Bio Technology Solutions
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Biotechnology
Biotechnology Enzyme related to well stimulation and fluid fracture
Fracturing fluids and well stimulation are most commonly aqueous systems comprising various polymers and crosslinking agents added to facilitate effective proppant transport and placement. A goal of fracturing practitioners has been to apply breaker technologies effective to eliminate or minimize the residual gel damage left behind by such systems in order to optimize the well stimulation.
With the development of specific-enzyme breaker that are able to cleave a specific type of linkage on different types of polymer it became possible to target individual polymer groups with individual enzymes for complete degradation. These enzymes break the critical linkage sites by catalytic process and produce simple sugar fragments which are soluble in aqueous fluids and result non-damaging towards the reservoir.
Previous field observations showed that the wells used the enzyme breaker can get better production compared with the wells used conventional breaker according to long-term production data analysis from 170 fracture stimulated wells. The possible reason is that the enzyme breaker has better performance on the gel breaking, and thus , it can ensure an effective flowback which can reduce the damage of the fracturing fluid to formation permeability and enhance the CBM production.
Biotechnology for Bioremediation
We make essential innovations the world needs now, Bioremediation cleans up the environment naturally without the use of toxic chemicals. So, it is an environmentally friendly method. Bioremediation is a unique technique for cleaning the environment. In this technique, microbes or plants are used to detoxify the contaminants in the soil, water, ant other environments, relies on stimulating the growth of certain microbes that use contaminants like oil, solvents, and pesticides as a source of food and energy.
Biotechnology for Reservoir Souring Mitigating
Hydrogen Sulfide (H2S) is a toxic and odorous compound present in biogas produced by the anaerobic digestion of biosolids and other organic materials, Due to it’s corrosive nature in internal combustion engines, biological hydrogen sulfide removal processes are being investigated to overcome the chemical and disposal costs associated with existing chemically-based removal processes. Souring can be controlled by several technology and treatment program that we can suggest according the field case.
Downstream
Biotechnology
Biotechnology Gold Hydrogen (H2)
As the world shifts towards clean energy, it’s highly likely that hydrogen will play an important role, Naturally occurring ‘Gold’ hydrogen could sidestep the need for industrial processes currently required for manufacturing that hydrogen. Hydrogen has the potential to be an effective source of energy, it produces significantly less greenhouse gases than current gas-based systems, and has the potential to be implemented within existing infrastructures, reducing the costs of the energy transition.
Our vision is to develop a unique opportunity to work with the oil and gas industry to have a Gold Hydrogen that combines natural systems and technological innovation to convert leftover hydrocarbons from subsurface wells into usable hydrogen while capturing and storing CO2 from depleted oil wells.
