Enhancing recovery of ammonia from swine manure anaerobic digester effluent using gas-permeable membrane technology

Dubé, Patrick; Vanotti, Matías B.; Szögi, Ariel A.; García-González, María Cruz

doi:10.1016/j.wasman.2015.12.011

Cited by 100 publications

(86 citation statements)

References 22 publications

(16 reference statements)

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“…Several areas for further study were identified:Determining ways to avoid transfer of water vapour when GPM is used at high temperature.Evaluating the benefit of NH 3 removal using the GPM system on methane gas production in a pilot-scale biodigester.Evaluating options to increase the NH 3 capture rate, e.g., more concentrated acid, acid with more available donor protons, higher flowrate of trapping solution.Evaluating the fertilizer value of the trapped nitrogen solution.Longer duration trials with digestate or RM.Evaluating clogging of the GPM with time.Use aeration to increase pH and recovery rate, such as done by Dube et al [14]. …”

Section: Resultsmentioning

confidence: 99%

“…If successful, GPMs could be implemented into the anaerobic digester cycle, whether within or prior, to reduce the ammonia inhibition of methanogenesis. Research has shown success in the use of GPM for ammonia recovery of anaerobically digested swine manure, but there is a lack of research using dairy manure digestate [14]. It is hypothesized that with higher pH, temperature, and initial TAN concentration, there will be more capture due to more gaseous ammonia present, and that the conditions within an AD will increase ammonia capture compared to raw manure.…”

Section: Introductionmentioning

confidence: 99%

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Characterizing the Performance of Gas-Permeable Membranes as an Ammonia Recovery Strategy from Anaerobically Digested Dairy Manure

et al. 2017

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Capturing ammonia from anaerobically digested manure could simultaneously decrease the adverse effects of ammonia inhibition on biogas production, reduce reactive nitrogen (N) loss to the environment, and produce mineral N fertilizer as a by-product. In this study, gas permeable membranes (GPM) were used to capture ammonia from dairy manure and digestate by the diffusion of gaseous ammonia across the membrane where ammonia is captured by diluted acid, forming an aqueous ammonium salt. A lab-scale prototype using tubular expanded polytetrafluoroethylene (ePTFE) GPM was used to (1) characterize the effect of total ammonium nitrogen (TAN) concentration, temperature, and pH on the ammonia capture rate using GPM, and (2) to evaluate the performance of a GPM system in conditions similar to a mesophilic anaerobic digester. The GPM captured ammonia at a rate between 2.2 and 6.3% of gaseous ammonia in the donor solution per day. Capture rate was faster in anaerobic digestate than raw manure. The ammonia capture rate could be predicted using non-linear regression based on the factors of total ammonium nitrogen concentration, temperature, and pH. This use of membranes shows promise in reducing the deleterious impacts of ammonia on both the efficiency of biogas production and the release of reactive N to the environment.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Characterizing the Performance of Gas-Permeable Membranes as an Ammonia Recovery Strategy from Anaerobically Digested Dairy Manure

et al. 2017

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“…Some technologies have been used to reduce the excess N content in livestock wastewater, promoting its recovery in the mineral form (NH + 4 ) and allowing its reuse as agricultural fertilizer in areas far from the livestock concentration with greater needs for the N nutrient. Dube et al (2016) and Garcia-Gonzalez et al (2016) used a new process utilizing gas-permeable membranes (GPM) in low pressure systems to capture the N present in the digestate from the anaerobic mono-digestion of SM and store it in a concentrated form in an acid solution of 0.5 M H 2 SO 4 .…”

Section: Introductionmentioning

confidence: 99%

“…The aeration effect is double, on the one hand, it promotes the increase in pH values and, on the other hand, promotes the increase in the concentration of the free ammonium which favors the passage of NH 3(g) through the membrane (Vanotti et al, 2017). In the studies conducted by Dube et al (2016), the GPM system with low-rate aeration promoted removals of 97-99% of the initial NH + 4 contents in the digestate in 5 days of operation, obtaining an accumulation of 11,900 mg of NH + 4 -N L −1 in the acid solution. In the studies conducted by Daguerre-Martini et al (2018), the GPM system with low-rate aeration removed 65-85% of the initial NH + 4 contents in swine manure in 4 days of operation, obtaining concentration of NH + 4 -N in the acid tank of 37,400 mg L −1 .…”

Section: Introductionmentioning

confidence: 99%

“…Successful N recovery using GPM has already been performed on different organic wastes such as poultry litter (Rothrock et al, 2010(Rothrock et al, , 2013, swine manure (Garcia-Gonzalez and García-González et al, 2015) and digestate from mono-digestion of swine manure (Dube et al, 2016;Garcia-Gonzalez et al, 2016;Vanotti et al, 2017) with NH + 4 recovery above 90% of the total content of this form of the nutrient in the residues. However, recovery of N in the digestate from systems operating in ACoD has not yet been performed.…”

Section: Introductionmentioning

confidence: 99%

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Recovery of Ammonia in Raw and Co-digested Swine Manure Using Gas-Permeable Membrane Technology

Filho

Daguerre-Martini

Vanotti³

et al. 2018

Front. Sustain. Food Syst.

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Anaerobic digestion of agro-industrial and livestock waste generates considerable digestate volumes that are important sources of nitrogen (N). However, on some occasions, the high concentrations of N present in the digestates may represent an obstacle to its use locally as fertilizer, since it can cause an environmental impact (European Community, 2000). This study analyzes the efficiency of gas-permeable membranes (GPM) in the recovery of the ammoniacal nitrogen (NH + 4 ) present in the swine manure (SM, Control) and three digestates generated from the anaerobic co-digestion of mixtures of SM, fruit and vegetable sludge (FVS) from the vegetable industry (peppers and artichokes), and by-products of the tomato processing industry (TW) (skins and seeds), which were mixed at three different proportions [TW + FVS]: [SM]. Their NHx + content was 2,240 mg L −1 for the SM and 4,670-5,370 for the digestate mixtures. Throughout the duration of the Necovery experiment (96 h), the percentages of NH + 4 removal and recovery achieved were consistent among treatments, approximatelly 78 and 96%, respectively. The recovery of NH 4 + for the digestate mixtures seems to be dependent on the treatment time, since the potential of N recovery was higher when the treatment time increased. However, for the control experiment (SM), with lower N concentration, the maximum N recovery was obtained at the experimental time established, without increasing the treatment time.

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Carbon, nitrogen and phosphorus recovery from liquid swine wastes: a review

Montalvo

Huiliñir

Castillo

et al. 2020

J of Chemical Tech & Biotech

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Due to the pollution characteristics of the wastewater generated in piggeries, these waste streams have to be treated before discharging into the environment. These wastes have a high content of organic matter, nitrogen and phosphorus that can be converted or recovered into valuable products. The valuation of swine waste by anaerobic digestion has already been assessed, but no systematic review on the technologies used for recovering nutrients from this waste has been reported to date. Therefore, the present work has the goal of presenting the most studied technologies to different scales of recovery of carbon (i.e. organic matter), nitrogen and phosphorus from swine waste. The main characteristics and parameters of the processes involved in these technologies (mainly air stripping, membrane, enhance biological phosphorus removal and struvite formation) are also highlighted, pointing out its advantages and disadvantages and posing some final feasibility considerations on the subject addressed. Experiments reported in the literature proved that technologies used for nutrient recovery from swine waste are mostly applied to the effluents previously treated by anaerobic digestion as a primary treatment, and greater effort is required for the future implementation of these technologies in large scale. © 2020 Society of Chemical Industry

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Enhancing recovery of ammonia from swine manure anaerobic digester effluent using gas-permeable membrane technology

Cited by 100 publications

References 22 publications

Characterizing the Performance of Gas-Permeable Membranes as an Ammonia Recovery Strategy from Anaerobically Digested Dairy Manure

Characterizing the Performance of Gas-Permeable Membranes as an Ammonia Recovery Strategy from Anaerobically Digested Dairy Manure

Recovery of Ammonia in Raw and Co-digested Swine Manure Using Gas-Permeable Membrane Technology

Carbon, nitrogen and phosphorus recovery from liquid swine wastes: a review

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