Porphyra suspended filamentous form cell ripening accelerating device and method
A technology of filaments and cells, applied in tissue cell/virus culture devices, biochemical equipment and methods, biochemical instruments, etc., can solve the problem of affecting the normal operation of seedlings, difficult to naturally mature and release conchospores, and unsatisfactory Production needs and other issues, to achieve the effect of easy installation, low cost and obvious effect
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Embodiment 1
[0014] Such as figure 1 As shown, the device of the present invention is composed of four parts: a flushing bag, an overflow bucket, a water pump and a water return tank. The flushing bag 5 is cylindrical, with a diameter of 30 cm and a height of 40 cm. 60cm, 80cm high plastic bucket, the mouth of the bucket is the overflow. The small submersible pump 3 is equipped with a 32mm inner diameter hose 4 to discharge water to impact the cells, with an hourly flow rate of ≥3t and a lift of ≥5m (in this embodiment, an hourly flow rate of 4t and a lift of 6m), and the model is not limited. The backwater tank is deep ≥ 40cm (the depth of the backwater tank in this embodiment is 40cm), and the area is not limited. When picking seedlings, each flushing bag 5 accommodates 150 to 450 grams of filamentous cells (300 grams in this embodiment), and is arranged in the overflow bucket 8. Inject 30cm deep clean filtered seawater into the water. The number 2 among the figure is the liquid level...
Embodiment 2
[0019] The difference from Example 1 is that it is used for the smaller-scale seedling picking test:
[0020] Its device: the overflow bucket 8 is a diameter of 40cm, a plastic bucket of high 60cm, and the mouth of the bucket is the water overflow. The small submersible pump 3 is equipped with a 32mm inner diameter hose 4 to discharge water to impact the cells, with a flow rate of 3t per hour and a return tank depth of 40cm. Each flushing bag 5 accommodates 100 grams of filamentous cells when picking seedlings, and is arranged in the overflow bucket 8, and the top of the flushing bag 5 is higher than the overflow opening 15cm, and injects 30cm deep clean filtered seawater in the backwater tank 1.
[0021] Its method: every evening (this embodiment is 20 o'clock in the afternoon) starts submersible pump to make the cells under the 5 bag bodies of the flush water bag keep the state of constantly rolling all night under the impact of the water flow, and finish flushing at 4 o'clo...
Embodiment 3
[0023] The difference from Example 1 is:
[0024] Its method: start the submersible pump every evening (this embodiment is 18 o'clock in the afternoon) to make the cells under the 5 bags of the flushing bag keep the state of constantly rolling all night under the impact of the water flow, and finish flushing at 8 o'clock in the morning. The water flow rate is controlled at 6 tons per hour. After 3 days of continuous operation, it lasts for 12 hours. The cells enter the mature release state for 3 days. The total amount of spores released per gram of cells reaches 35 million spores.
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