JPH02222898A - Contaminant removal using single cell green algae of clamydomonas genus from industrial waste water containing radioactive substances and others - Google Patents

Abstract

PURPOSE:To intend a highly effective removal of contaminants by providing a very fine filter unit, a nourishment injection room, a solar system to warm up treatment water at 20 to 38 deg.C and an incubator room for a single cell green algae of chlamydomonas, R. Sagar strain 95, and the like. CONSTITUTION:Waste water containing radioactive wastes and others passes through a very fine filter unit 1 and flows into a storage tank 2. Then the water passes through a nourishment injection room 3 where nourishments are injected, and is automatically given a lot of growth factors. Water is supplied to a solar system 4 by a pump and is kept its temperature at around 23 deg.C. During night time, warm water flowing out from the solar system 4 is automatically fed to four clamydomonas incubator rooms 5. The algae are separated from the water by a reverse flow filter unit 6 and the water is very firmly separated from all the suspended substances by a high performance fine filter unit 7 and thereafter enters a storage pond 8. Moreover, for using as drinking water, the water is treated by an ozone contacting device 9 and by a chlorine gas for pasteurization.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to an apparatus for removing pollutants from industrial wastewater containing radioactive substances and other substances.

[Prior Art] In most of the major industrial areas of the world, the treatment of wastewater containing radioactive materials has become one of the most troublesome problems. And as the population and technology increase and improve, it is rapidly becoming a crisis.

The current situation is that there is still no comprehensively desirable wastewater treatment.

The technology developed should facilitate widespread acceptance of the new technology and its cost should be commensurate with the effectiveness of wastewater treatment.

[Problems to be Solved by the Invention] The method and device for treating industrial wastewater containing radioactive substances and other substances according to the present invention are characterized by the vigorous reproductive ability of Chlamydomonas spp. It utilizes the sorption power of radioactive substances such as 228, thorium 230, and lead 210, as well as barium, lead, zinc, sulfate, magnesium, calcium, etc.), and is an innovative pollution solution that can handle any scale of wastewater volume. A method and apparatus for treating wastewater.

The unicellular green alga of the genus Chlamydomonas used in the present invention is Chlamydomonas reinhardi (Chlalyd.
omonas Re1nhardii), green algal web (Ch
lorophyceae, Pectinidae (Volv.
(ocales), stock name: Earl Sagger Strain 95
(R, Sager 5train95), a type of unicellular green algae with photosynthetic pigments and whip-shaped flagella;
CC No. 18302. Hereinafter, it will be abbreviated as Chlamydomonas.

[Means for Solving the Problems] The present invention provides an apparatus for removing pollutants from industrial wastewater containing radioactive substances and the like, which includes a microporous filter, a nutrient source injection chamber, and a temperature range of 20°C to 38°C for treated water. Chlamydomonas unicellular green algae with solar system for keeping warm
This is a device for removing pollutants from industrial wastewater, which is characterized by consisting of a sagger strain 95 growth chamber, a microporous or centrifugal filter, and an ozone contact device.

The method and apparatus for removing pollutants by pouring industrial wastewater containing radioactive substances into a culture tank for Chlamydomonas as described above according to the present invention is characterized in that Chlamydomonas has an extremely excellent ability to adsorb pollutants, and moreover, it can be used permanently. It is a system that takes advantage of proliferation.

[Effect] Chlamydomonas is extremely prolific under certain environmental conditions (nutrients, light, carbon dioxide, temperature), and when industrial wastewater to be treated passes through its suspension, single-celled algae can grow. Since the adsorption power of these pollutants is strong, they can be easily removed.

Examples will be described below, but the present invention is not limited thereto.

[Example] Example 1 Wastewater containing radioactive substances and other substances was carefully measured and placed in a 1-filter vessel (
300 μm mesh) and a nutrient injection system that injects the zero-order nutrient source into the reservoir where it is automatically provided with many growth factors. The water is pumped into a solar thermal unit and kept at 23°C. At night, hot water is automatically drained from the solar heating system and pumped into four algae reaction chambers.

The algae reactor allows three passes of wastewater.

Algae are separated from the water by a backflow filter. A high-performance filter ensures that all suspended matter is removed before the water enters the storage pond.

Household drinking water should be treated with ozone and chlorine gas for proper disinfection.

The collected algae is dried and then incinerated to recover polluting chemicals.

[Effects of the Invention] 1. Single-celled green algae of the genus Chlamydomonas can be produced without limit, and therefore sorption of resources can occur without limit.

2. If the concentration of pollutants is high, if necessary, fresh unicellular green algae of the genus Ramitomonas in the culture tank are grown for a certain period of time (usually 2
If you add a replacement device at 15 minutes, you can remove almost 100% of the radioactive contaminants from the song.

3. Radioactive substances in wastewater can be removed at an extremely low cost.

[Brief explanation of the drawing]

FIG. 1 is a flow sheet showing one embodiment of the present invention. 1... Micropore filter, 2... Storage tank,
3... Nutrient injection room, 4... Solar system, 5... Chlamydomonas growth room, 6...
... Backflow filter, 7 ... Micropore or centrifuge filter, 8 ... Storage pond, 9 ... Ozone contact device.

Claims (1)

[Claims] This equipment removes these pollutants from industrial wastewater containing radioactive substances and other substances, and is equipped with a microporous filter, a nutrient injection chamber, a solar system to keep the treated water at a temperature of 20°C to 38°C, and single-celled green algae of the genus Chlamydomonas. 1. A device for removing pollutants from industrial wastewater, characterized by comprising a growth chamber of R.Sager Strain 95, a microporous or centrifugal filter, and an ozone contact device.