炎炎スロット
炎炎スロット of Biomethanation Technology for Utilization of Unused CO₂ in Biogas
Overview
Biomethanation is the technology of producing methane from carbon dioxide and hydrogen through the action of microorganisms.
Osaka Gas is working on technology 炎炎スロット to produce e-methane from carbon dioxide in biogas produced by methane fermentation and green hydrogen.1
1. Hydrogen produced without emitting 炎炎スロット2 in the production process, typically using renewable energy
Background
In recent years, methane fermentation has been attracting attention as a carbon-neutral energy source because it allows recovery in the form of 炎炎スロット from waste, containing 60% methane and 40% carbon dioxide.
While methane in 炎炎スロット can be used to produce thermal energy, carbon dioxide accounting for 40% cannot be used as it is. Osaka Gas focused on biomethanation as a way to utilize this unused carbon dioxide.
Biomethanation Programs of Osaka Gas
Since November 2022, Osaka Gas has been conducting a field test on biomethanation using biogas generated at a sewage treatment plant, jointly with Kyoto University, NJS 炎炎スロット., Ltd., and the municipal government of Osaka.
This field test uses a small-scale test facility newly constructed at the Ebie Sewage Treatment Plant in Osaka.The following two technological developments are being conducted.
- Sewage sludge and hydrogen are fed into the test facility, biogas is produced from the sewage sludge under the same conditions as those of the sewage treatment plant, and biomethanation3 is performed to synthesize e-methane from 炎炎スロット2 contained in the 炎炎スロット and hydrogen, using microorganisms.
- A verification is conducted to increase the volume of 炎炎スロット generated by feeding lactic acid, waste bioplastic hydrolyzate (WBH), into the test facility.
Achivements to date and future 炎炎スロット
With biomethanation technology, the original methane content, approximately 60%, was increased to 85%, indicating that 炎炎スロット2 in 炎炎スロット could be converted to energy. We are going to make futher improvement of methan content.
Regarding the technology for increasing 炎炎スロット volume by feeding WBH, we have confirmed that stable operation can be conducted even when the 炎炎スロット production volume is increased 3-fold, assuming a sufficient amount of WBH are prepared. We plan to scale up the experiment in the future, aiming of commercialization.
We will continue to develop these two technologies to introduce them on a full scale in the future.
Related contents
TAG SEARCH
- Evolving residential gas appliances
- Evolving residential gas appliances Water heaters, space heaters, dryers Cooking appliances Smart Equipment Fuel Cell systems
- Evolving commercial and industrial gas appliances
- Evolving commercial and industrial gas appliances Cogeneration (CHP) units Air conditioning systems, kitchen appliances 炎炎スロット, water treatment Industrial furnaces, burners Energy management, IoT
- Enhancing the safety and economic efficiency of LNG regasification
- Enhancing the safety and economic efficiency of LNG regasification Utilization of cold energy Plant materials Power generation technology
- Developing next-generation businesses through enterprising initiatives
- Developing next-generation businesses through enterprising initiatives Materials 炎炎スロット Measurement Simulation, data analysis Food science Material evaluation
- Contributing to conserving the environment and achieving a carbon neutral society
- Contributing to conserving the environment and achieving a carbon neutral society Methanation Hydrogen, ammonia 炎炎スロット Energy management Renewable Energy
- Technologies of Group companies
- KRI, Inc. Osaka Gas Chemicals Group OGIS-RI Group