KR860000441Y1 - Collecting device of chlorolella - Google Patents

Abstract

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Description

Chlorera Harvesting Device

1 is a perspective view of a partial incision of the present invention

2 and 3 are enlarged cross-sectional views of terminals used in the present invention.

Figure 4 is a schematic diagram of the use state of the present invention.

* Description of the main parts of the drawings

1: enclosure 2: distribution pipe

3a: positive line 3b: negative line

3, 3 ': terminal S: spacing

4: switch box 5: positive lead

6: cathode wire

This high stage relates to a chlorera harvesting apparatus for harvesting pure high-quality chlorera by separating chlorella (green algae) cultured in a culture tank with a culture medium easily.

Conventionally, two methods of harvesting cultivated chlorera are generally used. One of them is to add a solution of alum (alum) into a sedimentation tank transferred from a chlorera culture tank to coat chlorera particles with alum. When the particles aggregate and precipitate, the water is discharged and the precipitated chlorera concentrate is harvested.

1) Since alum coated with chlorella particles is not completely washed, harmful alum loses its value.

2) When alum is added to sedimentation tank, other harmful E. coli and bacteria coagulate at the same time and are harvested together with chlorera particles.

3) The fresh water must be replenished in the sedimentation tank every time it is harvested, which requires a lot of water, personnel and time, and many other defects. Another method is to rotate the culture medium of the culture tank by centrifugal centrifugal force. Water is discharged to the outside and the remaining chlorera deposits are harvested.

1) The installation cost is huge because several machines are required

2) Despite the high power consumption, there is an irretrievable loss of less than 3 microns (μ) of chlorera particles,

3) There were many waste stages such as extra unnecessary process to produce the powder hardened by the rotating pressure.

The present invention was devised to solve the above-mentioned drawbacks. In the process of transferring chlorera culture solution from the culture tank, the chlorera exerts an electric shock on the particles by using the chlorera incubator as a direct current or the frequency of the chlorella activity. It is possible to harvest the pure shepherd chlorera by temporarily stopping, so that the conventional waste is eliminated. The spirally wound distribution pipe (2) inside the enclosure (1) is laminated in multiple layers to inject the inlet (2 ') and the outlet (2 ") up and down, and the positive and negative wires (3a) and cathode rays inside the distribution pipe (2). Several positive electrode wires 5 drawn out of the switch box 4 formed at the upper end of the enclosure 1 by embedding several terminals 3, 3 'with a predetermined spacing S at a predetermined interval S. And the negative electrode wire 6, respectively.

In the drawings, reference numeral 7 denotes a culture tank and 8 denotes a precipitation tank. In this manner, a large number of terminals 3 and 3 'installed in the distribution pipe 2 with the anode wire 3a and the cathode wire 3b at regular intervals S inside the distribution pipe 2 50V in which a couple of pairs are connected to the switch to the positive and negative wires (5) and (6) drawn out from the switch box (4), and the power supply is an alternating current (AC100V) using a refinery pipe (uncharted). Use a voltage of -200V.

As shown in FIG. 3, the terminals 3 and 3 'may use a rather strong voltage by branching the anode line 3a and the cathode line 3b embedded in the distribution pipe 2 into several lines. It is preferable to mix and install the terminals 3 and 3 'as shown in FIGS. 2 and 3 on the flow pipe 2, and the number is preferably measured by the user experimentally and arbitrarily determined the appropriate number. And the distribution pipe (2) should be used as a synthetic resin pipe that is sectioned to block the flow of current to the outside,

In carrying out the present invention as shown in FIG. 4, the inlet 2 'and the outlet 2 "are installed between the culture tank 7 and the precipitation tank 8, and the culture tank 7 and the precipitation tank 8 are installed. Connect each of them and pass the culture solution of the culture tank (7) through the distribution pipe (2) to flow out to the settling tank (3). When the switch is operated, the anode line (3a) and the cathode line (3b) of the terminal (3) (3 ') Since this current flows, when the telephone body (derivative body) contacts the gap S between the anode line 3a and the cathode line 3 ', an electric current is conducted and an impact phenomenon occurs.

Therefore, when the culture solution of the culture tank (7) flows into the distribution pipe (2), and various inorganic salts contained in the remainder of the incubator become a telephone body and come into contact with the terminals (3) (3 '), current is conducted and an impact phenomenon occurs. Rera particles are shocked and temporarily become anesthetized and stop working.

In detail, since various inorganic salts contained in the remainder of the incubator are inverted bodies (derivatives), ionization occurs due to electrolysis when passing through terminals (3) and 3 '. Temporarily stops the activity under the impact and the movement of the bubbles chlorera particles are aggregated between the particles and the weight is increased, so that they are precipitated when passed through the distribution pipe (2) to the settling tank.

In this way, when chlorera particles are precipitated, the remaining water becomes clean, uncontaminated water, so that the foreign matters are used again in the culture tank, and the chlorera that is precipitated and immediately cultured can be harvested. will be.

Thus, according to the present invention, a large amount of chlorera per unit area can be harvested by temporarily stopping the chlorella due to electric shock, and the culture solution is ionized due to electrolysis. The incubator dose is greatly reduced and the absorption of the inorganic salts of the incubator is quick and easy to install at low cost, and thus does not require much electricity as in the prior art and does not require a separate management agent.

Claims (1)

The spirally wound distribution pipe (2) inside the enclosure (1) is laminated in multiple layers to inject the inlet (2 ') and the outlet (2 ") up and down, and the positive and negative wires (3a) and cathode rays inside the distribution pipe (2). Several positive electrode wires 5 drawn out of the switch box 4 formed at the upper end of the enclosure 1 by embedding several terminals 3, 3 'which are laid out at a predetermined interval S at 3b. Chlorera harvesting device is connected to each and the cathode wire (6).