| Title | Valorisation of pineapple wastes for food and therapeutic applications |
|---|---|
| ID_Doc | 13336 |
| Authors | Banerjee, S; Ranganathan, V; Patti, A; Arora, A |
| Title | Valorisation of pineapple wastes for food and therapeutic applications |
| Year | 2018 |
| Published | |
| Abstract | Background: Fruit and vegetable processing industries account for the largest segment of food waste which is produced worldwide. The disposal of this waste requires a huge capital investment, majority of which is the transportation costs. This results in dumping and burning of these wastes in open fields. Scope and approach: In this review, we have focussed on the valorisation schemes to extract valuable biomolecules from pineapple on-farm and processing waste for food and therapeutics applications. Biorefinery approach has been highlighted for sustainable production of value added products. Key findings and conclusion: The high content of carbohydrate (55%) in pineapple waste makes it an appropriate substrate for the production of valuable chemicals such as xylitol, xylooligosaccharides, lactic acid, succinic acid and others, which have potential application in the food industry. The enzyme, bromelain, which is present in pineapple, has potential for application in therapeutics as well as in the food industry. Such utilisation of waste could prove to be a better alternative in the mitigation of environmental problems and also to propose a novel method to produce valuable chemicals. Despite the opportunities, there are challenges in the valorisation of this waste, largely due to the poor understanding of its nutritional and economic value, gap in close-linked markets, logistics issues for plant scale-up. Since most of the research is limited to lab-scale studies, additional research is required to evaluate techno-economic feasibility of the processes involved in the biorefinery with minimum environmental impact for effective transition to circular economy. |
Similar Articles
| ID | Score | Article |
|---|---|---|
8685
|
Fissore, A; Marengo, M; Santoro, V; Grillo, G; Oliaro-Bosso, S; Cravotto, G; Dal Piaz, F; Adinolfi, S Extraction and Characterization of Bromelain from Pineapple Core: A Strategy for Pineapple Waste Valorization(2023)Processes, 11.0, 7 | |
| 12578
|
Paz-Arteaga, SL; Ascacio-Valdés, JA; Aguilar, CN; Cadena-Chamorro, E; Serna-Cock, L; Aguilar-González, MA; Ramírez-Guzmán, N; Torres-León, C Bioprocessing of pineapple waste for sustainable production of bioactive compounds using solid-state fermentation(2023) | |
| 23854
|
Balaraman, HB; Umasekar, S; Rajmohan, KS; Rathnasamy, SK Sustainable eutectic mixture-based ultrasound assisted multifaceted valorisation of pineapple waste for bromelain and bioethanol production(2022) | |
| 27460
|
Cassani, L; Gomez-Zavaglia, A Sustainable Food Systems in Fruits and Vegetables Food Supply Chains(2022) | |
| 28422
|
Amores-Monge, V; Goyanes, S; Ribba, L; Lopretti, M; Sandoval-Barrantes, M; Camacho, M; Corrales-Ureña, Y; Vega-Baudrit, JR Pineapple Agro-Industrial Biomass to Produce Biomedical Applications in a Circular Economy Context in Costa Rica(2022)Polymers, 14.0, 22 | |
| 21106
|
Tripathi, M; Diwan, D; Shukla, AC; Gaffey, J; Pathak, N; Dashora, K; Pandey, A; Sharma, M; Guleria, S; Varjani, S; Nguyen, QD; Gupta, VK Valorization of dragon fruit waste to value-added bioproducts and formulations: a review(2024)Critical Reviews In Biotechnology, 44.0, 6 | |
| 2529
|
Campos, DA; Gómez-García, R; Vilas-Boas, AA; Madureira, AR; Pintado, MM Management of Fruit Industrial By-Products-A Case Study on Circular Economy Approach(2020)Molecules, 25, 2 | |
| 24294
|
Villacís-Chiriboga, J; Vera, E; Van Camp, J; Ruales, J; Elst, K Valorization of byproducts from tropical fruits: A review, Part 2: Applications, economic, and environmental aspects of biorefinery via supercritical fluid extraction(2021)Comprehensive Reviews In Food Science And Food Safety, 20, 3 | |
| 5845
|
Sánchez, M; Laca, A; Laca, A; Díaz, M Towards food circular economy: hydrothermal treatment of mixed vegetable and fruit wastes to obtain fermentable sugars and bioactive compounds(2023)Environmental Science And Pollution Research, 30, 2 | |
| 15239
|
Saldanha, LF; Longo, VD; Romani, LC; Klein, GH; Camargo, AF; Fornari, AC; Bazoti, SF; Alves, SL Jr; Treichel, H Use of Mixed Fruit Waste Aimed at Producing Bioethanol and Extracting D-Limonene(2024) |