Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery
Aquaponics plant waste, such as the non-edible parts of many vegetable crops, can be a source of environmental pollution, while its treatment might cause an economic burden. Therefore, efficient use of this waste would be advantageous. This study aimed at investigating anaerobic digestion of aquqponic lettuce waste to recover nutrients and energy through biogas production. A 700 L commercial anaerobic system was used to treat lettuce wastes from an aquaponic farming system that operated under desert climate and steady-state conditions. Digestion efficiency of the lettuce waste was 90.1% by weight, producing a maximum biogas volume of 0.65 m3/kg dry weight per day. Biogas composition contained on average 59.2% methane and 38.9% CO2 with only negligible hydrogen sulfide content. Moreover, the supernatant from the anaerobic digester contained elevated nutrient concentrations (N, P, K, Ca, and Fe), which can potentially be used onsite as a fertilizer. Onsite anaerobic digestion of lettuce plant waste from the aquaponic system under summer desert conditions is demonstrated for the first time to efficiently reduce pollution burden, produce high-quality biogas, and recover nutrients.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Anaerobic digestion, Aquaponics, Bioenergy recovery, Desert farming, Nutrient reuse, Waste management, |
| Online Access: | https://research.wur.nl/en/publications/onsite-anaerobic-treatment-of-aquaponics-lettuce-waste-digestion- |
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dig-wur-nl-wurpubs-5715202024-12-04 Zhu, Ze Yogev, Uri Keesman, Karel J. Gross, Amit Article/Letter to editor Aquaculture International 29 (2021) ISSN: 0967-6120 Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery 2021 Aquaponics plant waste, such as the non-edible parts of many vegetable crops, can be a source of environmental pollution, while its treatment might cause an economic burden. Therefore, efficient use of this waste would be advantageous. This study aimed at investigating anaerobic digestion of aquqponic lettuce waste to recover nutrients and energy through biogas production. A 700 L commercial anaerobic system was used to treat lettuce wastes from an aquaponic farming system that operated under desert climate and steady-state conditions. Digestion efficiency of the lettuce waste was 90.1% by weight, producing a maximum biogas volume of 0.65 m3/kg dry weight per day. Biogas composition contained on average 59.2% methane and 38.9% CO2 with only negligible hydrogen sulfide content. Moreover, the supernatant from the anaerobic digester contained elevated nutrient concentrations (N, P, K, Ca, and Fe), which can potentially be used onsite as a fertilizer. Onsite anaerobic digestion of lettuce plant waste from the aquaponic system under summer desert conditions is demonstrated for the first time to efficiently reduce pollution burden, produce high-quality biogas, and recover nutrients. en application/pdf https://research.wur.nl/en/publications/onsite-anaerobic-treatment-of-aquaponics-lettuce-waste-digestion- 10.1007/s10499-020-00609-x https://edepot.wur.nl/534615 Anaerobic digestion Aquaponics Bioenergy recovery Desert farming Nutrient reuse Waste management Wageningen University & Research |
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Anaerobic digestion Aquaponics Bioenergy recovery Desert farming Nutrient reuse Waste management Anaerobic digestion Aquaponics Bioenergy recovery Desert farming Nutrient reuse Waste management |
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Anaerobic digestion Aquaponics Bioenergy recovery Desert farming Nutrient reuse Waste management Anaerobic digestion Aquaponics Bioenergy recovery Desert farming Nutrient reuse Waste management Zhu, Ze Yogev, Uri Keesman, Karel J. Gross, Amit Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| description |
Aquaponics plant waste, such as the non-edible parts of many vegetable crops, can be a source of environmental pollution, while its treatment might cause an economic burden. Therefore, efficient use of this waste would be advantageous. This study aimed at investigating anaerobic digestion of aquqponic lettuce waste to recover nutrients and energy through biogas production. A 700 L commercial anaerobic system was used to treat lettuce wastes from an aquaponic farming system that operated under desert climate and steady-state conditions. Digestion efficiency of the lettuce waste was 90.1% by weight, producing a maximum biogas volume of 0.65 m3/kg dry weight per day. Biogas composition contained on average 59.2% methane and 38.9% CO2 with only negligible hydrogen sulfide content. Moreover, the supernatant from the anaerobic digester contained elevated nutrient concentrations (N, P, K, Ca, and Fe), which can potentially be used onsite as a fertilizer. Onsite anaerobic digestion of lettuce plant waste from the aquaponic system under summer desert conditions is demonstrated for the first time to efficiently reduce pollution burden, produce high-quality biogas, and recover nutrients. |
| format |
Article/Letter to editor |
| topic_facet |
Anaerobic digestion Aquaponics Bioenergy recovery Desert farming Nutrient reuse Waste management |
| author |
Zhu, Ze Yogev, Uri Keesman, Karel J. Gross, Amit |
| author_facet |
Zhu, Ze Yogev, Uri Keesman, Karel J. Gross, Amit |
| author_sort |
Zhu, Ze |
| title |
Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| title_short |
Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| title_full |
Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| title_fullStr |
Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| title_full_unstemmed |
Onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| title_sort |
onsite anaerobic treatment of aquaponics lettuce waste: digestion efficiency and nutrient recovery |
| url |
https://research.wur.nl/en/publications/onsite-anaerobic-treatment-of-aquaponics-lettuce-waste-digestion- |
| work_keys_str_mv |
AT zhuze onsiteanaerobictreatmentofaquaponicslettucewastedigestionefficiencyandnutrientrecovery AT yogevuri onsiteanaerobictreatmentofaquaponicslettucewastedigestionefficiencyandnutrientrecovery AT keesmankarelj onsiteanaerobictreatmentofaquaponicslettucewastedigestionefficiencyandnutrientrecovery AT grossamit onsiteanaerobictreatmentofaquaponicslettucewastedigestionefficiencyandnutrientrecovery |
| _version_ |
1819144296523104256 |