfort in Heterogeneous Space from a
PMV Model Perspective, Chem. Eng. Trans.Vol. 103, (2023) pp.169-174 |
| 12. |
S. Kato, Y. Sakai, Y. Sato, Y. Kansha: Photocatalytic Degradation of Phenol
with Ultrasonic Mist and Sunlight, Chem. Eng. Trans., Vol. 103, (2023) pp.187-192 |
| 13. |
H. Kiyomoto, Y. Sakai, Y. Sato, Y. Kansha: Application
of Magnetic Phase Transition for a Novel Wireless Sensor Device for Body
Temperature, Chem. Eng.
Trans., Vol. 103, (2023) pp. 193-198 |
| 14. |
G. Talero, Y. Kansha: Atom economy or product yield to determine optimal
gasification conditions in biomass-to-olefins biorefinery, Chem. Eng. Res.
Des. Vol. 199, (2023) pp. 689-699 |
| 15. |
甘蔗 寂樹、「エクセルギーを基盤とした低炭素かつエネルギースマートな社会の実現」日本エネルギー学会機関誌 えねるみくすVol.102 (2023) pp. 287-292 |
| 16. |
甘蔗 寂樹、「二酸化炭素分離技術の特性」 MATERIAL STAGE Vol. 23(6),
(2023) pp.23-26 |
2022
| 1. |
S. Kato, Y. Kansha: Decomposition of Organic Compounds
in Water from Oil Refineries, Comput.
Aided Chem. Eng., Vol. 49 (3) (2022) pp. 2053-2058 |
| 2. |
Y. Kansha, M. Ishizuka: Energy Harvesting Wireless
Sensors Using Magnetic Phase Transition, Comput.
Aided Chem. Eng., Vol. 49 (3) (2022) pp. 2059-2064 |
| 3. |
G. Talero, Y. Kansha: Simulation of the Steam
Gasification of Japanese Waste Wood in an Indirectly Heated Downdraft Reactor
Using PRO/II?: Numerical Comparison of Stoichiometric and Kinetic Models,
Energies, Vol. 15(12) (2022) 4181 |
| 4. |
Y. Kansha, S. Kato, K. Tsuji: Analysis of reactions
during the residue desulfurization of heavy oil based on a data-driven method, Comput.
Chem. Eng., Vol. 164 (2022) 107901 |
| 5. |
J. Sun, Y. Sakai, Y. Sato, Y. Kansha: Improving CO2
Capture Process with latent heat reuse system and Artificial Neural Network
Model, Chem. Eng. Trans., Vol. 94 (2022) pp.79-84 |
| 6. |
S. Kato, Y. Sakai, Y. Sato, Y. Kansha: The Effect of
the Presence of Mist in the Proposed Sonophotocatalytic Wastewater Treatment
Process, Chem. Eng. Trans., Vol. 94 (2022) pp. 583-588 |
| 7. |
Y. Sakai, C. Nielsen, Y. Sato, S. Kato, Y. Kansha:
Evaluation of the dependence of microbial fuel cells on soil composition and
water content, Chem. Eng. Trans., Vol. 94 (2022) pp. 619-624 |
| 8. |
Y. Sato, Y. Kansha: Energy-Saving Estimation by
Membrane Process for Carbon Dioxide Purification, Chem. Eng. Trans., (2022) Vol.
94 (2022) pp. 709-714 |
| 9. |
F. Xu, Y. Sato, Y. Sakai, S. Sabu, H. Kanayama, D.
Satou, Y. Kansha: A Prediction Model for Temperature Variation and Distribution
Using Soft Sensing Method, Chem. Eng. Trans., Vol. 94 (2022) pp. 811-816 |
| 10. |
Y. Kansha, S. Horikoshi, H. Kiyomoto, S. Kato, X. Mei:
Fouling management in crude oil heat exchangers using plant data, Chem. Eng.
Trans., Vol. 94 (2022) pp. 931-936 |
| 11. |
甘蔗 寂樹「堤敦司先生 最終講演会」粉体工学会誌 Vol. 59, 7 (2022) pp. 360-361 |
| 12. |
坂西 欣也、大国 浩太郎、甘蔗 寂樹、岸田 真一、木方 真理子、駒井 啓一、中村 美紀子日本エネルギー学会 省エネルギー・消費者行動部会 学会100周年記念座談会「100年後のライフスタイルを語る!」」日本エネルギー学会機関誌 えねるみくす Vol. 101 (2022) pp. 379-393 |
| 13. |
甘蔗 寂樹「前書−コロナ禍における空調機器の最新動向」日本エネルギー学会機関誌 えねるみくす Vol. 101 (2022) pp. 394-395 |
| 14. |
甘蔗 寂樹「エクセルギーに基づいた蒸留プロセスの設計」分離技術Vol. 52(4) (2022) pp.
221-227 |
2021
| 1. |
G. Talero, C. M. Nielsen, Y. Kansha: Identification of Japanese Solid Biowaste
for Conversion into Biochemicals and Energy via Thermochemical Biorefinery,
Chem. Eng. Trans, Vol. 88 (2021) pp. 313-318 |
| 2. |
Y. Kansha, S. Kato, K. Tsuji: Statistical Reaction Analysis of Residue
Desulfurization Based on Molecular Structures, Chem. Eng. Trans, Vol. 88
(2021) pp. 367-372 |
| 3. |
S. Kato, Y. Sakai, Y. Sato, Y. Kansha: The Effect of High-frequency Ultrasound
on the Photocatalytic Decomposition of Organic Compounds in Water, Chem.
Eng. Trans, Vol. 88 (2021) pp. 379-384 |
| 4. |
Y. Sato, Y. Kansha: Design of an Energy-Saving Membrane Separation Module
for Algae Cultivation, Chem. Eng. Trans, Vol. 88 (2021) pp. 781-786 |
| 5. |
甘蔗 寂樹「生物・化学的水処理方法の開発による水質汚染問題の解決」東京大学環境報告書 2021 (2021) 20 |
2020
| 1. |
Q. Zhao, J. Wang, Z. Li, Y. Guo, J. Wang, B. Tang, Y. Kansha, A. Yoshida,
A. Abidula, G. Guan: UiO-66-NH2/Cu2O composite as an enhanced visible light photocatalyst for
decomposition of organic pollutants, J. Photochem. Photobiol. A, Vol. 399 (2020) 112625 |
| 2. |
甘蔗 寂樹「前書−省エネ大賞に見る省エネ技術の最新動向」日本エネルギー学会機関誌 えねるみくす Vol. 99 (2020) pp. 233 |
2019
| 1. |
C. Song, R. Li, Y. Zhao, R. Li, D. Ma, Y. Kansha: Assessment
of four sewage sludge treatment routes with efficient biogas utilization and
heat integration, Process Saf. Environ. Protect., Vol. 126 (2019) pp. 205-213 |
| 2. |
Y. H. Chan, K. W. Cheah, B. S. How, A. C. M. Loy, M. Shahbaz, H. K. G.
Singh, N. R. Yusuf; A. F. A. Shuhaili, S. Yusup, W. A. W. A. K. Ghani,
J. Ramli, Y. Kansha, H. L. Lam, B. H. Hong, S. L. Ngan: An
overview of biomass thermochemical conversion technologies in Malaysia, Sci. Total. Environ., Vol. 680 (2019) pp. 105-123 |
| 3. |
C. Song, M. Xie, Y. Qiu, Q. Liu, L. Sun, K. Wang, Y. Kansha: Integration of CO2 absorption with biological
transformation via using rich ammonia solution as a nutrient source for
microalgae cultivation, Energy, Vol. 179 (2019) pp. 618-627 |
| 4. |
Y. Kansha, M. Ishizuka: Design of energy harvesting wireless sensors using
magnetic phase transition, Energy, Vol. 180 (2019) pp. 1001-1007 |
| 5. |
C. Song, Q. Liu, Y. Qi, G. Chen, Y. Song, Y. Kansha, Y. Kitamura: Absorption-microalgae hybrid CO2 capture and
biotransformation strategy- A review, Int. J. Greenh. Gas Control, Vol. 88 (2019) pp. 109-117 |
| 6. |
Y. Kansha, M. Ishizuka, A. Tsutsumi, Y. Kambe, J. Yoshihara: Simulated application of self-heat recuperation and pressure swing system
to industrial methanol synthesis process, J. Chem. Eng. Japan, Vol. 52 (2019) pp. 650-655 |
| 7. |
B. S. How, S. L. Ngan, B. H. Hong, H. L. Lam, W. P. Qin Ng, S. Yusup, W.
A. W. A. K. Ghani, Y. Kansha, Y. H. Chan, K. W. Cheah, M. Shahbaz, H. K.
G. Singh, N. R. Yusuf, A. F. A. Shuhaili, J. Rambli: An outlook of Malaysian biomass
industry commercialisation: Perspectives and challenges, Renew. Sust. Energ.
Rev. Vol. 113, 109277 (2019) |
| 8. |
S. Sirisomboonchai, S. Li, A. Yoshida, S. Kongparakul C. Samart, Y. Kansha,
X. Hao, A. Abudula, G. Guan: Terephthalic acid induced binder-free NiCoP-carbon
nanocomposite for highly efficient electrocatalysis of hydrogen evolution
reaction, Catal. Sci. Technol. (2019) Vol. 9 (2019) pp. 4651-4658 |
| 9. |
C. Song, Y. Qiu, M. Xie, J. Liu, Q. Liu, S. Li, L. Sun, K. Wang, Y. Kansha:
Novel Regeneration and Utilization Concept Using Rich Chemical Absorption
Solvent As a Carbon Source for Microalgae Biomass Production, Ind. Eng.
Chem. Res., Vol. 58 (2019) pp. 11720-11727 |
| 10. |
甘蔗 寂樹「前書−省エネ大賞に見る省エネ技術の最新動向」日本エネルギー学会機関誌 えねるみくす Vol. 98 (2019) pp. 262 |
2018
| 1. |
Y. Kansha, M. Ishizuka, A. Tsutsumi: Design of energy-saving CO2 capture
process using circulating fluidized bed for power generation, Comput. Aided
Chem. Eng., Vol. 44, A (2018) pp.1825-1830 |
| 2. |
Y. Kansha, M. Ishizuka: Power generation from low temperature waste heat
using magnetic phase transition, Chem. Eng. Trans., Vol. 70 (2018) pp. 43-48 |
2017 (from 2015 to 2017 before founding this lab.)
| 1. |
Y. Kansha, M. Ishizuka: Efficient Power Generation from Low Temperature
Heat Source, Chem. Eng. Trans., Vol. 56 (2017) pp. 1519-1524 |
| 2. |
Y. Kansha, M. Ishizuka, H. Mizuno, A. Tsutsumi: Design of Energy-Saving
Carbon Dioxide Separation Process Using Fluidized Bed, Appl. Therm. Eng.
Vol. 126 (2017) pp. 134-138 |
| 3. |
Y. Kansha, M. Ishizuka, A. Tsutsumi, Y. Kambe, T. Okamura, J. Yoshihara:
Innovative Methanol Synthesis Process by Using Exergy Recuperative Pressure
and Heat Circulation Modules, Chem. Eng. Trans., Vol. 61 (2017) pp. 823-828 |
| 4. |
A. Tsutsumi, Y. Kansha: Thermodynamic Mechanism of Self-Heat Recuperative
and Self-heat Recovery Heat Circulation System for a Continuous Heating
and Cooling Gas Cycle Process, Chem. Eng. Trans., Vol. 61 (2017) pp. 1759-1764 |
| 5. |
K. Bando, Y. Kansha, M. Ishizuka, A. Tsutsumi: Innovative freeze-drying
process based on self-heat recuperation technology, J. Clean. Prod. Vol.
168 (2017) pp. 1244-1250 |
| 6. |
唐 渊、甘蔗 寂樹、堤 敦司、「バイオマスガス化燃料電池発電システムにおける革新的水素精製プロセスの開発」月刊ケミカルエンジニヤリング(化学工業社)Vol.62 No.7 (2017) pp. 461-466
(1-6) |
2016
| 1. |
C. Song, Y. Kansha, Q. Fu, M. Ishizuka, A. Tsutsumi: Reducing energy consumption
of advanced PTSA CO2 capture process-Experimental and numerical study,
J. Taiwan Inst. Chem. Eng., Vol. 64 (2016) pp. 1096-1103 |
| 2. |
Q. Fu, Y. Kansha, C. Song, Y. Liu, M. Ishizuka, A. Tsutsumi: An elevated-pressure
cryogenic air separation unit based on self-heat recuperation technology
for integrated gasification combined cycle systems, Energy, Vol. 103 (2016)
pp. 440-446 |
| 3. |
K. Bando, Y. Kansha, M. Ishizuka, A.Tsutsumi: A Novel Freeze Drying Process
by Using Self-heat Recuperation Technology, Chem. Eng. Trans., Vol. 52 (2016) pp. 31-36 |
| 4. |
Y. Kansha, M. Ishizuka, H. Mizuno, A. Tsutsumi: CO2 Separation Process
Using Circulating Fluidized Bed Based on Exergy Recuperation, Chem. Eng. Trans., Vol. 52 (2016) pp. 109-114 |
| 5. |
M. Ishizuka, H. Mizuno, Y. Kansha, A. Tsutsumi: Control of Solid Mass Flow
Rate in Circulating Fluidized Bed by a Pulsed Gas Flow, Chem.
Eng. Trans., Vol. 52 (2016) pp. 127-132 |
2015
| 1. |
Y. Liu, Y. Kansha, M. Ishizuka, Q. Fu, A. Tsutsumi: Experimental and simulation
investigations on self-heat recuperative fluidized bed dryer for biomass
drying with superheated steam, Fuel Process. Technol., Vol. 136 (2015)
pp. 79-86 |
| 2. |
Q. Fu, C. Song, Y. Kansha, Y. Liu, M. Ishizuka, A. Tsutsumi: Energy saving
in a biodiesel production process based on self-heat recuperation technology,
Chem. Eng. J., Vol. 278, 15 (2015) pp. 556-562 |
| 3. |
Q. Fu, Y. Kansha, C. Song, Y. Liu, M. Ishizuka, A. Tsutsumi: A cryogenic
air separation process based on self-heat recuperation for oxy-combustion
plants, Applied Energy, Vol. 162, 15 (2016) pp. 1114-1121 |
| 4. |
R. Rasfuldi, Y. Kotani, Y. Kansha, M. Ishizuka, A. Tsutsumi: Self-Heat
Recuperative Heat Circulation Processing with Thermoelectric Device, Applied
Energy, Vol. 160 (2015) pp. 836-842 |
| 5. |
C. Song, Y. Kansha, M. Ishizuka, Q. Fu, A. Tsutsumi: Conceptual design
of a novel pressure swing CO2 adsorption process based on self-heat recuperation
technology, Chem. Eng. Process.: Process Intensification, Vol. 94 (2015)
pp. 20-28 |
| 6. |
Y. Kansha, M. Ishizuka, C. Song, A. Tsutsumi: Process Intensification for
Dimethyl Ether Production by Self-Heat Recuperation, Energy, Vol. 90, 1
(2015) pp. 122-127 |
| 7. |
Y. Kansha, H. Mizuno, Y. Kotani, M. Ishizuka, C. Song, Q. Fu, A. Tsutsumi:
Numerical investigation of energy saving potential for self-heat recuperation,
Chem. Eng. Trans., Vol. 45 (2015) pp. 187-192 |
| 8. |
M. Ishizuka, H. Mizuno, Y. Kotani, Y. Kansha, A. Tsutsumi: Modeling of
flow behavior at downer and riser in triple bed circulating fluidized bed
using equivalent circuit, Chem. Eng. Trans., Vol. 45 (2015) pp. 889-894 |
| 9. |
H. Mizuno, Y. Kansha, M. Ishizuka, A. Tsutsumi: Agglomeration behavior
in fluidized-bed evaporator for thermal seawater desalination, Appl. Therm.
Eng., Vol. 89 (2015) pp. 1096-1103 |
Conference Presentations
2023
| 1. |
Y. Kansha: Chemical and Environmental Engineering Endeavor towards Green
Transformations, 1st International Conference on Sustainable Chemical,
Energy and Environmental Engineering (SCE3), Mar. 8-9, Kuala Lumpur, Malaysia
(2023), Plenary Speaker |
| 2. |
G.
Talero, Y. Kansha: Simulation of the Conversion of Japanese Waste Biomass to
Light Olefins: Reducing Biogenic Emissions via CO2 Recirculation in the Water
Gas Shift Reactor, 1st International Conference on Sustainable Chemical, Energy
and Environmental Engineering (SCE3), Mar. 8-9, Kuala Lumpur, Malaysia (2023) |
| 3. |
K. Sakurai, F. Xu, Y.
Sato, Y. Sakai, Y. Kansha: Heterogeneous
Approach in Reforming Batch Reactor Structure for an Improved Efficiency, 1st
International Conference on Sustainable Chemical, Energy and Environmental
Engineering (SCE3), Mar. 8-9, Kuala Lumpur, Malaysia (2023) |
| 4. |
Y.
Sato, Y. Kansha: Comparative Study of Carbon Dioxide Purification Methods, 1st
International Conference on Sustainable Chemical, Energy and Environmental
Engineering (SCE3), Mar. 8-9, Kuala Lumpur, Malaysia (2023) |
| 5. |
Y. Kansha, H. Kiyomoto, Y.
Sakai: Design of New Energy Harvesting Technologies for Cyber-Physical Systems,
International Chemical Engineering Symposia 2023, 化学工学会第88年会併設 Mar. 15-17, Tokyo, Japan (2023), invited |
| 6. |
G.
Talero, Y. Kansha: Simulation of the conversion of Japanese waste biomass to
light olefins: Evaluation of the CO2 conversion via water gas shift reactor and
the addition of H2, 11th World Congress of Chemical Engineering (WCCE11), Jun. 4-8, Buenos Aires,
Argentina (2023), Keynote |
| 7. |
清本 光,酒井 裕香, 佐藤
雄己, 甘蔗 寂樹: 磁気モーメントの変化によるエネルギーハーべスティング体温計デバイスの構築,第32回日本エネルギー学会大会,8月8日,福岡
(2023) |
| 8. |
櫻井 慧,許 峰,佐藤 雄己,酒井 裕香, 甘蔗
寂樹: 不均一的な温度分布と流れを活用した空間の効率化,第32回日本エネルギー学会大会,8月8日,福岡
(2023) |
| 9. |
Y. Sakai, C. Nielsen, Y. Kansha: Study on
improving hydrogen ion mobility for higher performance of sediment microbial
fuel cells, 20th APCChE Congress and 84th PIChE National convention, Sep. 4-9
Manila, Philippines (2023) |
| 10. |
S. Kato, Y. Sakai, Y. Sato,
Y. Kansha: The Study of Mist Flow in the Proposed Mist Flow Photocatalytic
Reactor, 26th Conference on Process Integration for Energy Saving
and Pollution Reduction (PRES’23), Oct. 8-11, Thessaloniki, Greece (2023) |
| 11. |
K.
Sakurai, F. Xu, Y. Sato, Y. Sakai, S. Sabu, H. Kanayama, D. Satou, Y. Kansha: Soft-sensing
Model Evaluation for Heterogeneous Thermal Environment in the Perspective of
Predicted Mean Vote, Chem. Eng. Trans., (2023) 26th Conference on Process Integration for Energy Saving and
Pollution Reduction (PRES’23), Oct. 8-11, Thessaloniki, Greece (2023) |
| 12. |
H.
Kiyomoto, Y. Sakai, Y. Sato, Y. Kansha: Application of Magnetic Phase
Transition in Energy Harvesting Wireless Sensors for Body Temperature, Chem. Eng.
Trans., (2023) 26th Conference on Process Integration for
Energy Saving and Pollution Reduction (PRES’23), Oct. 8-11, Thessaloniki, Greece
(2023) |
| 13. |
F.
Xu, K. Sakurai, Y. Sato, Y. Sakai, S. Sabu, H. Kanayama, D. Satou, Y. Kansha: Prediction
for Temperature Variation and Distribution under Heating Conditions Using Soft
Sensing Method, 26th Conference
on Process Integration for Energy Saving and Pollution Reduction (PRES’23), Oct.
8-11, Thessaloniki, Greece (2023) |
| 14. |
S. Kato, Y. Kansha: The
Degradation of Phenol in the Proposed Mist Flow Photocatalytic Reactor, 2023
AIChE Annual Meeting, Nov. 5-10, Orlando, FL, USA (2023) 169f |
| 15. |
H. Kiyomoto, Y. Sakai, Y.
Kansha: Application of Magnetic Phase Transition in Energy Harvesting Wireless
Temperature Sensors, 2023 AIChE Annual Meeting, Nov. 5-10, Orlando, FL, USA (2023)
269g |
| 16. |
I. Ino, Y. Sakai, Y. Sato, Y. Kansha: Potential
Utilization of Nitrogen Oxide from Exhausted Gas for Enhancement of Nitrogen
Cycle, 2023 AIChE Annual Meeting, Nov. 5-10, Orlando, FL, USA (2023)
359e |
| 17. |
G. Talero, Y. Kansha: Simulation
of the Conversion of Japanese Waste Biomass to Light Olefins: A Comparative
Revision of the Effect of Biomass Chemical Composition in the Yield of Olefins
in PRO/II, 2023 AIChE Annual Meeting, Nov. 5-10, Orlando, FL, USA (2023) 399c |
2022
| 1. |
甘蔗 寂樹:エクセルギーに基づいた蒸留プロセスの設計, 蒸留フォーラム2022-持続可能社会に向けた省エネルギーとDX技術の活用-分離技術会, 2月25日, online (2022), invited |
| 2. |
酒井裕香, Nielsen Christina, 佐藤雄己, 甘蔗寂樹: 微生物燃料電池の土壌成分および水分量依存性評価,
化学工学会第87年会, 3月16日, 神戸, (2022) N122 |
| 3. |
加藤 匠馬, 酒井 裕香, 佐藤 雄己, 甘蔗 寂樹: 霧化による光触媒を用いた排水中の有機物の分解効果の検討,
化学工学会第87年会, 3月16日, 神戸, (2022) PC252 |
| 4. |
S. Kato, Y. Kansha:
Decomposition of Organic Compounds in Water from Oil Refineries, The 14th International Symposium on
Process Systems Engineering (PSE2021+), Jun. 19-23, Kyoto, Japan (2022) 342
|
| 5. |
Y. Kansha, M. Ishizuka:
Energy Harvesting Wireless Sensors Using Magnetic Phase Transition, The 14th International Symposium on
Process Systems Engineering (PSE2021+), Jun. 19-23, Kyoto, Japan (2022) 343 |
| 6. |
酒井裕香, Nielsen Christina,佐藤 雄己, 加藤 匠馬, 甘蔗 寂樹: 底泥型微生物燃料電池の発電量に及ぼす土壌水分の影響,
第31回日本エネルギー学会大会,
8月4日,東京 |
| 7. |
Y. Kansha, H. Kiyomoto,
Y. Sakai: Design of innovative energy harvesting wireless sensors based on
magnetic phase transition, 26th
International Congress on Chemical and Process Engineering (CHISA2022), Aug.
21-25, Prague, Czech (2022) |
| 8. |
S. Kato, Y. Sakai, Y.
Sato, Y. Kansha: The proposal of a process design of a novel wastewater
treatment process using UV, US, TiO2, and mist, 26th International Congress on Chemical and Process
Engineering (CHISA2022), Aug. 21-25, Prague, Czech (2022) |
| 9. |
J. Sun, Y. Sakai, Y.
Sato, Y. Kansha: Improving CO2 Capture Process with latent heat reuse system
and Artificial Neural Network Model, 25th Conference on Process
Integration for Energy Saving and Pollution Reduction (PRES’22), Sep. 5-8, Bol,
Croatia (2022) |
| 10. |
S. Kato, Y. Sakai, Y.
Sato, Y. Kansha: The Effect of the Presence of Mist in the Proposed
Sonophotocatalytic Wastewater Treatment Process, 25th Conference on
Process Integration for Energy Saving and Pollution Reduction (PRES’22), Sep.
5-8, Bol, Croatia (2022) |
| 11. |
Y. Sakai, C. Nielsen, Y.
Sato, S. Kato, Y. Kansha: Evaluation of the dependence of microbial fuel cells on
soil composition and water content, 25th Conference on Process
Integration for Energy Saving and Pollution Reduction (PRES’22), Sep. 5-8, Bol,
Croatia (2022) |
| 12. |
Y. Sato, Y. Kansha:
Energy-Saving Estimation by Membrane Process for Carbon Dioxide Purification, 25th
Conference on Process Integration for Energy Saving and Pollution Reduction
(PRES’22), Sep. 5-8, Bol, Croatia (2022) |
| 13. |
F. Xu, Y. Sato, Y.
Sakai, S. Sabu, H. Kanayama, D. Satou, Y. Kansha: A Prediction Model for
Temperature Variation and Distribution Using Soft Sensing Method, 25th
Conference on Process Integration for Energy Saving and Pollution Reduction
(PRES’22), Sep. 5-8, Bol, Croatia (2022) |
| 14. |
Y. Kansha, S. Horikoshi, H. Kiyomoto, S. Kato, X. Mei:
Fouling management in crude oil heat exchangers using plant data, 25th Conference on Process Integration for Energy Saving and Pollution Reduction (PRES’22), Sep. 5-8, Bol, Croatia (2022), Keynote Speaker |
2021
| 1. |
Y.
Kansha, Y. Sato, Comparative study of carbon dioxide capture process for
utilization, CHISA 2021 (Virtually), Mar. 15-18, Prague Chez (2021) |
| 2. |
Y. Kansha, M. Ishizuka, Energy harvesting wireless sensors using magnetic
phase transition, CHISA 2021 (Virtually), Mar. 15-18, Prague Chez (2021) |
| 3. |
甘蔗 寂樹, 能村 貴宏, 則永 行庸, 松田 圭吾, 久保田 伸彦: コンビナート・地域連携によるカーボンニュートラル推進, 化学工学会第86年会, 3月21日, 東京 (2021), invited |
| 4. |
佐藤 雄己, 酒井 裕香, 甘蔗 寂樹: 二酸化炭素分離技術の特性と省エネルギー性能の比較, 化学工学会第52会秋季大会(ハイブリット), 9月21日, 岡山 (2021) |
| 5. |
加藤 匠馬, 酒井 裕香, 佐藤 雄己, 甘蔗 寂樹: 光触媒と超音波による排水中の有機物の分解, 化学工学会第52会秋季大会(ハイブリット), 9月21日, 岡山 (2021) |
| 6. |
甘蔗 寂樹: エクセルギーの視点からみる二酸化炭素分離, 化学工学会第52会秋季大会(ハイブリット), 9月21日, 岡山 (2021), invited |
| 7. |
G. Talero, C. M. Nielsen, Y. Kansha, Identification of Japanese Solid Biowaste
for Conversion into Biochemicals and Energy via Thermochemical Biorefinery,
the 24th Conference on Process Integration,
Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES’21),
Oct. 31-Nov. 3, Brno, Czech (2021) |
| 8. |
Y. Kansha, S. Kato, K. Tsuji, Statistical Reaction Analysis of Residue
Desulfurization Based on Molecular Structures, the 24th Conference
on Process Integration, Modelling and Optimisation for Energy Saving and
Pollution Reduction (PRES’21), Oct. 31-Nov. 3, Brno, Czech (2021) |
| 9. |
S. Kato, Y. Sakai, Y.
Sato, Y. Kansha: The Effect of High-frequency Ultrasound on the Photocatalytic
Decomposition of Organic Compounds in Water, the 24th Conference on Process Integration, Modelling and Optimisation
for Energy Saving and Pollution Reduction (PRES’21), Oct. 31-Nov. 3, Brno, Czech (2021) |
| 10. |
Y. Sato, Y. Kansha, Design of an Energy-Saving Membrane Separation Module for Algae Cultivation, the 24th Conference on Process Integration,
Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES’21),
Oct. 31-Nov. 3, Brno, Czech (2021) |
| 11. |
X.
Mei, H. Kiyomoto, S. Kato, Y. Kansha, Data-driven Modelling of Crude Oil
Fouling Prediction in Heat Exchanger Networks Using Soft Sensing Method, the
24th Conference on Process Integration, Modelling and Optimisation for Energy
Saving and Pollution Reduction (PRES’21), Oct. 31-Nov. 3, Brno, Czech (2021) |
| 12. |
Y. Kansha, S. Kato, Statistical Reaction Analysis of Residue
Desulfurization Reactor Based on Component Structures, 2021 AIChE Annual
Meeting, Nov. 7-19, Boston, MA, USA (2021) 60c |
| 13. |
S.
Kato, Y. Kansha, A
Recycling System for Wastewater from Oil Refineries Using Hydrogen and
Photocatalysis, 2021 AIChE Annual Meeting,
Nov. 7-19, Boston, MA, USA (2021) 279e |
| 14. |
甘蔗 寂樹, 加藤 匠馬, 辻浩二: 重油直接脱硫装置における原料/製品情報からの反応性解析, 第51回石油・石油化学討論会 石油学会, 11月11日, 函館, (2021) 1E09 |
| 15. |
甘蔗 寂樹: セメント製造と化学工業の融合によるカーボンニュートラルの促進, 中国地区化学工学懇話会2021年度セミナー「中国四国地区の化学産業における低炭素化の取り組み」, 11月26日, 広島 (2021), invited |
| 16. |
Y. Kansha, Energy harvesting form subambient temperature
exhausted heat using magnetic phase transition, The 10th China-Japan
Symposium on Chemical Engineering “Low-carbon chemical engineering: sciences
and technologies” (第10回日中化工シンポジウム), 11月29日, online (2021), invited |
| 17. |
甘蔗 寂樹: 脱炭素社会実現に向けた技術展開と課題, 第55回化学工学の進歩講習会「脱炭素への工学」化学工学会東海支部, 12月15-16日, 名古屋 (2021), invited |
2020
| 1. |
甘蔗 寂樹: 二酸化炭素最適分離回収・利用システム,日本エネルギー学会第4回 新エネルギー・水素部会シンポジウム, 1月15日, 東京 (2020), invited |
| 2. |
佐藤雄己, 甘蔗寂樹: 二酸化炭素分離プロセスの省エネルギー性能比較研究, 第29回日本エネルギー学会大会, 8月5日, 富山, (2020) 8-05 |
| 3. |
S. Kato, Y. Sato, C. Nielsen, Y. Kansha, Decomposition of Organic Compounds
in Water Using Photocatalyst and Mist, 2020 AIChE Annual Meeting (Virtual),
Nov. 16-20, San Francisco, CA, USA (2020) 277c |
| 4. |
Y.
Kansha, Y. Sato, Energy Harvesting Wireless Sensors Using Magnetic Phase
Transition, 2020 AIChE Annual Meeting (Virtual), Nov. 16-20, San Francisco, CA,
USA (2020) 337i. |
| 5. |
Y.
Sato, Y. Kansha, Comparative Studies of Energy Saving Performance for CO2
Capture, 2020 AIChE Annual Meeting (Virtual), Nov. 16-20, San Francisco, CA, USA
(2020) 623e. |
| 6. |
C.
Nielsen, Y. Sato, S. Kato, Y. Kansha, Optimizing factors to increase soil
microbial fuel cell performance, 2020 AIChE Annual Meeting (Virtual), Nov. 16-20,
San Francisco, CA, USA (2020) 760a. |
2019
| 1. |
Y. Kansha, Key
technologies of process design for promoting biomass waste usage, the 2nd International Symposium on Biomass/ Wastes Energy and Environment
(BEE2019), May 23-26, Tianjin, China (2019), Plenary Speaker |
| 2. |
Y. Kansha, M. Ishizuka, A. Tsutsumi, Y. Kambe, J. Yoshihara, Application
of Self-Heat Recuperation to Industrial Methanol Synthesis Process, 18th
Asia Pasific Confederation of Chemical Engineering Congress (APCChE 2019),
Sep. 23-27, Sapporo, Japan (2019)
|
| 3. |
Y. Kansha, M. Ishizuka, Carbon Dioxide Capture Process by Fluidized Bed,
18th Asia Pasific Confederation of Chemical Engineering Congress (APCChE
2019), Sep. 23-27, Sapporo, Japan (2019) |
| 4. |
Y. Kansha, M. Ishizuka, Comparative Study of CO2 Capture Processes by Energy
and Characteristics Bases, the 22nd Conference on Process Integration,
Modelling and Optimisation for Energy Saving and Pollution Reduction (PRES’19),
Oct. 20-23, Crete, Greece (2019) |
| 5. |
Y. Kansha, M. Ishizuka, Energy Harvesting Sensors Using Magnetic Phase
Transition, 2019 AIChE Annual Meeting, Nov. 10-15, Orlando, FL, USA (2019)
145f |
| 6. |
Y. Kansha, M. Ishizuka, CO2 Separation Process Based on Temperature Swing
Adsorption Using Fluidized Bed, 2019 AIChE Annual Meeting, Nov. 10-15,
Orlando, FL, USA (2019) 381af |
| 7. |
甘蔗 寂樹: エネルギーってなんだろう?−省エネ、創エネ、再エネ−令和元年度第2回青森県地域エネルギー事業研修講座「再生可能エネルギーの動向と地域エネルギー事業の可能性」, 11月25日, 弘前 (2019), invited |
2018
| 1. |
甘蔗 寂樹: 自己熱再生による化学品製造プロセスの省エネルギー化, 第17回コプロワークショップ「エクセルギー再生およびコプロダクションによる革新的省エネルギーと次世代産業基盤の構築」, 1月22日, 東京 (2018), invited |
| 2. |
Y. Kansha, M. Ishizuka, A. Tsutsumi: Energy-Saving CO2 Capture Process
Using Fluidized Bed, 化学工学会第83年会, 3月15日, 大阪 (2018), invited |
| 3. |
Y. Kansha, M. Ishizuka, A. Tsutsumi: Design of energy-saving CO2 capture process using circulating fluidized bed for power generation,
Process Systems Engineering (PSE) 2018, Jul. 1-5, San Diego, CA, USA (2018) |
| 4. |
甘蔗 寂樹, 石束 真典: 磁気モーメントの変化によるトリラテラル環境発電の可能性, 第27回日本エネルギー学会大会, 8月8日, 東京 (2018) |
| 5. |
Y. Kansha, M. Ishizuka: Power generation from low temperature waste heat using magnetic phase transition, 21st Conference
Process Integration, Modeling and Optimization for Energy Saving and Pollution
Reduction (PRES2018), Aug. 25-29, Prague (2018), Keynote Speaker |
| 6. |
Y. Kansha, M. Ishizuka: Design
of new energy harvesting technology from low temperature waste heat using
magnetic phase transition, 3rd
Japanese- German Workshop on Renewable Energies, Oct. 17-19, Tokyo (2018), invited |
| 7. |
Y. Kansha: Energy
Saving Process Design Based on Exergy and Irreversibility, Academic
form between Nankai Univ. and Tianjin Univ., Oct. 28, Nankai University, Tianjin,
China (2018), invited |
| 8. |
Y. Kansha: Japanese
biomass energy and the related processes, 2018 International Biomass/wastes
Energy and Environment Research Cooperative Network (IBEE-RCN), Oct. 29-30, Tianjin,
China (2018), invited |
| 9. |
Y. Kansha, M. Ishizuka: Energy
harvesting from exhaust heat using magnetic phase transition, Advanced Energy
Materials World Congress 2018, Nov. 4-7, Stockholm, Sweden (2018), invited |
Books
| 1. |
甘蔗 寂樹: 第1章 カーボンニュートラル実現に向けた技術展開と課題, カーボンニュートラルへの化学工学、化学工学会編、丸善出版 ISBN978-4-621-30772-4, 2023年1月発刊pp. 1-14 |
| 2. |
甘蔗 寂樹: 第1章 脱炭素社会実現に向けた技術展開と課題, 化学工学の進歩55 最新脱炭素への工学(Engineering for Green Transformation) 化学工学会監修、三恵社 ISBN978-4-86693-542-3, 2021年12月発刊pp. 1-16 |
| 3. |
甘蔗 寂樹: 第4章低炭素化に向けた省エネルギー4.1分離プロセスのエクセルギー評価とその蒸留プロセスへの応用、分離技術シリーズ37実用蒸留技術集覧第2集、分離技術会編、分離技術会、2024年3月発刊pp. 153-167 |
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