2. Materials and methods2.1. Experi

2. Materials and methods
2.1. Experimental set-up
The laboratory-scale AnMBR-CANON MBR combined system that was used in this study is shown in Fig. 1. The system consisted of two major containers with an effective volume of 4 L each. One was used as AnMBR, the other was used as CANON MBR. Between the two reactors, a buffer tank was used to collect the AnMBR effluent which was delivered to CANON MBR successively by a peristaltic pump. In both reactors, an identical flat-sheet polyvinylidene fluoride (PVDF) (SINAP, Shanghai, China) membrane module was submerged in the mixed liquor. Nominal pore size of the membranes used was 0.1 μm, and area of the membrane surface immersed was 0.024 m2. Four peristaltic pumps were individually used to feed influent into the membrane reactors and withdraw permeate from the membrane modules. Membrane fouling was indicated by an increase in the trans-membrane pressure (TMP), which was recorded by a pressure sensor (Endress and Hauser) installed between the membrane module and the permeate pump. Meanwhile, total membrane resistance (Rt) was also calculated to display the membrane fouling. Gas sparging was used to minimize particle deposition on the membrane surface and mix sludge in the reactors. Produced biogas was circulated by a vacuum pump (N86KNE, KNF, Germany) and coarse diffusers were installed at the bottom of the membrane module to generate coarse biogas bubbles in both reactors. During the initial start-up stage of reactors, gas sparging was not used because of less produced biogas. In CANON MBR, three microporous aerators were used to supply air intermittently. Aeration operation was maintained for 2 min on and 3 min off, which was controlled by a programmable logical control (PLC) device. To control the temperatures during the start-up stage, the reactors were jacketed and connected to a water heating system. Water heating was canceled after the start-up stage so that the combined system was operated under ambient temperature conditions. Moreover, a UF-RO dual membrane device (Zhiyuanweiye, China) was used to produce the concentrate. This device consisted of a UF membrane (spiral wound module, PVDF, membrane area of 0.83 m2) and RO membrane (spiral wound module, aromatic polyamide, membrane area of 1.30 m2). Both membranes were purchased from Vontron Technology Co. (China).