Microbial fuel cell with a nano-membrane and two expired medicinal drug-feeding cathode: a novel strategy

All chemicals used as our previous work as follows [3], unless otherwise stated. Gela dairy product industry (Amol, Iran) was the provider of substrate. Excess proteins in substrate were precipitated by acid solution (HCl, 2 N). The autoclaving of solution was carried out at 15 psig, 121 °C for 15 min. After passing of cooling down process to mild temperature, it underwent centrifuging at 7000×g-values of RCF in units of times gravity for unwanted solids removal. Then, the supernatant transferred to refrigerator for 12 h and stored. Rohani Hospital (Babol, Iran) was the provider of microbial catalyst (Escherichia coli) as a close cooperation. Microorganisms have grown in an anaerobic condition. The anode mediator and cathodic electron shuttles was supplied by Merck (Darmstadt, Germany). Figure 1 depicts the schematic diagram of the MFC and its auxiliary equipment [3, 4], made of plexy glass material. The total volume of cells was 910 ml, which 800 ml out of expressed primary volume was used as working volume. Graphite was the selected electrode which has been provided in the size of 40 mm × 90 mm × 3 mm. The proton exchange membrane (PEM, Nafion 117 with a 5 nm pore size, Sigma-Aldrich) provided to separate two chambers of MFC. Ordinarily, all materials used in the experiments were analytical grade and supplied by Merck (Dortmund, Germany) except Acetaminophen codeine (325 mg) and Bismuth (200 mg) bought from local pharmacy. In all solutions, digital Metrohm pH meter (model 744) equipped with a combined glass–calomel electrode was used to adjust the pH. Dinitrosalicylic acid method applied to measure whey consumption using colorimetric method [26].

The microorganism growth monitoring was accomplished by spectrophotometer (Unico, USA) established as optical density. SEM (Philips XL30 scanning microscope, Philips, The Netherlands) employed to determine the shape and surface morphology of electrode in the present MFC. The graphite was coated with gold before the SEM measurement with the selected magnification of 5000.

The medium is comprised of glucose, yeast extract, ammonium chloride, and peptone in grouping of 10, 1.0, 0.5, and 1.0 g/l, respectively. It was disinfected by autoclaving at 121 °C, 15 psig for 20 min. Initially, the pH of medium, inoculum, and other parameters had adjusted in 7.0. Thereafter, it was heated at 30 °C. The E. coli had completely developed for 24 h in 100 ml flux with no additional shaking. The sampling was done in every 4.0 h to investigate the substrate utilization on reduced sugar content by aforementioned technique [27].

To keep up layer for good conductivity, the two compartments preserved in double-distilled water when the bioreactor was not being applied [28]. The anode compartment had introduced to serial pretreatment, which has been engrossing 100% ethanol for 45 min and in 1.0 M HCl for 1.0 h. After every usage, cathodes were immersed in 1.0 M HCl, 1.0 M NaOH, for 1.0 h, independently to clear any metallic and normal contamination by exposing indistilled water before use, respectively [28]. Nafion membrane was exposed to serial treatment to remove contaminations which include washing the film for 1.0 h, immersion in 3.0% H₂O₂, following washing with double-distilled water, re-immersing in acidic solution and eventually re-exposing to distilled water, respectively.

Simple computerized information procurement had produced to record sampling information in every 6 s. The framework records measurements for variable resistances which were imposed to the MFC. By dividing the obtained voltage from characterized resistance, the output current recorded. Then, the system provides power calculation by multiplication of voltage and current. In addition, the microcontroller sends the essential information to a PC by analogue–digital converter. Moreover, unique capacity of MATLAB programming (7.4, 2007a) was utilized to store and synchronically show the received information.

All facts are presented in this text as mean result ± SD (standard deviation). Statistical analysis were assessed applying the t test and considered significant at P < 0.05 level. All figures shown in this article have been received from three unbiased experiments with similar results.

Power deriving was accomplished applying the by-product, abundant, and easily available source of food industry. The effect of mediators as electron promoters had investigated. Polarization is the difference of electrical potential between two ends of an electrical tool when there is no external load connected. Hence, there is not external electric current flow between the ends. It is sometimes given the symbol V_oc or OCV; but in network analysis, this voltage is also known as the Thévenin voltage. As resistance had reduced in such gadget, the voltage will lower. In the first moment of action, the voltage was in lower level (390 mV) and then gradually reached to a high value. To put in a nutshell, carbon source utilization and final product formation in the form of bioenergy were the outcome of this stage [3]. Open-circuit voltage is measured in the presence of humic acid in anode chamber with no catholyte involvement during about 4.0 days. Following 60 h of operation, the recorded V_oc value was 0.751 V. It was thoroughly unchanged for more than 1 day as our previous applied protocol [3]. Finally, a decrease as instability was observed (Fig. 2). It can be attributed to decrease of lactose content in the anode chamber by bacteria depleting as substrate after 30 h. Generally talking, polarization curve is a main concept in electrochemical reactions. In other words, it is a law based on kinetic principals that is visualized as a plot of current density versus electrode potential or having three parameters as voltage, current, and power in a plot simultaneously. The achieved data rely on electrical parameters involved in the MFC. In Figs. 3 and 4, the polarization curve in the presence of Acetaminophen codeine and Bismuth as suitable catholyte is shown. The selected mediator in MFC was humic acid (0.2 mol/m³) based on our previous work due to highlighted potential [3]. Derived power and related current were close to 6.8 × 10⁻⁶ W and 3.5 × 10⁻⁵ A, respectively.

The mediator in MFC was the main factor in increasing electron transfer interestingly achieves more power production and cell current efficiency. The drawbacks of MFC were mentioned in the previous scientific papers [25]. One of the expressed suggestions for overcoming proposed issue is identification of new mediators. Figures 3, 4 show power generation in the presence of two aforementioned expired medicinal drugs as hygienic organization wastes. The maximum power and current production in the presence of Acetaminophen and Bismuth as novel cathodic mediators was 2.55 × 10⁻⁵ W, 1.29 × 10⁻⁵ A, 2.9 × 10⁻⁵ W and 1.75 × 10⁻⁴ A, respectively. The maximum value of V_oc is attributed to the presence of expired drugs as electron mediators. Humic acid acts as electron acceptor in the anode compartment and two expired medicines act as electron shuttle in the cathode chamber. These outputs are comparable to other researchers’ findings [15, 16], especially in a case without using nanomaterial except the selected membrane. In this work, a novel approach to bioelectricity generation and new limited medicinal waste management opportunity as a novelty was introduced and developed. To best of our knowledge, this is the first attitude as a light at the end of the tunnel upon applying and developing expired drugs as mediator in cathode compartment of a bioreactor like as MFC. Although the obtained quantities based on power and generation are not in high level, but the results open a new horizon for related industries and compartments to investigate more in such a new introduced concept.

As our previous work, the same electrodes were applied for power generation and transformation in designed electrical circuit. Figure 5a, b shows surface of the electrode before and after the operation. In addition, SEM image of the surface electrode with fixed regulated magnification of 5000 successfully shows characteristic of the graphite plate (Fig. 6). SEM imaging on the applied graphite electrode in the size of 1 cm × 1 cm was established to characterize the shape and surface morphology. Philips XL30 scanning microscope, (Philips, The Netherlands) was the features of applied SEM. Coating of membrane was achieved with gold before taking any action. The surface impurities have depicted on the electrode surface with black arrows embedded in Fig. 6. Based on obtained SEM, electrodes need retreating to achieve a better efficiency if designed to be reused.

To assess the stable performance of the MFC (Fig. 7), COD removal efficiency and voltage output were considered as indicators. The MFC were operated continuously for 74 h. Approximately, after 60 h, a stable condition was achieved for the MFC. Maximum COD and BOD removal up to 89 and 90% was obtained for the selected wastewater with average initial concentration of 70,000 and 40,000 mg/l, respectively. The efficiency of COD removal was in a very good agreement with the maximum reported efficiency 91 and 82%, respectively [29‐31].

Columbic efficiency (CE) was calculated according to Logan and his co-workers [29]. The result is shown in Fig. 8. For whey wastewater, the CEs increased over time. After 60 h, the CEs reached its maximum value, indicating that microorganisms consumed whey as close to 89%. In addition, the electrons in the removed substrate were used for current production. The percentage of columbic efficiency reveals a good phenomenon based on data obtained from Fig. 8 [32].