Research & Reviews: Journal of Microbiology and Biotechnology
MenuE- ISSN: 2320 - 3528
P- ISSN: 2347 - 2286
E- ISSN: 2320 - 3528
P- ISSN: 2347 - 2286
Meysam Jamshasb*, Mahdi Charkhian, Hamed Karamat, Mehran Amir Javid, Selda Goharkhany and Hamed Charkhian
Payame Noor University, Iran Urmia University College of Science and Technology, Iran Islamic Azad University, Urmia, Iran
ScientificTracks Abstracts: RRJMB
The energy crisis is one of the undesirable consequences of population growth and development of industrial life due to the increase in energy consumption and the reduction of cheap traditional resources. Providing lighting for cities, roads, and recreational, commercial, and residential areas consume a significant part of the energy produced through non-renewable sources. Energy security and access to stable and clean energy sources as a necessity are the basic priorities of different human societies. In recent years, scientists have proposed algae as one of the potential energy options. These microorganisms can produce O2 and fuel by consuming Co2 and receiving sunlight during photosynthesis. Luminescent nano-materials are another interesting option to provide lighting without consuming common energy. They reflect more light compared to the amount of visible light they receive. In this study, for the first time, the potential of combining these two clean and sustainable options for producing light for public and private passages and spaces, under the title "green light", is proposed. In this paper, the algae are inoculated in a transparent cylindrical aquarium with Seawater (salt water). The electrons released from these algae during photosynthesis are absorbed by the electrons of the cathode and anode electrode plates and are converted into energy, then stored by lithium batteries to turn on Energy saving light bulbs. In addition, the bioluminescent algae can produce light in the night. Another part of this cylindrical aquarium, there are two luminescent nano-materials plates that absorb visible light during the day and illuminate the environment after dark. In addition to lighting, "Green Lamps" can reduce Co2 as a greenhouse gas, and increase the amount of O2.
Meysam Jamshasab was born on January 24, 1992, in Shot/Iran. He studied the bachelor's degree in chemical engineering from Payam Noor University in Urmia. From the beginning of entering the university, he got acquainted with nano-materials, and by establishing a research company, he started analyzing nano-materials and achieved great achievements. He had 4 years of management experience in the clothing and textile industries, complete expertise in clothing production and management, and also management experience in leather manufacturing in my portfolio. In his latest achievement in this industry, he was able to use luminescent nano materials combine natural leathers and achieve the desired result that can be mass-produced. He is interested in using new sciences and technologies that do not pose any danger to humans and other creatures of this earth, and the combination of these new sciences with manufacturing industries will create a new revolution in the field of energy, that's why. One of his goals is to achieve completely clean lamps with high lighting power.