2011-02-092024-05-15https://scholars.lib.ntu.edu.tw/handle/123456789/663146摘要：本研究以大量生產電解消毒劑以供噴霧使用為目標，針對消毒系統核心之電解槽進行重新設計，追求產製效率提升並使消毒原料及能源可更有效利用。此外，研究團隊擬於畜禽飼養設施環境中安裝噴霧降溫與即時製造電解水消毒系統，並以空間中細菌污染量為指標，進行電解水消毒系統之現場動物防護效益評估。本案擬以兼顧經濟低廉、永續環保、有效抑菌為目標，建立產業等級之畜禽飼養空間內建降溫及噴霧消毒系統生產與商業運轉流程，適用於防範各類型人畜共通傳染病威脅動物與人類之健康。<br> Abstract: Membrane-less electrolyzed water (MLEW) had been documented by clinical studies to be beneficial of both safety and efficiency. It also gained the niche of cost-saving, easily-available, odor-reduction and been regarded as a high-potential method in the environmental controlling measure of airborne transmitted disease. This project aim at design an novel industrial grade MLEW generation and air-spary system for protecting the animals. The system will be installed in 3 three preselected animal feeding facility. Bioaerosol density reduction and costbenefit will be monitored and assessed for understanding the performance of the system.無隔膜電解水感染控制消毒membrane-less electrolyzed waterinfection controlinfection