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Process for production of hydrogen from anaerobically deomposed organic materials

a technology of anaerobically decomposed organic materials and production process, which is applied in the direction of electrostatic charge, inorganic chemistry, electrical apparatus, etc., can solve the problems of simple production process, consumption of fossil hydrocarbon fuel, and inability to produce hydrogen by electrolysis of water, so as to achieve low electric potential, increase the effect of rate and decrease the tim

Inactive Publication Date: 2007-03-15
WORLD HYDROGEN ENERGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Benefits of technology

[0016] This invention relates generally to a process which produces hydrogen from anaerobically decomposed organic materials such as anaerobically composted cellulosic materials and anaerobically digested sewage sludge. This process decreases the time required to treat anaerobically composed cellulosic materials and anaerobically digested sewage sludge. More specifically, the invention relates to an embodiment wherein a relatively low electric potential is applied to anaerobically decomposed organic materials such as anaerobically composted cellulosic waste materials and anaerobically digested sewage sludge which, as a result of anaerobic decomposition, have been fermented into “volatile” carboxylic acids such as acetic acid and bicarbonates of ammonia. The electric current resulting from the application of an electric potential is believed to hydrolyze the acetic acids, other volatile carboxylic acids, and bicarbonates of ammonia within the decomposed materials, thereby producing hydrogen. Formation of methane is suppressed, Organic mass, such as solids contained within sewage sludge is reduced at an increased rate, and the time required to treat waste materials such as sewage sludge is thereby reduced.

Problems solved by technology

Steam-reformation of hydrocarbons and partial oxidation of coal are disadvantageous in that fossil hydrocarbon fuels are consumed.
Production of hydrogen by electrolysis of water, a relatively simple and non-polluting process, is costly and therefore economically disadvantageous for most industrial applications because the amount of energy needed for electrolysis of water exceeds the energy obtained from the combustion of the resulting hydrogen.
Photovoltaic methods of hydrogen production have inherent inadequacy related to access to solar radiation for much of the world's population.

Method used

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  • Process for production of hydrogen from anaerobically deomposed organic materials
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  • Process for production of hydrogen from anaerobically deomposed organic materials

Examples

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example 1

[0045] As an experimental control, freshly obtained sewage sludge in an 800 ml flask was placed at 37° C. in an incubator gases, including primarily methane, were produced as described at Table 1 and depicted at FIG. 3.

TABLE 1Production of CH4 and CO2DAYS% CH4% CO2% N2165305270255370255465304560354655405

example 2

[0046] Sewage sludge from the primary digester was placed in an 800 ml flask which was then placed in a preheated incubator at 37° C. Methane gas was generated. As soon as optimum production of methane was achieved, a current was passed through the liquid in the flask. The production of methane gas declined gradually and hydrogen and carbon dioxide were produced. Methane was completely suppressed when production of hydrogen reached its peak, as described at Table 2 and depicted at FIG. 4.

TABLE 2Production of H2 and Suppression of CH4DAYS% CH4% CO2% H216035—27025— 3*45252042528465530606TR3068

*As and when current was passed.

example 3

[0047] Sewage sludge from the primary digester was placed in an 800 ml flask which was then placed in an incubator at 37° C. A current was passed through the sludge, applying 3 volts, using the two 1.5 volt batteries in series. Very little methane was produced at the beginning. Within 3 days, production of hydrogen reached its peak and methane gas was virtually totally suppressed, as described at Table 3 and depicted at FIG. 5.

TABLE 3Production of H2 and CO2 When Voltage WasApplied From the StartDAYS% H2% CO2% N2% CH41652528270252TR370188TR470208—568254—

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Abstract

A process for the production of hydrogen from anaerobically decomposed organic materials by applying an electric potential to the anaerobically decomposed organic materials, including landfill materials and sewage, to form hydrogen, and for decreasing the time required to treat these anaerobically decomposed organic materials. The organic materials decompose to volatile acids such as acetic acid, which may be hydrolyzed by electric current to form hydrogen. The process may be continuously run in sewage digestion tanks with the continuous feed of sewage, at landfill sites, or at any site having a supply of anaerobically decomposed or decomposable organic materials.

Description

[0001] This application is a Continuation-In-Part of patent application Ser. No. 08 / 659,644 now U.S. Pat. No. 6,090,266.BACKGROUND OF THE INVENTION [0002] It is recognized that additional sources of energy are needed for sustained industrial growth. There exists an ever present danger in depending too heavily on fossil fuels. Fossil fuels (hydrocarbons) represent a limited supply of stored energy which are typically released during a combustion process. By burning hydrocarbons mankind has spewed billions of tons of toxic pollutants into the atmosphere. It therefore makes sense from both an environmental and economic standpoint to develop alternative sources of renewable fuels. [0003] Hydrogen is a fuel which does not produce pollutants, water being its only combustion product. Hydrogen has many industrial uses in the production of fertilizers, dyes, drugs, plastics, hydrogenated oils and fats and methanol and is used in many industries. It is also used as a rocket fuel and in this i...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): H05F3/00C01B3/32C01B3/34C12P3/00C25B1/02
CPCC01B3/32C01B3/342C12P3/00Y02E60/366C25B1/04Y02E50/343C25B1/02Y02E50/30Y02E60/36Y02P20/133
Inventor ROYCHOWDHURY, SUKOMAL
Owner WORLD HYDROGEN ENERGY