Transparent photobioreactor for scale-up culture of photosynthetic organisms and method for fabricating the same

The invention claimed is: 1. A large-scale photosynthetic bioreactor comprising multiple photosynthetic bioreactor unit of which each is connected in series or in parallel by an adhesive, the photosynthetic bioreactor unit comprising: (a) a culture vessel in which the photosynthesis of photosynthetic organisms occurs; (b) a multi-purpose inlet/outlet unit formed at the outer lower end of the culture vessel; (c) an external tube disposed outside the culture vessel and connected to the multi-purpose inlet/outlet unit; (d) an internal tube disposed inside the culture vessel and connected to the multi-purpose inlet/outlet unit; and (e) one or more baffles disposed in the culture vessel, wherein the baffle has one to five channel holes formed on the surface thereof, and the culture vessel is made of a transparent film, and wherein the one or more baffles is a plate-shaped baffle comprising: a pair of first edges disposed in parallel with each other and attached to an internal surface of the culture vessel; and a pair of second edges disposed perpendicular to the pair of first edges, separated from the internal surface of the culture vessel, and exposed to an internal space of the culture vessel. 2. The photosynthetic bioreactor of claim 1 , further comprising a support formed at an upper end of the culture vessel. 3. The photosynthetic bioreactor of claim 1 , wherein the transparent film is selected from the group consisting of a low-density polyethylene (LDPE) film, a film formed from a mixture of polyethylene terephthalate (PET) and casting polypropylene (PET+CPP), a polyacetal (POM) film, a polycarbonate (PC) film, a polyester sulfon (PES) film, a polyethylene (PE) film, a polyvinyl chloride (PVC) film, a polyethylene terephthalate (PET) film, a polypropylene (PP) film, a polyphenylene oxide (PPO=PPE) film, and a film formed from a mixture of low-density polyethylene, polyethylene terephthalate and nylon 8. 4. The photosynthetic bioreactor of claim 1 , wherein the multi-purpose inlet/outlet unit is connected with a tube for performing a function selected from the group consisting of (a) introducing photosynthetic organisms and culture medium, (b) introducing a carbon dioxide-containing gas, (c) extracting a sample, and (d) discharging gases. 5. The photosynthetic bioreactor of claim 1 , wherein the internal tube is a four-way sparger for the introduction of a carbon dioxide-containing gas. 6. The photosynthetic bioreactor of claim 1 , wherein both side ends of the baffle are made of a polyethylene material. 7. The photosynthetic bioreactor of claim 1 , wherein both lower ends of the culture vessel are thermally bonded in an oblique direction. 8. The photosynthetic bioreactor of claim 1 , wherein the large-scale photobioreactor is configured to culture photosynthetic microorganisms with 500 to 1000 L of culture medium. 9. The photosynthetic bioreactor of claim 1 , wherein the adhesive is square shape, wherein length of the adhesive is twice of the photosynthetic bioreactor unit, and horizontal length of the adhesive is 10 to 20 cm, and wherein the adhesive is made of transparent film while both side ends of the adhesive are made of a polyethylene material. 10. The photosynthetic bioreactor of claim 1 , further comprising an auxiliary support installed at the lower end of the photosynthetic bioreactor.