The range of supply of biogas to electricity solutions is from 10 kW to 1 MW. All the components of the solution are provided with matching capacities.
It comprises the biogas digester system of the desired capacity, gas storage, biogas cleaning system to get rid of H2S from the gas, and the biogas genset. In the digester system, one may have a pre-digester or a feed mixing chamber or both. On the post-digester side, liquid from the slurry is separated and is recycled for feed preparation. It reduces the overall...
HydroThane BSP technology is the best method for H2S removal combining deep H2S removal, a very high reliability and availability, and low lifecycle costs. The clean biogas can be used to produce electricity or to replace natural gas in a boiler.
This solution comprises a Biogas Digester of desired capacity working with specific substrate as input. It may or may not have H2S scrubbing system, depending on the quantity of H2S in the biogas and the requirement by the customer for cleaning it. As the heating value of biogas is almost half that of cooking LPG, specially designed biogas burners are provided to improve cooking speed. Depending on the demand by the customer, a blower to increase gas pressure may be employed.
In a recent project and the subject of this paper, Kurz engineers conducted a study that lead to a unique, new design that allows thermal flow meters to perform accurately within a wet digester gas environment. The testing environment applies to landfill and digester applications.
You are a farmer/entrepreneur and would like to make money from generating electricity and heat? Then you have come to the right place. Within just a few years Dreyer & Bosse Kraftwerke GmbH have advanced to become one of the leading manufacturers of combined heat and power stations on biogas basis - we have available a complete product portfolio for energy applications of biogases or biomethane.
For the sake of demonstration of the concept, a compressed Bio-methane solution can be supplied for as low as 5 m3 methane per hour. However, considering the cost of the plant, it becomes economically viable only above 6,000 m3 biogas per day capacity, which translates to approximately 2,400 kg bio-methane per day.
Anaerobic Digestion plants produce various gas components from a source material (or feedstock) that can be composed either solely or as a mixture of slurries, purpose-grown crops, food and organic waste material. The composition of the gas produced varies depending upon the feedstock and the Anaerobic digestion process itself. As a consequence, it is normal to measure various components of the resultant gas produced to evaluate the efficiency of the Anaerobic Digestion process. Furthermore, due to the flammable...
New waste separation techniques are being implemented, and R&D programs focus on much more than waste-technology alone. The importance of biomass is recognized as a potential high-energy source for electricity and biogas. DMT’s ambitious approach is based on the principles of circular economy and cradle to cradle: waste products are in fact very valuable. We constantly investigate new ways in which to approach ‘waste’ from a different perspective.
Food waste in general has a high energy density. This results in high yields when producing biogas through anaerobic treatment. Biogas is a very flexible energy product with proven capabilities in the power, transportation, and heat demanding sectors. In this sector, anaerobic digestion offers significant cost advantages over traditional disposal methods. By upgrading the biogas into natural gas using a DMT Environmental Technology system, a solid business case with an interesting return on investment is assured.