| Title | Introducing a Marine Biorefinery System for the Integrated Production of Biofuels, High-Value-Chemicals, and Co-Products: A Path Forward to a Sustainable Future |
|---|---|
| ID_Doc | 6391 |
| Authors | Zaky, AS |
| Title | Introducing a Marine Biorefinery System for the Integrated Production of Biofuels, High-Value-Chemicals, and Co-Products: A Path Forward to a Sustainable Future |
| Year | 2021 |
| Published | Processes, 9, 10 |
| Abstract | Biofuels have many environmental and practical benefits as a transportation fuel. They are among the best alternatives to fossil fuels- thanks to their capacity for negative carbon emissions, which is vital for archiving the global ambition of a net-zero economy. However, conventional biofuel production takes place on inland sites and relies on freshwater and edible crops (or land suitable for edible crop production), which has led to the food versus fuel debate. It also suffers technical and economical barriers owing to the energy balance and the cost of production compared with fossil fuels. Establishing a coastal integrated marine biorefinery (CIMB) system for the simultaneous production of biofuels, high-value chemicals, and other co-products could be the ultimate solution. The proposed system is based on coastal sites and relies entirely on marine resources including seawater, marine biomass (seaweed), and marine microorganisms (marine yeasts and marine microalgae). The system does not require the use of arable land and freshwater in any part of the production chain and should be linked to offshore renewable energy sources to increase its economic feasibility and environmental value. This article aims to introduce the CIMB system as a potential vehicle for addressing the global warming issue and speeding the global effort on climate change mitigation as well as supporting the world's water, food and energy security. I hope these perspectives serve to draw attention into research funding for this approach. |
| https://www.mdpi.com/2227-9717/9/10/1841/pdf?version=1634472439 |
Similar Articles
| ID | Score | Article |
|---|---|---|
15438
|
Seghetta, M; Hou, XR; Bastianoni, S; Bjerre, AB; Thomsen, M Life cycle assessment of macroalgal biorefinery for the production of ethanol, proteins and fertilizers - A step towards a regenerative bioeconomy(2016) | |
| 20885
|
Alvarado-Ramírez, L; Santiesteban-Romero, B; Poss, G; Sosa-Hernández, JE; Iqbal, HMN; Parra-Saldívar, R; Bonaccorso, AD; Melchor-Martínez, EM Sustainable production of biofuels and bioderivatives from aquaculture and marine waste(2023) | |
| 21173
|
Khan, MA; Abbas, A; Dickson, R A strategy for commercialization of macroalga biorefineries(2023) | |
| 28488
|
Kumar, B; Verma, P Biomass-based biorefineries: An important architype towards a circular economy(2021) | |
| 26275
|
Dias, RR; Deprá, MC; de Menezes, CR; Zepka, LQ; Jacob-Lopes, E The High-Value Product, Bio-Waste, and Eco-Friendly Energy as the Tripod of the Microalgae Biorefinery: Connecting the Dots(2023)Sustainability, 15, 15 | |
| 27427
|
Amulya, K; Morris, S; Lens, PNL Aquatic biomass as sustainable feedstock for biorefineries(2023)Biofuels Bioproducts & Biorefining-Biofpr, 17.0, 4 | |
| 5176
|
Abdullah, MA; Nazir, MS; Hussein, HA; Shah, SMU; Azra, N; Iftikhar, R; Iqbal, MS; Qamar, Z; Ahmad, Z; Afzaal, M; Om, AD; Shaharah, MI; Rak, AE; Hung, YT New perspectives on biomass conversion and circular economy based on Integrated Algal-Oil Palm Biorefinery framework for sustainable energy and bioproducts co-generation(2024) | |
| 5337
|
San Juan, JLG; Ching, PML; Mayol, AP; Culaba, AB; Ubando, A Envinronmental Life Cycle Analysis of Algal Biorefineries for Biofuel Production under the Circular Economy Concept(2020) | |
| 23106
|
Isik, E; Akkaya, E Microalgal Biorefinery Applications(2022) | |
| 29158
|
Scapini, T; Dalastra, C; Camargo, AF; Kubeneck, S; Modkovski, TA; Alves, SL; Treichel, H Seawater-based biorefineries: A strategy to reduce the water footprint in the conversion of lignocellulosic biomass(2022) |