On dynamic modeling of industrial gas turbines based on low calorific value (LCV) gaseous fuels

Abstract: Global energy demand is expected to increase in the following two decades. Operational flexibility of power generation systems is a key aspect when assessing potential solutions seeking to help meeting this expected increase in global energy demand. In low calorific value (LCV) gaseous fuels-fired power plants, it is paramount to consider the effects of the employed LCV/lean-gases-based fuels on the associated gas turbine systems and surrounding equipment. Moreover, because of the industrial processes usually … Show more

“…The utilization of low‐calorific gas (LCG) contributed to energy saving and environmental protection. The common sources of the LCG included the blast furnace gas, landfill gas, and coal mine methane (CMM) 1–4 . Due to the main component of methane, the greenhouse effect of the LCG discharging was at least 21 times higher than that of carbon dioxide 5–7 .…”

“…The common sources of the LCG included the blast furnace gas, landfill gas, and coal mine methane (CMM). [1][2][3][4] Due to the main component of methane, the greenhouse effect of the LCG discharging was at least 21 times higher than that of carbon dioxide. [5][6][7] In China, the total amount of CMM drainage was about 24 billion m 3 in 2020, but only 16 billion m 3 was utilized due to large proportion of low-concentration methane.…”

Inhomogeneous packed bed burner for improving the utilization of low‐concentration methane

“…The utilization of low‐calorific gas (LCG) contributed to energy saving and environmental protection. The common sources of the LCG included the blast furnace gas, landfill gas, and coal mine methane (CMM) 1–4 . Due to the main component of methane, the greenhouse effect of the LCG discharging was at least 21 times higher than that of carbon dioxide 5–7 .…”

“…The common sources of the LCG included the blast furnace gas, landfill gas, and coal mine methane (CMM). [1][2][3][4] Due to the main component of methane, the greenhouse effect of the LCG discharging was at least 21 times higher than that of carbon dioxide. [5][6][7] In China, the total amount of CMM drainage was about 24 billion m 3 in 2020, but only 16 billion m 3 was utilized due to large proportion of low-concentration methane.…”

Inhomogeneous packed bed burner for improving the utilization of low‐concentration methane