日本人成人女性の化粧におけるプロセスと効果

実験の被験者は19～25歳(平均21.6歳)の健康な日本人成人女性18名であった。まず調査用紙に記入させ、洗顔と化粧を行わせた。測定項目は、化粧のプロセス、皮膚色、皮膚水分量、皮膚の湿皮脂量および睫毛長であった。被験者が使用した化粧品や化粧の所要時間は様々であったが、順序は全被験者間で同様となった。化粧により、睫毛は長くなったが、曲率は必ずしも増加しなかった。頬部については、皮脂量は減り、色彩は赤みを増した。本研究を通じ、目は化粧のプロセスにおいて、所要時間にせよ色彩にせよ特別の位置を占めていることが確認された。The subjects were 18 Japanese adult females 19 to 25 years old (21.6yrs±1.4). In the first place, they washed their face. Secondly, they made themselves up on the assumption that they participate in the party. They were instructed to prepare their own cosmetics. The measurement items were the changes of skin color, sebaceous matter, configuration of eyelashes and process of makeup. The processes of makeup were recorded by themselves. The makeup gave a health impression, extended eyelashes by 1.1mm and increased the degree of curvature of eyelashes. The time required of makeup was 10 to 62 min, and the number of processes was 5 to 19. However, the procedure of makeup was definite. Namely, the subjects treated their eye in the first and lips in the last

Evaluation of CO2 Storage Potential for Feasibility Study Sites on Innovative Zero-emission Coal Gasification Power Generation

AbstractWe have investigated storage potential in a feasibility study of a CO2 geologic storage system design. This study is a part of a research project titled —Innovative Zero-emission Coal Gasification Power Generation||. In commercial use cases, the total amount of CO2 storage is approximately 30 million tons, which means that theannual amount of CO2 storage is 1.54 million tons in a 20-year injection cycle. In the case of large-scale CO2 storage, the total amount of CO2 storage is assumed to be 200 million tons; the annual amount of CO2 storage is 10 million tons in a 20-year cycle. We selected three reservoir sites—sites A, B, and C—as commercial use cases. An additional site, Site D, was selected as a large-scale CO2 storage site. the storage capacities of aquifers distributed in 4 sites,sites A, B, and C as commercial use cases and site D as large-scale CO2 storage case, were evaluated. Additionally, injectivity and long-term behavior were examined through numerical analyses. These results indicated the possible of sites A, B, and C as commercial use and site D as large-scale CO2 storage.This paper describes the site selection, geological characterization, and CO2 storage potential of sites selected for case studies