Energy and nutrient recovery from agro-wastes: Rethinking their potential possibilities

Vaish, Barkha; Srivastava, Vaibhav; Singh, Prabhat Kumar; Singh, Pooja; Singh, Rajeev Pratap

doi:10.4491/eer.2019.269

Cited by 25 publications

(13 citation statements)

References 123 publications

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“…142 A comprehensive study on various bio-based sources for conductive carbon has been recently made by Zia et al, 143 including agricultural crops, energy crops, crop residue, forest, forestry residue, aquatic crops, municipal waste and industrial waste, confirming the high potential application of these materials in sectors for energy storage and harvesting. Elemental composition in terms of nitrogen content also confirmed values of 1-5% in agricultural 144 and food wastes. 145 It has also been demonstrated that green mode-based synthesized nanoparticles exert antibacterial, antioxidant, and antifungal activity against a plethora of pathogens for food packaging purposes, facilitating a simple, alternative, interactive and reliable technology with positive feedback for the food industries and packaging markets.…”

Section: Biowaste Feedstocks For Nanofillerssupporting

confidence: 54%

Section: Biowaste Feedstocks For Nanofillerssupporting

confidence: 53%

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Organic waste valorisation towards circular and sustainable biocomposites

2022

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Section: Biowaste Feedstocks For Nanofillerssupporting

confidence: 54%

Section: Biowaste Feedstocks For Nanofillerssupporting

confidence: 53%

Organic waste valorisation towards circular and sustainable biocomposites

2022

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“…Certification, fortification, and labeling increase farmers' willingness to accept and pay for HEDM [16,45]. Comlizer, an example of a blend of compost and inorganic fertilizers developed in Ghana, reported higher nitrogen and phosphorus uptake, soil organic matter, nutrient uptake, water use efficiency, and crop yield than chemical fertilizers [129,130]. Pelletizing compost, for instance, is important as it improves product structure and bulk density, which reduce the costs associated with handling, transport, and storage [45,131,132].…”

Section: Implications Of the Study For Research Policy And Developmmentioning

confidence: 99%

Attitudes and Perceptions on the Agricultural Use of Human Excreta and Human Excreta Derived Materials: A Scoping Review

et al. 2021

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This study explicates the scope of published literature on the influence of attitudes and perceptions on the intention to use human excreta and human excreta derived materials in agriculture. Using a scoping review methodology, search results from Scopus and Web of Science were screened and synthesized using the DistillerSR web-based application. Out of the 1192 studies identified, 22 published articles met the inclusion criteria. Additional studies were identified by keyword enrichment, hand-searching, and snowballing in other electronic data bases. The benefit perception of the soil health, income, and yield was the main driver for positive attitudes. Perceived health risk and socio-cultural factors were reported as the main barriers to the use of human excreta derived materials in agriculture. Limited information, availability, collection, transport, and storage were the other reported perceived barriers. The influence of socioeconomic and demographic factors on farmers’ attitudes and perceptions was inconclusive, which is potentially attributed to contextual and methodological differences. Social and behavior change communication through community mass campaigns and targeting interventions segregated by socioeconomic and demographic contexts is recommended for development interventions. Future empirical studies could focus on the influence of crop types, treatment processes, food preparation and processing on attitudes and perceptions.

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“…Emphasis on reducing fossil-fuel dependency and mining of limited natural resources has driven an enhanced attention towards nutrient recovery from biomass streams such as animal manure, household and food waste, and sewage sludge [5][6][7][8][9][10]. The concept of a circular economy deeply highlights the significance of nutrient recovery, with an aim to prevent detrimental environmental effects such as soil salinity, eutrophication of water bodies, accumulation of nitrates in groundwater, heavy metal accumulation in soil, and release of greenhouse gases [11,12].…”

Section: Introductionmentioning

confidence: 99%

Digestate-Derived Ammonium Fertilizers and Their Blends as Substitutes to Synthetic Nitrogen Fertilizers

et al. 2022

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Nutrient recovery from biomass streams generates novel recycling-derived fertilizers (RDFs). The effect of RDFs depends on their nutrient content and variability, which can aid or hinder their use by end-users. Detailed characterization of RDFs can help in evaluating product properties, whereas blending RDFs can optimize their nutrient ratios and reduce nutrient variability. This study assesses ammonium nitrate (AN) from stripping-scrubbing, ammonium water (AW) and concentrate (CaE) from evaporation, and two tailor-made blends (AN + CaE and AW + CaE), for their potential as nitrogen (N) fertilizers in the pot cultivation of lettuce. Parallelly, a soil incubation experiment was conducted to investigate the N release dynamics of the tested RDFs. The RDFs were compared against the commercial calcium ammonium nitrate (CAN) and an unfertilized control. AN and AW fertilization resulted in a similar crop yield and N uptake to the CAN treatment. CaE and blends exhibited poor yield and N uptake, possibly due to the sodium toxicity detected. AN and AW displayed N fertilizer replacement values above 100%, whereas CaE and blends exhibited poor results in the current experiments. The soil incubation experiment showed a positive soil priming effect in AN and AW treatment, as their N release was over 100%. Further research under uncontrolled field conditions utilizing AN and AW for diverse crop types can validate their N replacement potential.

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Energy and nutrient recovery from agro-wastes: Rethinking their potential possibilities

Cited by 25 publications

References 123 publications

Organic waste valorisation towards circular and sustainable biocomposites

Organic waste valorisation towards circular and sustainable biocomposites

Attitudes and Perceptions on the Agricultural Use of Human Excreta and Human Excreta Derived Materials: A Scoping Review

Digestate-Derived Ammonium Fertilizers and Their Blends as Substitutes to Synthetic Nitrogen Fertilizers

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