There has been a lot of discussion about the carbon oil extraction process specifically in terms of how detrimental it is to the environment. While it’s true that there are some serious drawbacks that come with carbon drilling, much of the problem is result of the fact that not all of the carbon that’s ultimately produced is going to be burned up as fuel. Canada’s oil-and-gas sector is working towards low-carbon crude oil.
How does carbon oil and carbon gas compare to carbon dioxide emissions? Carbon dioxide is an environmental pollutant. It is the main cause for pollution. While it is very harmful if it is stored in oil reserves, it’s still acceptable. What’s not acceptable, though, is the fact that it takes millions of years for carbon dioxide to be broken down in the atmosphere, and then be absorbed out into the air where it interacts with natural systems and wildlife before being absorbed into soil and water, and increasing atmospheric pressure.
The issue with Cuscuta Island is two fold. First, most of Canada’s oil fields are on or near existing carbon dioxide-rich coastal soil. This means that an increase in atmospheric pressure will result in a higher amount of carbon dioxide in the soil. Oil wells will need to operate at higher pressures to extract more crude oil. Because carbon dioxide is an absorbent in the soil, oil injected into earth’s crust can cause it to enter aquifers below the ground, which have a natural carbon dioxide store that spans thousands of years. If nothing is done to change the environmental conditions so that CO2 levels in the soil and aquifers are increased, the lifecycles of plants and animals living in these areas are dramatically altered, sometimes wiping out whole species.
These types of potent greenhouse gas emissions must be taken seriously, not just because of their potential environmental impacts however, they pose a direct threat to the future of our civilization and way of living on Earth. Many scientists agree that the burning of fossil fuels, such as coal, oil and natural gas needs be restricted in order to preserve the planet for our descendants in the future. The continuous production of carbon dioxide in our atmosphere is hindering us from taking steps to reduce climate change to ensure that future generations do not suffer the effects of climate change.
Carbon Oil’s unique carbon capture and utilization process was first developed in the mid-nineties but until recently, it was mostly ignored by the United States oil industry. One reason for the delay in utilizing this unique ability is the fact that petroleum companies tended to focus on extraction rather than utilization. Carbon Oil uses a unique carbon dioxide removal and utilization technique that utilizes carbon that has been captured in its highly effective steam shower systems.
Carbon Oil’s carbon sequestration and capture process is extremely simple. Carbon Oil’s carbon capture system has pores that are isolated within the medium that is moist and isolated channels within the porous medium. This permits the absorption of carbon dioxide from air and the use of the carbon dioxide trapped as energy. This system is extremely efficient and eliminates a large percentage of carbon dioxide from the air as compared to other methods. Global warming is directly related to carbon dioxide absorption, one of the most pressing issues facing our planet.
Global Warming is a serious problem, and Carbon Oil’s unique CCS technology allow them to take important steps to mitigate and eventually reverse global warming. Carbon Oil is a fantastic alternative to crude oil. It is also the most effective and secure method of producing biomass. Carbon Oil is currently working with the University of California – Davis Institute of Chemical Engineering to better understand how oil harvesting and processing impacts the environment. Carbon Oil will continue to expand and refine its business model to be capable of providing better solutions to the environmental challenges of today.
The company has received support from the US Environmental Protection Agency for their Carbon Oil research project. The project investigates the negative environmental impact and energy savings associated with a carbon dioxide enhanced oils recovery (CAD). This technology allows the collection transportation, utilization, and recycling of carbon dioxide enhanced oil waste. Carbon Oil’s CAD technology permits the separation of liquids from heavy gas scrub and fuel oil operations.
know more C60 Oil here.