Nakagawa Kyuya (Kyoto Univ.), Matsumoto Hiromasa (Kao Corp.) |
This symposium is targeted to build up new chemical engineering field that relates to social innovation and technology implementation. The world is now entering the 4th industrial revolution era, and we believe that chemical engineers will make great contributions to design our society surrounded with cutting-edge technologies. We need to have a good knowledge on how we use and connect technologies, what we should produce and should not, which technology is valid or not, how much we deliver our products to our societies in terms of shaping our new lifestyle on the planet. We are willing to open an opportunity to discuss about these issues with chemical engineers' view.
Most recent update: 2018-12-17 03:35:01
The keywords that frequently used in this topics code. | Keywords | Number | |
---|---|---|---|
Energy system | 2 | ||
life cycle assessment | 2 | ||
Battery | 2 | ||
process design | 2 | ||
Lithium-air battery | 1 |
ACKN No. | Title/Author(s) | Keywords | Style |
---|---|---|---|
116 | The actual situation that is implementing OMICS-technology for oil refinery | Petroleomics oil refinery crude oil | O |
218 | Prospects for the proper food distribution by edible thermal energy storage | thermal energy storage edible microcapsule distribution | O |
219 | [Review lecture] Japan-Thailand Joint Research under SATREPS program | coal reuse Thailand | O |
448 | Challenges in ensuring coherence among technology roadmaps | coherence roadmaps innovation | O |
540 | A supporting information infrastructure for technology implementation | Computer-Aided Process Engineering Modeling Simulation | O |
556 | Basic problems and measures toward establishment of rational methodology of process with complex fluids | Complex fluid Process design Numerical simulation | O |
597 | A region-specific analysis of technology implementation of energy carrier | Socioeconomic analysis Regional characteristics Hydrogen energy system | O |
650 | Development of phosphorus fertilizer with 85% recovery rate and harmless residue from sludge ash | sludge ash recovery of phosphorus phosphorus fertilizer and free heavy metal | O |
673 | Proposal of cost-competitive distributed energy system using solar cells and hydrogen energy storage | solar cell hydrogen energy system | O |
675 | Characterization of factors for social implementation of technology systems based on bibliometric analysis | socioeconomic technoeconomic sociotechnical | O |
720 | Conceptual Design of A System for Frequency Stabilization of Massively Installed Intermittent Renewable Energy Systems | Frequency Stabilization Hydrogen Production Battery | O |
784 | Technoeconomic analysis of battery-assisted hydrogen production from renewable energy | Battery Roadmap off-grid | O |
806 | Techno-economic analysis of lithium-air batteries considering mass transfer limitation | Lithium-air battery Techno-economic analysis Energy system | O |
893 | Challenges in innovation of chemical technologies: obstacles and keys for success identified from questionnaire | questionnaire obstacles drivers | O |
1012 | Demonstration test of an SOFC Power Generation System | Carbon-Neutral SOFC fuel cell Biogas | O |
1015 | Availability of snow for cooling in urban area with heavy snowfall and its potential for load reduction of snow removal | renewable energy snow storage life cycle assessment | O |
1024 | A vision-oriented, deductive approach for process development: a simplified demonstration with bio-fuel production consuming hydrogen | bio-fuel life cycle assessment process design | P |
1036 | Case study on introduction of biofuel production technology using ion-exchange resin catalyst on Tanegashima | biofuel production introduction of new technology ion-exchange resin | O |