摘要:
The present invention provides an epoch-making fluid reforming device which requires a small installation site, avoids clogging of pipes, allows uniform on-site adjustment, does not use chemicals or minimizes chemicals ii any, enables germ treatment, and purifies and reforms every fluid including water. The fluid reforming device has (a) a container for fluid reforming having an inlet for introducing an unpurified fluid and an outlet for discharging a purified fluid; (b) a pair or a plurality of pairs of AC application electrodes stored in the container; (c) a cylindrical ground electrode surrounding the AC application electrodes; (d) a polarity switching circuit connected to the AC application electrodes for switching the polarities of the pair of electrodes; and (e) a constant current supply having a current detector for detecting current flowing between the AC application electrodes in fluid reforming, the constant current supply keeping a current value detected by the current detector constant.
摘要:
The present invention provides an epoch-making fluid reforming device which requires a small installation site, avoids clogging of pipes, allows uniform on-site adjustment, does not use chemicals or minimizes chemicals ii any, enables germ treatment, and purifies and reforms every fluid including water. The fluid reforming device has (a) a container for fluid reforming having an inlet for introducing an unpurified fluid and an outlet for discharging a purified fluid; (b) a pair or a plurality of pairs of AC application electrodes stored in the container; (c) a cylindrical ground electrode surrounding the AC application electrodes; (d) a polarity switching circuit connected to the AC application electrodes for switching the polarities of the pair of electrodes; and (e) a constant current supply having a current detector for detecting current flowing between the AC application electrodes in fluid reforming, the constant current supply keeping a current value detected by the current detector constant.
摘要:
The present invention provides ballast water treatment equipment which can decompose fungicide included in ballast water and reduce the amount of use of fungicide adsorbing material by passing through the ballast water.The ballast water treatment equipment for supplying ballast water to a ballast tank through a fungicide adding device, comprises: a shear flow generator put in an intake pipe from an intake opening to the ballast tank, and receiving ballast water from a high pressure pump; and a swirl flow generator connected to downstream of the swirl flow generator with a connecting pipe; wherein the shear flow generator has one or more venturi tubes with recesses arranged in parallel; each the venturi tube with recess comprises an inlet side cross-sectional area reducing part gradually decreasing sectional area along a flow direction; an outlet side cross-sectional area enlarging part put in downstream of the inlet side cross-sectional area reducing part, and increasing cross-sectional area along the flow direction; a throat put between the inlet side cross-sectional area reducing part and the outlet side cross-sectional area enlarging part; and a shear flow generating recess opening to the throat; wherein the swirl flow generator has a cylinder being aslant connected the connecting pipe of the shear flow generator to its outer lateral surface; and a diffuser pipe having an inner circumference surface increasing cross-sectional area along the flow direction and connected to the fungicide adding device through an intake pipe.
摘要:
The present invention provides ballast water treatment equipment which can decompose fungicide included in ballast water and reduce the amount of use of fungicide adsorbing material by passing through the ballast water.The ballast water treatment equipment for supplying ballast water to a ballast tank through a fungicide adding device, comprises: a shear flow generator put in an intake pipe from an intake opening to the ballast tank, and receiving ballast water from a high pressure pump; and a swirl flow generator connected to downstream of the swirl flow generator with a connecting pipe; wherein the shear flow generator has one or more venturi tubes with recesses arranged in parallel; each the venturi tube with recess comprises an inlet side cross-sectional area reducing part gradually decreasing sectional area along a flow direction; an outlet side cross-sectional area enlarging part put in downstream of the inlet side cross-sectional area reducing part, and increasing cross-sectional area along the flow direction; a throat put between the inlet side cross-sectional area reducing part and the outlet side cross-sectional area enlarging part; and a shear flow generating recess opening to the throat; wherein the swirl flow generator has a cylinder being aslant connected the connecting pipe of the shear flow generator to its outer lateral surface; and a diffuser pipe having an inner circumference surface increasing cross-sectional area along the flow direction and connected to the fungicide adding device through an intake pipe.