| Title | Cascading utilization of residual microalgal biomass: Sustainable strategies for energy, environmental and value-added product applications |
|---|---|
| ID_Doc | 23288 |
| Authors | Sambasivam, KM; Kuppan, P; Shashirekha, V; Tamilarasan, K; Abinandan, S |
| Title | Cascading utilization of residual microalgal biomass: Sustainable strategies for energy, environmental and value-added product applications |
| Year | 2023 |
| Published | |
| Abstract | Residual microalgal biomass, a byproduct of various microalgae-based processes, represents an abundant and underutilized resource with significant potential for sustainable energy production, environmental applications, and bioproduct development. The cascading approach seeks to maximize resource efficiency and minimize waste by utilizing residual microalgal biomass in a stepwise manner to produce multiple value-added products. This review presents the current research status of residual microalgal biomass applications, focusing on energy, environmental, and bioproduct sectors. It highlights the challenges and complexities associated with cascading utilization of residual microalgal biomass and proposes strategies for managing uncertainty, optimizing the process and introduces a model exemplifying the practical application of this approach. The review aims to provide a comprehensive understanding of the potential of residual microalgal biomass as a valuable resource and to encourage further research in this field to promote a sustainable and circular bioeconomy. |
| https://doi.org/10.1016/j.biteb.2023.101588 |
Similar Articles
| ID | Score | Article |
|---|---|---|
24059
|
Mishra, S; Roy, M; Mohanty, K Microalgal bioenergy production under zero-waste biorefinery approach: Recent advances and future perspectives(2019) | |
| 1801
|
Giwa, A; Abuhantash, F; Chalermthai, B; Taher, H Bio-Based Circular Economy and Polygeneration in Microalgal Production from Food Wastes: A Concise Review(2022)Sustainability, 14, 17 | |
| 25507
|
You, N; Deng, SH; Wang, CQ; Ngo, HH; Wang, XW; Yu, HB; Tang, L; Han, J Review and Opinions on the Research, Development and Application of Microalgae Culture Technologies for Resource Recovery from Wastewater(2023)Water, 15, 6 | |
| 10259
|
Tawfik, A; Ismail, S; Elsayed, M; Qyyum, MA; Rehan, M Sustainable microalgal biomass valorization to bioenergy: Key challenges and future perspectives(2022) | |
| 13180
|
Choudhary, S; Tripathi, S; Poluri, KM Microalgal-Based Bioenergy: Strategies, Prospects, and Sustainability(2022)Energy & Fuels, 36, 24 | |
| 24747
|
Sarma, S; Sharma, S; Rudakiya, D; Upadhyay, J; Rathod, V; Patel, A; Narra, M Valorization of microalgae biomass into bioproducts promoting circular bioeconomy: a holistic approach of bioremediation and biorefinery(2021)3 Biotech, 11, 8 | |
| 23106
|
Isik, E; Akkaya, E Microalgal Biorefinery Applications(2022) | |
| 69186
|
Kumar, D; Singh, B Algal biorefinery: An integrated approach for sustainable biodiesel production(2019) | |
| 20295
|
Hoang, AT; Sirohi, R; Pandey, A; Nizetic, S; Lam, SS; Chen, WH; Luque, R; Thomas, S; Arici, M; Pham, VV Biofuel production from microalgae: challenges and chances(2023)Phytochemistry Reviews, 22, 4 | |
| 2956
|
Chhandama, M; Rai, PK; Lalawmpuii Coupling bioremediation and biorefinery prospects of microalgae for circular economy(2023) |