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    • 1. 发明公开
    • 오존수 제조 장치 및 그 제조 방법
    • 用于制造臭氧水的设备及其方法
    • KR1020010057670A
    • 2001-07-05
    • KR1019990061043
    • 1999-12-23
    • 동부전자 주식회사
    • 양원식
    • C02F1/78
    • C02F1/78B01F3/04099B01F3/2215B01F15/063B01F2003/04886B01F2015/061
    • PURPOSE: An equipment for manufacturing ozonized water and a method thereof are provided, to produce highly ozone-concentrated water by controlling the pressure and the temperature of an ozone dissolving tank, and expanding the contacting time and area between water and ozone. CONSTITUTION: The method is performed by improving the solubility of ozone in water; raising the ozone concentration in ozone gas; making longer contacting time or area between water and ozone gas; or making a large diffusion coefficient for ozone gas. A device comprises a first pump(102) to flow water into an ozone dissolving tank(108); an ozonizer(104) to produce ozone gas by using oxygen provided from outside; a second pump(106) to flow the produced ozone gas to the ozone dissolving tank(108); a container to fill ozone gas flown through a gas inhaler; a membrane to flow water into an exhaust port of the container; and a cooling system(1084) to control the temperature inside the container.
    • 目的:提供制造臭氧水的设备及其方法,通过控制臭氧溶解罐的压力和温度,扩大水与臭氧之间的接触时间和面积,生产高度臭氧浓缩水。 构成:该方法是通过改善臭氧在水中的溶解度来进行的; 提高臭氧气体中的臭氧浓度; 使水和臭氧气体之间的接触时间或区域更长; 或对臭氧气体产生大的扩散系数。 一种装置包括将水流入臭氧溶解罐(108)中的第一泵(102); 通过使用从外部提供的氧来生产臭氧气体的臭氧发生器(104) 第二泵(106)将产生的臭氧气体流到臭氧溶解罐(108); 用于填充通过气体吸入器流过的臭氧气体的容器; 将水流入容器的排气口的膜; 以及用于控制容器内的温度的冷却系统(1084)。
    • 4. 发明公开
    • 오존수 제조 장치
    • 臭氧水的制造方法
    • KR1020010057671A
    • 2001-07-05
    • KR1019990061044
    • 1999-12-23
    • 동부전자 주식회사
    • 양원식
    • C02F1/78
    • C02F1/78B01F3/04099B01F3/2215B01F15/063B01F2003/04886B01F2015/061C02F2201/782C02F2201/784
    • PURPOSE: Provided is a method for manufacturing ozonized water by controlling the pressure and the temperature of an ozone dissolving tank, and expanding the contacting time and area between water and ozone. CONSTITUTION: The device for manufacturing ozonized water comprises a first pump to flow water into an ozone dissolving tank; an ozonizer to produce ozone gas by using oxygen provided from outside; a second pump to flow the produced ozone gas to the ozone dissolving tank; a container(1081) to fill water and ozone gas; a spraying device to spray water to the container(1081); an exhaust port(1084); a switching valve(1085) to open and close the exhaust port(1084); and a cooling system(1086) to control the temperature inside the container(1081). More ozone gas is dissolved in water by applying a proper level of pressure or expanding the contacting time and area between water and ozone gas.
    • 目的:通过控制臭氧溶解槽的压力和温度,扩大水和臭氧之间的接触时间和面积,提供臭氧化水的制造方法。 构成:用于制造臭氧水的装置包括将水流入臭氧溶解罐中的第一泵; 通过使用从外部提供的氧来生产臭氧气体的臭氧发生器; 将产生的臭氧气体流过臭氧溶解槽的第二泵; 用于填充水和臭氧气体的容器(1081); 用于将水喷射到所述容器(1081)的喷洒装置; 排气口(1084); 用于打开和关闭排气口(1084)的切换阀(1085); 以及用于控制容器(1081)内的温度的冷却系统(1086)。 通过施加适当的压力或扩大水和臭氧气体之间的接触时间和面积,将更多的臭氧气体溶解在水中。
    • 7. 发明授权
    • 용융 유화에 의한 미립자 현탁액의 제조 방법
    • 通过熔融乳化制备细颗粒悬浮液的方法
    • KR101832519B1
    • 2018-04-13
    • KR1020127031719
    • 2011-05-04
    • 바스프 에스이
    • 엥겔,로베르트단너,토마스자흐베,베른트유다트,소냐바우더,안드레아스덴코브,니콜라이촐라코바,슬라브카
    • B01F3/08B01F7/00B01F15/06
    • B01F3/0811B01F3/0815B01F3/2215B01F7/0075B01F2003/0842B01F2003/0849B01F2215/0431B01F2215/0472C08J3/05C08J3/09
    • 본발명은실온을초과하는용융온도를갖는하나이상의물질을포함하는미립자현탁액을용융유화에의해제조하는방법으로서, 하기단계: (a) 하나의연속상 및하나의분산상을포함하는하나이상의사전유화액을회전자-고정자기계, 회전자-회전자기계, 또는연속및/또는분산상으로이동시키는단계; (b) 임의로하나이상의추가의성분을회전자-고정자기계내 하나이상의사전유화액에첨가하는단계; (c) 실온을초과하는용융온도를갖는물질이중합체인경우, 미립자유화액을생성하기위해, 실온을초과하는용융온도를갖는하나이상의물질의용융온도보다최대 10K 높은온도에서, 또는유리전이온도또는용융온도보다 10K 낮은온도이상이며상기유리전이온도또는용융온도보다 10K 높은온도이하인온도에서, 기계적전단및/또는신장및/또는난류를사용하여하나이상의사전유화액을유화시키는단계; 및 (d) 미립자유화액을냉각시켜미립자현탁액을제조하는단계를포함하고, 여기서분산상 부분이적어도단계 (c)에서 85% 내지 99.5%의범위인용융유화에의한미립자현탁액의제조방법에관한것이다.
    • 本发明中,制造的方法的步骤的一种微粒悬浮液,其包括具有超过室温的熔融温度到熔融乳液的至少一种材料:含有一个或多个预乳液(a)一种连续相和分散相 旋转电子定子机,转子 - 转子机或连续和/或分散相; (b)任选地将至少一种附加组分添加到转子 - 定子机器中的至少一种预乳液中; 如果将具有该材料的熔融温度超过室温的聚合物,以产生细颗粒的乳液,在高达10K以上具有超过室温,或玻璃化转变温度,或熔点温度的一种或多种材料的熔化温度的温度(℃) 10K或更低的温度比温度或玻璃化转变的熔化温度之上的温度高于10K的温度的步骤的熔融温度,使用机械剪切和/或伸长率和/或湍流以乳化该一个或多个预乳液; 并且(d)冷却颗粒乳液以产生颗粒悬浮液,其中在步骤(c)中分散相部分为至少85%至99.5%的一部分。