DE202008005412U1 - Culture device for oily microalgae - Google Patents

Abstract

Cultivator of oily microalgae, with:
- A container in which a culture liquid is to cultivate the oily microalgae, wherein the container is at least one inlet tube and an outlet tube;
- a transparent container in which LEDs are located, as well as
- At least one solar power unit, which is electronically connected to the LEDs.

Description

The The present invention relates to a culture apparatus for oily microalgae, in particular a device with that with a solar power unit and a LED oily microalgae can be cultivated.

Because the oil deposits worldwide, the price of oil will rise more and more, and according to the "Kyoto Protocol", greenhouse gas emissions need to be reduced worldwide as soon as possible Forms of energy are found. These forms include the Water, fire, wind, tidal, geothermal, solar, nuclear, Energy from biomass, etc. The energy from biomass includes biochemical Diesel, hydrogen or alcohol, etc. as fuel, the biochemical diesel a big one Has potential.

at Energy production from biomass is that of an organism produced organic substance used directly or after conversion as energy becomes. Because it is regenerable and the formation of carbon dioxide is reduced, it has a great potential. The energy From biomass is usually obtained from plants that are constantly sun absorb and produce organic substances. Finally, walk the organic substances turn into biomass energy. As long as it is So plant seeds and sunshine can be made from biomass Energy can be gained.

Because The energy from biomass is extracted from plants that grow during the Absorb growth carbon dioxide. The amount of carbon dioxide that emitted in the use of biomass is less than the amount of carbon dioxide released by the plants during the Growth for the Photosynthesis is absorbed. This reduces the concentration of carbon dioxide in the atmosphere despite the use of energy from biomass. Furthermore, that can Carbon dioxide in the air can still be reduced, which also causes the Greenhouse effect can be reduced.

microalgae are one of the energy sources of biomass with great potential. The report of the American Energy Agency states that the converted biochemical diesel made from oils consists of algae, the needs of the diesel on the American market completely can satisfy. Nannochloropsis oculata is one of the oily microalgae. While of growth she takes for The photosynthesis of carbon dioxide turns it into a chemical Connect and save them. These are in particular around oil. Nannochloropsis oculata thus has the specific property of producing a lot of oil and save. This oil can Extract from the alga and use as a source of biochemical diesel.

One open, flat culture pond for Algae needed a lot of land with big ones Area, to get enough sunshine, which is why the development is currently the algae still limited is. And if the cultural pond is too deep, the sun's rays arrive not deep enough so that the algae are at the bottom of the pond can not absorb enough sunlight. The algae in this pond can not be fully mixed, so the culture rate is reduced.

Therefore It is the object of the present invention, a culture device for oily microalgae offering low cost, little space, Reduces air pollution and produce oily microalgae Can be used, the more oil produce.

Around to improve the above-described defects of the conventional culture apparatus, the inventor has based on his experience and after a long time Research work a culture device for oily microalgae invented, which has a low cost, takes up little space, reduces air pollution and uses it to produce oily microalgae that can be more oil produce.

The The main object of the present invention is to provide of a culture device for oily microalgae, where there is a solar power unit and the LED and causes the LED with the o generated by the solar power unit the culture device low cost, it takes up little space, the air pollution is reduced and the oily Microalgae can more oil produce.

Around To achieve the above object, there is the culture apparatus for oily microalgae according to claim 1 from a container, in which the culture fluid located with the oily Microalgae are cultivated. The container is at least one Inlet pipe and an outlet pipe and a transparent vessel in which the LEDs are located and at least one solar power unit, which is electronically connected to the LED.

The transparent vessel is a Cylinder with an opening, wherein the solar power unit covers this opening. The solar power unit is a solar panel, and the LEDs are red or teal. The wavelength of the red light is between 630 and 675 nanometers and the wavelength of the blue-green Light is between 450 and 475 nanometers.

Thus, the oily microalgae culture apparatus of the present invention has a low cost, takes little space, and reduces the air Pollution and the oily microalgae can produce more oil.

Around Object of the invention, technology and function better and more detailed To illustrate, we have the following preferred embodiment attached figures.

1 shows the representation of the preferred embodiment of the present invention.

2 shows the representation of the lighting part of the preferred embodiment of the present invention.

3 shows the section of the lighting part of the preferred embodiment of the present invention.

In the pictures 1 to 3 For example, the preferred embodiment of the present invention, as well as the illumination portion of the present invention, will be illustrated as a whole and in section. It can be seen from the figures that the oily microalgae culture apparatus of the present invention consists of the following parts: 1 ), a transparent vessel ( 2 ), the LED ( 4 ) and at least one solar unit ( 3 ). There is a culture fluid ( 11 ) in the container ( 1 ) to the oily microalgae ( 12 ) and on the container ( 1 ) there is at least one inlet pipe ( 13 ) and an outlet tube ( 14 ). Through the inlet pipe ( 13 ) carbon dioxide and other nutrients can be introduced, and from the outlet pipe ( 14 ), the old culture fluid can be omitted. In the transparent containers ( 2 ) are the LEDs ( 4 ). The transparent vessel ( 2 ) can be a transparent cylinder. The solar power unit ( 3 ) can be a solar power plate with the LED ( 4 ) is connected in series (or parallel). The transparent vessels ( 2 ) dive into the culture fluid ( 11 ) one. The LED ( 4 ) emit red or blue-green light. The wavelength of the red light is between 630 and 675 nanometers, the wavelength of the blue-green light is between 450 and 475 nanometers. In this light, the oily microalgae ( 12 ) a better photosynthesis.

The main part of the lighting part of the culture apparatus of the oily microalgae of the present invention consists of the long, narrow and transparent vessels ( 2 ) and several LEDs ( 4 ). They can be distributed regularly in every direction in every shift. The solar power unit ( 3 ) is electronic with the LED ( 4 ), the long, narrow and transparent vessels ( 2 ) dive into the culture fluid ( 11 ) one. The solar power unit ( 3 ) absorbs the solar radiation and supplies the generated electricity with the LED ( 4 ) to light the LED. This is a photosynthesis of oily microalgae ( 12 ) in both the upper and lower regions of the container ( 1 ) possible. The long, narrow transparent vessels ( 2 ) dive vertically into the culture fluid ( 11 ), so that the oily microalgae ( 12 ) can also absorb light in the lower area and use it for photosynthesis. In this way, little space is required, but it can be more oily microalgae ( 12 ) to grow. In addition, the costs of production and pollution can be reduced by using the solar power unit ( 3 ) is supplied. In addition, since the oily microalgae culture apparatus of the present invention uses carbon dioxide as a nutrient, not only the oily microalgae ( 12 ) but also reduces carbon dioxide in the atmosphere, reducing air pollution. Furthermore, the life of the LED ( 4 ), and when the brightness of the illumination with the LED ( 4 ), the growth of oily microalgae ( 12 ).

The The present invention consists inter alia of the solar power unit and the LED, with the LED passing through the solar power unit generated energy is. As a result, the culture device generates low Cost, takes up little space, reduces air pollution and can be more oily microalgae produce. In terms of usability in the industry, so can The present invention meets the needs of the market.

1

container

11

culture fluid

12

Oily microalgae

13

inlet pipe

14

outlet pipe

2

transparent vessel

3

Solar power unit

4

LED

Claims (8)

Kulturgerät the oily one Microalgae, with: - one Container, in which there is a culture fluid, around the oily ones Cultivating microalgae, wherein at least one inlet tube on the container and an outlet tube is located; - a transparent container in which there are LEDs, as well - at least a solar power unit that is electronically connected to the LEDs is. Kulturgerät for oily microalgae according to claim 1, wherein the transparent vessel is a transparent cylinder can be. Culture device for oily microalgae after An Claim 1, wherein the solar power unit may be a solar power plate. Kulturgerät for oily microalgae according to claim 2, wherein the solar power unit is a solar power plate can be. Kulturgerät for oily microalgae according to claim 1, wherein the LEDs emit red or blue-green light. Kulturgerät for oily microalgae according to claim 5, wherein the wavelength of the red light is between 630 and 675 nanometers and the wavelength of the blue-green light between 450 and 475 nanometers. Kulturgerät for oily microalgae according to claim 4, wherein the LED emit red or blue-green light. Kulturgerät for oily microalgae according to claim 7, wherein the wavelength of the red light is between 630 and 675 nanometers and the wavelength of the blue-green light between 450 and 475 nanometers.