Challenges to Accurate Estimation of Methane Emission from Septic Tanks with Long Emptying Intervals.
Jakpong MoonkawinLoi T HuynhMariane Yvonne SchneiderShigeo FujiiShinya EchigoLien P H NguyenThu-Huong T HoangHai T HuynhHidenori HaradaPublished in: Environmental science & technology (2023)
Septic tanks in low- and middle-income countries are often not emptied for a long time, potentially resulting in poor pollutant removal efficiency and increased greenhouse gas emissions, including methane (CH 4 ). We examined the impact of long emptying intervals (4.0-23 years) on the biochemical oxygen demand (BOD) removal efficiency of 15 blackwater septic tanks and the CH 4 emission rates of 23 blackwater septic tanks in Hanoi. The average BOD removal efficiency was 37% (-2-65%), and the average CH 4 emission rate was 10.9 (2.2-26.8) g/(cap·d). The emptying intervals were strongly negatively correlated with BOD removal efficiency ( R = -0.676, p = 0.006) and positively correlated with CH 4 emission rates ( R = 0.614, p = 0.001). CH 4 emission rates were positively correlated with sludge depth ( R = 0.596, p = 0.002), but against expectation, negatively correlated with BOD removal efficiency ( R = -0.219, p = 0.451). These results suggest that shortening the emptying interval improves the BOD removal efficiency and reduces the CH 4 emission rate. Moreover, the CH 4 emission estimation of the Intergovernmental Panel on Climate Change, which is a positive conversion of BOD removal, might be inaccurate for septic tanks with long emptying intervals. Our findings suggest that emptying intervals, sludge depth, and per-capita emission factors reflecting long emptying intervals are potential parameters for accurately estimating CH 4 emissions from septic tanks.