Methanation technology for coal to synthetic natural gas
A synthetic natural gas and methanation technology, applied in the field of methanation process, can solve the problems of increasing the power consumption of circulating gas and increasing equipment investment, and achieve the effects of high energy utilization rate, small circulating gas volume and low investment
- Summary
- Abstract
- Description
- Claims
- Application Information
AI Technical Summary
Problems solved by technology
Method used
Image
Examples
Embodiment 1
[0026] According to the process flow shown in Figure 1, the pressure is 3MPa, 100000Nm 3 / h of synthesis gas and the total sulfur in the synthesis gas is less than 0.1ppm, f=(n H2 -n CO2 ) / (n CO +n CO2 )=2.98, specifically the composition (volume fraction, dry basis) of syngas is H 2 64.01%, CO20.03%, CO 2 1.1%, CH 4 14.57%, N 2 0.29%. The synthesis gas is divided into three streams and enters the first methanation adiabatic reactor, the second methanation adiabatic reactor and the third methanation adiabatic reactor respectively, and the gas volume is 5500Nm respectively 3 / h, 19000Nm 3 / h and 75500Nm 3 / h. Circulating gas volume is 65000Nm 3 / h, the temperature entering the circulating compressor is 100°C. The inlet temperature of the first and second methanation furnaces is 250°C, the outlet temperature is 490°C, and the dry gas space velocity is 10000h -1 . The inlet temperature of the third methanation furnace is 270°C, the outlet temperature is 632°C, and t...
Embodiment 2
[0028] According to the process flow shown in Figure 1, the pressure is 1.5MPa, 100000Nm 3 / h of synthesis gas and the total sulfur in the synthesis gas is less than 0.1ppm, f=(n H2 -n CO2 ) / (n CO +n CO2 )=2.95, specifically the composition (volume fraction, dry basis) of syngas is H 2 63.43%, CO20.03%, CO 2 1.1%, CH 4 15.15%, N 2 0.29%. The synthesis gas is divided into three streams, which respectively enter the first methanation reactor, the second methanation reactor and the third methanation reactor, and the gas volume is 13000Nm respectively 3 / h, 24000Nm 3 / h and 63000Nm 3 / h. The circulating gas volume is 28000Nm 3 / h, the temperature entering the circulating compressor is 180°C. The inlet temperature of the first and second methanation furnaces are both 250°C, the outlet temperatures are 635°C and 630°C respectively, and the dry gas space velocity is 20000h -1 . The inlet temperature of the third methanation furnace is 270°C, the outlet temperature is 68...
Embodiment 3
[0030] According to the process flow shown in Figure 1, the pressure is 8MPa, 100000Nm 3 / h of synthesis gas and the total sulfur in the synthesis gas is less than 0.1ppm, f=(n H2 -n CO2 ) / (n CO +n CO2 )=3.05, specifically the composition (volume fraction, dry basis) of syngas is H 2 65.55%, CO20.03%, CO 2 1.1%, CH 4 13.03%, N 2 0.29%. The synthesis gas is divided into three streams, which respectively enter the first methanation reactor, the second methanation reactor and the third methanation reactor, and the gas volume is 9000Nm respectively 3 / h, 22000Nm 3 / h and 69000Nm 3 / h. The circulating gas volume is 58000Nm 3 / h, the temperature entering the circulating compressor is 170°C. The inlet temperature of the first and second methanation furnaces are both 250°C, the outlet temperatures are 527°C and 527°C respectively, and the dry gas space velocity is 15000h -1 . The inlet temperature of the third methanation furnace is 270°C, the outlet temperature is 637°C...
PUM
Abstract
Description
Claims
Application Information
- R&D Engineer
- R&D Manager
- IP Professional
- Industry Leading Data Capabilities
- Powerful AI technology
- Patent DNA Extraction
Browse by: Latest US Patents, China's latest patents, Technical Efficacy Thesaurus, Application Domain, Technology Topic, Popular Technical Reports.
© 2024 PatSnap. All rights reserved.Legal|Privacy policy|Modern Slavery Act Transparency Statement|Sitemap|About US| Contact US: help@patsnap.com