• Lab Members

    Members

  • Aziz Lab

    Energy and Process Integration Engineering

  • Advanced Energy System

    Mutual and effective conversion of primary and/to secondary energy sources

  • Vehicle Grid Integration

    Advanced integration of electric vehicle for grid ancillary services

Welcome to Aziz Laboratory
Energy and Process Integration Engineering

AZIZ研究室へようこそ
エネルギープロセス統合工学


In this lab, a highly efficient and clean energy system is developed toward the realization of a sustainable society. Analysis and modeling of micro to macro-scale for each individual energy conversion process and elemental technology are performed, together with the effort to integrate them efficiently. In addition, a mutual correlation (conversion and utilization) between electricity and chemical energy is also studied.

当研究室では、持続可能な社会の実現を目指し、高効率かつクリーンなエネルギーシステムの構築を行う。各個のエネルギー変換プロセス・要素技術内のミクロからマクロスケールまでの現象を解析・モデル化し、それらを統合化・体系化する。また、化学エネルギーだけではなく、電力の高度生産・利用および化学エネルギーとの相互変換・利用についても検討を行う。

Research Areas
研究分野


Energy systems, Process design, Power generation, Carbon capture and storage, Industrial decarbonization, Hydrogen production, Hydrogen storage, Hydrogen combustion, Renewable Energy, Energy conservation, Energy and exergy analyses, Exergy recovery, Electric vehicles, Batteries, Smart grid

エネルギーシステムス、プロセス設計、発電システム、CO2分離、水素製造・貯蔵・利用、再生可能エネルギーの高度利用、省エネ化、エネルギー・エクセルギー解析、エクセルギー回収、電気自動車、蓄電池、スマートグリッド

For Prospective Students
研究分野


If you are interested to join us, please visit:
Department of Mechanical Engineering
IME International Graduate Program

Lab Posters
研究室関連ポスター


News and Events
ニュース等


Energy-saving and environmentally-benign integrated ammonia production system

Energy-saving and environmentally-benign integrated ammonia production system

In this work, an integrated conversion system of coal to ammonia (NH3) is developed with the objectives of total energy efficiency maximization and process simplification. The system integrates drying, chemical......
All-solid-state Z-scheme plasmonic Si@Au nanoparticles on CuBi2O4/BiVO4 for efficient photocatalytic activity

All-solid-state Z-scheme plasmonic Si@Au nanoparticles on CuBi2O4/BiVO4 for efficient photocatalytic activity

Development of plasmon-mediated catalysis emerged as an attractive alternative to propel chemical reactions. Novel plasmonic material in the form of Si@Au as core@shell nanostructure was experimentally synthesized with good colloidal......
Comparative thermodynamic and techno-economic assessment of green methanol production from biomass through direct chemical looping processes

Comparative thermodynamic and techno-economic assessment of green methanol production from biomass through direct chemical looping processes

Methanol production from biomass in the light of direct chemical looping processes is a promising alternative for green and sustainable methanol production, given that traditional methanol synthesis uses fossil energy......
Prediction of heat transfer enhancement of delta-wing tape inserts using artificial neural network

Prediction of heat transfer enhancement of delta-wing tape inserts using artificial neural network

This work adopts the artificial neural network (ANN) for predicting the efficiency of a double-pipe heat exchanger which employs T-W tape inserts with different wing-width ratios (w/W) of 0.31, 0.47......