Power plants – Utilizing natural heat – Solar
Reexamination Certificate
2002-01-15
2002-11-12
Nguyen, Hoang (Department: 3748)
Power plants
Utilizing natural heat
Solar
C060S651000, C060S671000
Reexamination Certificate
active
06477841
ABSTRACT:
This application is the National Phase of International Application PCT/IL00/00154 filed Mar. 14, 2000 which designated the U.S. and that International Application was published under PCT Article 21(2) in English.
TECHNICAL FIELD
The present invention is directed to a method for the conversion of solar energy stored by photosynthesis to electrical energy. More particularly, the present invention is directed to a method for the conversion of solar energy stored by photosynthesis to electrical utilizing a closed cycle power plant said method being based on the combustion of macroalgae with zero CO
2
, emission.
BACKGROUND ART
Many methods for tapping solar energy to produce power are known and used. The most popular are photovoltaics and solar thermals with optical concentration of solar light by means of parabolic troughs or dishes.
Due to a relatively low annular average of energy current density (solar irradiation), which in Central Europe is about 125 W/m
2
, Israel 250 W/m
2
and in the Sahara Desert about 290 W/m
2
, there is disadvantage in constructing a power plant utilizing the methods mentioned above. For example, the energy required for construction in cases of photovoltaics, having large surfaces covered by pure silicon, big troughs and heliostats as solar receivers is large with regard to the fuel requirements in the manufacturing and construction process. Such expenditure of energy can only be “regained” by the system after several years of use.
The book entitled “Energy and Energy Currents” by the present inventor, E. I, Iantovski, and published by Nova Science Publishers (1894), discloses the combustion of microalgae. However, the use of microalgae was deemed to fail, since it is detrimental to the turbines used within such a power plant.
In contradistinction to the teachings in said book, the present inventors have now found a way to convert solar energy into electrical energy in an efficient, high energy return process by utilizing a process including the combustion of macroalgae.
It is to be noted that the macroalgae (seaweed), as used in the present invention, is of significantly greater size than microalgae, and would be impossible for utilization in a power plant utilizing the microalgae mentioned above. Therefore, the present invention is also directed to a novel, method utilizing the same, which differs from the system described in said book, not only in the use of microalgae as opposed to microalgae, as taught and suggested therein, but also in the use of a different combustion system.
SUMMARY OF INVENTION
Thus, according to the present invention there is now provided a method for the conversion of solar energy stored by photosynthesis to electrical energy utilizing a closed cycle power plant comprising:
a) providing a body of water and introducing microalgae for growth therein; and
b) providing a fluidized bed combustion chamber for at least partial combustion of partially dried microalgae having a water content of up to 60% wt/wt, said combustion being carried out in an artificial atmosphere of oxygen and carbon dioxide.
In preferred embodiments of the present invention said microalgae have an average size of at least 5 micron; said atmosphere is substantially devoid of nitrogen; said combustion is carried out at a temperature of at least about 800° C.; and said combustion is carried out at a pressure of at least about atmospheric pressure, wherein ash from said combustion is recycled to said body of water to serve as nutrients for the growth of said microalgae.
In further preferred embodiments said artificial atmosphere is substantially devoid of nitrogen and produced by an air separation unit which removes nitrogen therefrom.
The present invention preferably also provides a method, wherein carbon dioxide produced from said combustion is recycled to said body of water for facilitating photosynthesis.
In preferred embodiments water is separated from said macroalgae before the combustion thereof, said water is utilized for carbon dioxide absorption and further directed to said body of water, and water is used to cool a steam condenser.
In further preferred embodiments the microalgae is selected from the group consisting of Gracillaria and Ulva.
In an even further preferred embodiment the gases produced from said combustion are used for heating steam within a Rankine steam power unit. In addition; gases produced from said combustion are used for vaporizing water within said fluidized bed.
In patent abstracts of Japan volume 015 no. 385 (C-0871) there is disclosed a closed cycle power plant for the conversion of solar energy stored by photosynthesis to electrical energy comprising a body of water for growing algae therein and a combustion chamber for at least partial combustion of dried algae, however, said publication does not teach or suggest the use of microalgae as opposed to the use of microalgae, does not teach or suggest the use of fluidized bed combustion chamber, does not teach or suggest the combustion of dried microalgae having a water content of up to 60% wt/wt and does not teach or suggest the carrying out of the combustion in an artificial atmosphere of oxygen and carbon dioxide.
As can be seen from the description hereinafter microalgae is easy to cultivate and burn in an efficient fluidized bed combustor in contrast to microalgae which is impossible to burn in a fluidized due to its small particle size and low fluidization gas velocity. Furthermore, the relatively high water content of up to 60% is possible in the method of the present invention which utilizes an artificial atmosphere of oxygen and carbon dioxide since there is no ballast in the system such as nitrogen in the presence of which drying of algae would utilize too much energy decreasing efficiency. In addition, the lack of nitrogen in the exhaust gas provides the ability to absorb the total flow of CO
2
resulting in a zero emission process which does not require a chimney or stack since all the oxygen is used for vaporizing water within said fluidized bed and all of the carbon dioxide is absorbed in the photosynthesis process.
In another aspect of the invention, said combustion chamber is a fluidized bed-type gasifier and said microalgae undergoes partial combustion and gasification in said fluidized bed gasifier and gasification products from said gasifier are used to power a piston engine or a gas turbine.
The principal aim of the present invention is a power plant having a unique solar energy receiver. This receiver will be in the form of a pond for growing seaweed.
The conversion of the solar radiation is realized through the photosynthesis reaction. This reaction uses the solar energy to convert carbon dioxide and water into organic matter and oxygen:
CO
2
+H
2
O+hv→CH
2
O+O
2
The carbon dioxide from the combustion reaction is first diluted in the water and then sent to the pond to feed the algae. The lower heating value of this organic matter, which is mainly formaldehyde, is around 19 yMj/kg. This value is high enough for combustion. The main problem is that the organic matter must be strongly diluted in water in order to grow, for instance having an organic matter:fluid ratio of 1:1000. This means that the combustible organic matter must be extracted from the pond and at least partially separated from the fluid. A fuel separation unit (FSU) can be used for this purpose.
As mentioned above a preferred seaweed according to the present invention is a Gracillaria seaweed. This seaweed, which is also grown in northern Israel, can achieve an average growth rate of about 8 kg/m
2
/year.
The Ulva seaweed is a further preferable option and may reach a higher growth rate than the Gracillaria seaweed.
As will be realized, a major advantage of the power plant of the present invention is that it produced energy without pollution, in that there is no CO
2
emission to worsen the global greenhouse effect.
The energy current density in the pipe from the algae pond to the power plant, which is about a 100 times more than that obtained by optical concentration is
Morgan & Lewis & Bockius, LLP
Nguyen Hoang
Solmecs (Israel) Ltd.
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