System and method for atmospheric carbon sequestration

Abstract

This invention relates to systems and methods for converting biomass into highly inert carbon. Specifically, some embodiments densify the carbon into anthracite-style carbon aggregations and store it in geologically stable underground deposits. The use of certain embodiments yield a net effect of removing atmospheric carbon via the process of photosynthesis and converting it into hard coal, which can be stored in underground beds that mimic existing coal deposits which are known to be stable for thousands of years.

Description

REFERENCE TO RELATED APPLICATIONS[0001]This application is a divisional application of U.S. patent application Ser. No. 12 / 651,938 filed Jan. 4, 2010, which claims priority to U.S. Provisional Patent Application No. 61 / 143,518 filed Jan. 9, 2009, the contents of which are incorporated herein by reference in their entireties.FIELD OF THE INVENTION [0002]The present invention is directed towards carbon sequestration, and more particularly, some embodiments of the invention provide systems and methods for converting biomass into highly inert carbon for long-term storage.DESCRIPTION OF THE RELATED ART [0003]Global warming is one of the top issues of the early 21st century. Several billion tons of fossil fuels are burned worldwide each year. The vast majority of the scientific community believes that about half the carbon from the burning of fossil fuel remains in the atmosphere for at least hundreds of years. Ice core samples indicate that the atmospheric CO2 level has been relatively s...

AI Technical Summary

Benefits of technology

[0011]The invention is directed toward systems and methods for producing highly inert carbon via various pyrolysis products of biomass, in order to address the atmospheric concentration of CO2 and either reduce or balance it against increased fossil fuel carbon emissions.

Problems solved by technology

There is also some evidence that natural sinks for about half of the CO2 that is emitted from fossil fuel are starting to saturate due to the increasing CO, concentration or are losing their effectiveness due to global temperature rise.

Consequently, scientific projections of future atmospheric CO2 levels from just a decade ago substantially underestimate the current rate of increase of atmospheric CO2.

Currently, humanity is not removing any significant amount of atmospheric carbon for long-term storage to offset the large amount Of carbon dumped in the atmosphere by fossil fuel burning.

This, however, is not a truly carbon sequestration process because it actually produces more fossil fuel.

In addition, the effects of massive amounts of deep CO2 injection are unknown and may produce highly undesirable side effects.

Accordingly, with its increased ability to dissolve substances, it is likely that supercritical CO2 injection will not remain stable for geological period.

However, such a proposal requires huge quantities of suitable minerals to directly neutralize atmospheric CO2.

In the case of calcium oxide, most of the world's calcium is already stored as calcium carbonate, so it cannot be effectively repurposed for more carbon storage.

Unfortunately, none of the above-identified carbon neutral solutions addresses the CO2 concentration that currently exists is in the atmosphere and the additional CO2 that to be spewed into the atmosphere by the future use of fossil fuels.