Vegetable alga and microbe photosynthetic reaction system and method for the same

Abstract

A vegetable alga and microbe photosynthetic reaction system and method for the same is used for vegetable algae and microbe cultivation liquid and algae seeds infused herein to circularly conduct photosynthesis and discharge oxygen; the vegetable alga and microbe photosynthetic reaction system comprises a photosynthetic reaction unit, a pressure liquid infusion unit, and an oxygen discharge and regulation unit; the photosynthetic reaction unit is a light permeable pipeline; the oxygen discharge and regulation unit is assembled with an oxygen discharge can, a liquid collection can, and a regulation can for facilitating production and assembly, and many oxygen discharge points so that oxygen formed in the cultivation liquid can be quickly evaporated.

Description

BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] This invention relates to a photosynthetic reaction system and a method for the same and particularly relates to a vegetable alga and microbe photosynthetic reaction system and a method for the same. [0003] 2. Description of Related Art [0004]Spirulina, a blue-green alga, is high in protein, minerals and fermenting organisms that are beneficial to human health. It is widely recommended as a part of a healthy diet. Through a photosynthetic reaction system, a cultivation liquid for spirulina can be added into the growing environment so that enough photosynthesis occurs to supply ample nutrients to the cells of the algae. Oxygen can then be evaporated from the cultivation liquid so that the spirulina may grow and multiply in large quantities. [0005] A conventional photosynthetic reaction system for spirulina uses a large, open-air cultivation pond. The cultivation liquid for spirulina is contained in the cultivation po...

AI Technical Summary

Benefits of technology

[0009] This invention provides a vegetable alga and microbe photosynthetic reaction system and method for the same so that the system occupies less area, consumes less power, works without weather restrictions, and, especially, prevents the alga from being polluted whilst maintains a high quality of alga.

[0010] This invention secondly provides a vegetable alga and microbe photosynthetic reaction system and method for the same so that the oxygen formed in the cultivation liquid is quickly evaporated to maximize production efficiency and aid the process of industrialized mass production.

[0011] This invention further provides a vegetable alga and microbe photosynthetic reaction system and method for the same in which the production process and assembly of the necessary machinery are simple and the system is not easily damaged, thereby lowering costs.

Problems solved by technology

However, the cultivation pond requires a large area, consumes lots of energy, and the photosynthetic reaction is often affected by the weather.

Pollution also affects the outcome, decreasing the algae's quality.

As such, the prior art method for producing the spirulina has many drawbacks for producers.

Industrialized mass production of the photosynthetic reaction for spirulina is not recommended because the reactor faces many problems such as a complicated production process, high costs, fragility, difficulties in extracting the oxygen, difficulties in controlling the temperature of the cultivation liquid, and difficulties in maintaining the cleanliness and functioning of the reaction tower so as to avoid affecting the photosynthetic reaction and impacting upon the quality of the algae.

Indeed, as can be understood from a reading of the description above, a further improvement is obviously required for the conventional photosynthetic reaction system for spirulina as it is obviously inconvenient and imperfect.

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