Research field (2):
Thermal engineering
, Catalytic processes and resource chemistry
Research keywords (5):
alternative fuels
, Catalyst
, Exaust emissions
, Marine environment
, Marine engine
Research theme for competitive and other funds (2):
2022 - 2026 Development of prediction for novel aftertreatment performance of methane slip using active site model of methane oxidation catalyst
2019 - 2022 Evaluation of active site of methane oxidation catalyst for marine gas engine exhaust
Papers (10):
Yoshifuru Nitta, Yasuhisa Ichikawa, Yoichi Niki, Akiko Masuda, Koichi Hirata. Performance evaluation of methane oxidation catalyst for marine gas-engine in actual exhaust and simulated gas. International Journal of Engine Research. 2023
Yoshifuru Nitta, Yudai Yamasaki. Dynamic Estimation Method of Effective Active Site on Palladium Methane Oxidation Catalyst in Exhaust Gas of Marine Lean Burn Gas Engine. Journal of Engineering for Gas Turbines and Power. 2020. 142. 12
Yoichi Niki, Yoshifuru Nitta, Hidenori Sekiguchi, Koichi Hirata. Diesel fuel multiple injection effects on emission characteristics of diesel engine mixed ammonia gas into intake air. Journal of Engineering for Gas Turbines and Power. 2019. 141. 6
Yoshifuru Nitta, Yasuhisa Ichikawa, Yoichi Niki, Akiko Masuda, Koichi Hirata. Performance Evaluation of Methane Oxidation Catalyst for Marine Gas-Engine in Actual Exhaust and Simulated Gas. COMODIA 2022 - 10th International Conference on Modeling and Diagnostics for Advanced Engine Systems. 2022. 363-372
Supports effects of Pd methane oxidation catalyst on adsorbed CO volume by dynamic volumetric CO chemisorption
(89 th Annual Meeting of Japan Institute of Marine Engineering 2019)
Effect of water vapor in exhaust gas from marine lean burn gas engine on methane oxidation of Pd catalyst
(内燃機関シンポジウム講演論文集(CD-ROM) 2018)
The Japan Institute of Marine Engineering Award Paper 2019 Study with Micro-reactor on Deactivation of Pd Methane Oxidation Catalyst for Marine Lean Burn Gas Engines