Last Update: 2018-10-02 07:58:36

SCEJ Trans-Division Symposium [Japanese]


ST-21
[Trans-Division Symposium]
Hydrogen Production and Purification for Successful Implementation of Renewable Energy in Society

According to the 2015 Paris agreement, Japan's greenhouse gas reduction target is 26% of the emission in 2013 by 2030. To achieve this goal continuous and mass introduction of renewable energy resources is indispensable by converting the renewables to chemical species such as hydrogen. This symposium calls for presentations on research and development of materials, membrane technologies, and reaction processes for hydrogen production and purification.


ST-22
[Trans-Division Symposium]
Novel Development of Plasma Processing

Plasma processing have attracted extensive attention for novel material processing and environmental application. It has been utilized for a number of innovative industrial applications such as nanoparticles synthesis, functional film production, surface treatment, and decomposition of harmful materials. This symposium motivates to discuss the basic as well as application of plasma processing based on chemical engineering approach. Young researcher award will be given to distinguished young speakers at the session.


ST-23
[Trans-Division Symposium]
Approach to Urban Mine Recycling

The Tokyo organising committee of the olympic and paralympic games plans to collect gold, silver, and copper from "urban mine", which contains waste electronic and electrical equipment such as mobile phones, in order to manufacture the winning medals for Tokyo 2020. As the development and recycling of urban mine is an important topic for Japan, the Trans-Division symposium is to be held in the SCEJ 50 annual meeting. In addition to invited lectures, the symposium is open for general oral presentations by researchers in a wide range of fields including separation, environment and materials.


ST-24
[Trans-Division Symposium]
Carbon Capture and Utilization (CCU) ; Process Development and Fundamental Properties

"As the global warming becomes the serious problem in the society, the technology is needed for develop the novel processes for carbon dioxide capture and utilization (CCU). This symposium will provide the opportunity for you to discuss topics ranging from the fundamental thermodynamic data and models to the development of the novel separation processes for CCU technology.


ST-25
[Trans-Division Symposium]
CVD and Dry Process


ST-26
[Trans-Division Symposium]
Novel Development in Batteries, Fuel Cells, Solar Cells and Other Energy Conversion/ Storage Technologies -From Nano Design to System Design- (Oral session)

This symposium covers researches on secondary batteries, fuel cells, solar cells, and other energy conversion/storage technologies. Topic include materials, devices, processes, and systems. In addition to standard presentations, we will have time for "general discussion" on how to contribute the chemical engineering in from material design to system design. This symposium consists of two sessions: an oral session and a poster session. In the poster session, excellent presentation by students will be awarded.


ST-27
[Trans-Division Symposium]
Novel Development in Batteries, Fuel Cells, Solar Cells and Other Energy Conversion/ Storage Technologies -From Nano Design to System Design- (Poster session)

This symposium covers researches on secondary batteries, fuel cells, solar cells, and other energy conversion/storage technologies. Topic include materials, devices, processes, and systems. In addition to standard presentations, we will have time for "general discussion" on how to contribute the chemical engineering in from material design to system design. This symposium consists of two sessions: an oral session and a poster session. In this poster session, excellent presentation by students will be awarded.


ST-28
[Trans-Division Symposium]
Recent Development of the Fundamentals and Applications of Thermal Energy

We organise this cross-sectional symposium for presentations about efficient uses of thermal energy. In Japan, 60% of the heat from primary energy resources is emitted to the environment. This symposium aims to see the recent development of the fundamentals and applications of thermal energy for sustainable society. Excellent presentations by students and young researchers will be awarded.


ST-29
[Trans-Division Symposium]
Approach from Chemical Engineering to Fine Bubble Technology

Fine bubble technology is progressing in Japan and developing to chemical engineering field. This symposium invites fine bubble researches on measurement of the basic physical properties, theoretical investigation and useful applications.


ST-30
[Trans-Division Symposium]
Membrane Reactor Technology - Integration of Reaction and Separation for Process Intensification -

Highly developed unit operations such as reaction and separation limit further improvement in those processes. Integration of reaction and separation technologies such as membrane reactors is one of the key strategy for process intensification to achieve energy-efficient and downsized process. This symposium invites leading researchers to introduce state-of-the-art technology and future vision of membrane reactors, and discusses innovative membrane reactor technologies.


ST-31
[Trans-Division Symposium]
Analysis of Diffusion Phenomena and Development towards Process Intensification

Control of mass and heat diffusion is a key for process intensification; therefore development of model-based design methodology for dynamic process by analysis of various diffusion phenomena is expected. In this symposium, we will discuss on complexity of dynamic process involved by diffusion phenomena, methods for analysis of complex process dynamics, and systems approach to process synthesis and design for process intensification, from various viewpoints of reaction process, transport phenomena and process systems.


ST-32
[Trans-Division Symposium]
Bacterial Biofilm Formation and Application of Immobilized Cells for Bioprocess


ST-33
[Trans-Division Symposium]
Chemical Engineering for Thermo- and Bio-chemical Conversion toward Effective Biomass Utilization

Needs for biomass utilization is increasing due to Paris Agreement and SDGs internationally, and due to modification of FIT framework domestically. Further innovation of thermo- and bio-chemical conversion is wanted. Chemical engineering approach provides the most effective way to the creation of biomass utilization technology that leads to commercialization from fundamental phenomena to process design. Biomass utilization is proceeded via chemical engineering discussion.