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Using biogas as renewable natural gas affords strong benefits, both economic and environmental. Among them is the expansion of the overall energy supply enjoyed by nation-states, regions and local communities. In addition, infrastructure related to biogas provides investment and jobs wherever it is located. Beyond these, the improvement of air quality due to carbon-neutral emissions is substantial. Of course, these contributions exact a cost: biogas plants are highly priced expenditures. Nevertheless, compression technology has made biogas into a transportable, storable, effective energy commodity that is expected to more than pay for itself over time.
Some contend that biogas has a history of employment dating back thousands of years. Whether that is true or not, a safe observation is that biogas was understood as an energy originator as far back as the 18th century. In essence, this gas is the product of organic decay when oxygen is not present. When biodegradeable material lacks oxygen, specific bacterial microorganisms start to break down the matter, forming new chemical compounds over a series of phases. When all decomposition is done, methane, carbon dioxide and other compounds — in much smaller proportions — are discharged from the rotting biomass. Given the modern exigencies related to energy independence and climate change, biogas is receiving new appreciation for its capacity to generate electricity, heat residential and commercial buildings, as well as feed transportation vehicles.
Before discussing the workings of a biogas compressor, we must understand the need for content purity. To comply with vehicle fuel specifications, the proportion of methane to all else should be at least 97 percent. This means cleansing the biogas of water vapor, hydrogen sulfide and carbon dioxide. There are numerous ways to effectuate the cleansing of biogas. Once rid of contaminating and unnecessary compounds, the biomethane is sufficiently unadulterated for injection into a pipeline, deposit into a storage tank or direct input into a transport vehicle. Whatever the immediate destination, compressing the gas is the next step. If the biomethane is to be stocked for later use, the compression force is usually about 3,500 pounds per square inch (psi). If it is to be transported by tanker truck, that pressure can rise to 4,000 psi. Pipeline conveyance most often allows for 1,000 psi or less. A multi-phase compressor of biogas is composed of several cylinders of declining dimensions — the smaller the cylinder, the higher the pressure.
As noted above, compressors come in variable sizes and designs. Biogas compressor price can range from modest to cost-prohibitive. Key to any investment, of course, is the return. When will the compressor pay for itself? That question is answered by the volume of biogas processed and sold. Yet other factors also come into play, including how well the compressor prevents leakage and performs at an efficient level. Operational costs — or life cycle costs — factor into any compressor investment as much as the purchase price.
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