Abstract: A process for producing soap is provided, which includes effective microorganisms (EM) and EM-X ceramic powder, which are added to enhance the degree of saponification of fat, strengthen the cleaning power, and to provide a detergent that is capable of proliferating effective microorganisms in sewage water after washing and cleaning the sewage water, and which exhibits an effect as a water purification material after washing. Effective microorganisms (EM) including mainly facultative anaerobic lactic acid bacteria, yeast and photosynthetic bacteria and EM-X ceramic powder are added in the process of producing the soap, thereby, the treated material obtained according to the present invention exhibits an environmental purification effect as a substrate of benign microorganisms or a microorganism material.
Abstract: Regarding a detergent made using fermentation technology and its production method, in a production process of soap, effective microorganisms (EM) and EM-X ceramic powder are added to enhance a saponification degree of fat, strengthen a cleaning power as well, and also to realize a detergent capable of proliferating effective microorganisms in sewage water after washing and cleaning the sewage water, and exhibit an effect as a water purification material after washing. On selecting microorganisms, as a living organism playing a starter role in an environmental purification process, in particular, effective microorganisms (EM) consisting mainly of facultative anaerobic lactic acid bacteria, yeast and photosynthetic bacteria and EM-X ceramic powder are introduced in a production process of soap, thereby, a treated material obtained according to the present invention exhibits an environmental purification effect as a substrate of benign microorganisms or a microorganism material.
Abstract: Contained within an enclosure formed by an outer cylinder 2 and couplings 5, 5 equipped with connection ports 7, 7 connected to a liquid fuel system there are ceramic bodies 11, 11, which are formed by baking or firing of a substance wherein an effective microorganism colony, or a material obtained by fermentation thereof, or both, has or have been kneaded, and which are respectively arranged between the north poles N, N, . . . and the south poles S, S, . . . of permanent magnets 10, 10, . . . .
Abstract: Contained within an enclosure formed by an outer cylinder 2 and couplings 5, 5 equipped with connection ports 7, 7 connected to a liquid fuel system there are ceramic bodies 11, 11, which are formed by baking or firing of a substance wherein an effective microorganism colony, or a material obtained by fermentation thereof, or both, has or have been kneaded, and which are respectively arranged between the north poles N, N, . . . and the south poles S, S, . . . of permanent magnets 10, 10.