MULTI-STAGE OPTIMAL CONTROL OF LIGNOCELLULOSIC BIOETHANOL PRODUCTION

The dynamics of production and purification of ethanol from sorghum lignocellulosic materials by a three stages process was modeled and optimized in this work. The process involves a first stage for hydrolyzing sweet sorghum bagasse; a second stage for fermenting the generated sugars and a third stage for the separation of ethanol. Kinetic and distillation equations were embedded into macroscopic balances in order to derive a mathematical model used to solve the three-stage optimal control problem. The aim was to maximize the process productivity by optimally managing the controlled flows between units and by optimally fixing the switching times between the process stages.

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Experimental Study on Calcium Hydroxide-Assisted Delignification of Hydrothermally Treated Sweet Sorghum Bagasse

International Journal of Chemical Engineering ◽

10.1155/2014/684296 ◽

2014 ◽

Vol 2014 ◽

pp. 1-9 ◽

Cited By ~ 4

Author(s):

Jiby Kudakasseril Kurian ◽

Yvan Gariepy ◽

Mark Lefsrud ◽

Valerie Orsat ◽

Philippe Seguin ◽

...

Keyword(s):

Residence Time ◽

Sweet Sorghum ◽

Isothermal Treatment ◽

Lignocellulosic Materials ◽

Solid Residue ◽

Sweet Sorghum Bagasse ◽

Residual Lignin ◽

Optimum Conditions ◽

Sorghum Bagasse ◽

On Farm

The hydrothermally treated sweet sorghum bagasse (SSB) powder was treated using Ca(OH)2to extract the lignin from it. Changes in chemical composition of SSB and the formation of sugars and hydrolytic products were studied. The optimum conditions of 10% (g/g substrate) Ca(OH)2and 106.3 min of isothermal treatment residence time at 394 K resulted in 69.67 ± 1.26% of the lignin extracted from the hydrothermally treated SSB powder, producing a solid residue containing 68.29 ± 0.31% residual cellulose and 13.26 ± 0.32% residual lignin in it. The Ca(OH)2concentration and isothermal treatment residence time were significant in the responses observed. Treatment using Ca(OH)2is one of the potential processes for the on-farm processing of lignocellulosic materials.

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Theory, practice, and politics - Policy decision-making process based on epidemiology and public health evidence proved to be feasible in multistage research on blood-borne infections in Poland.

10.21203/rs.2.20327/v1 ◽

2020 ◽

Author(s):

ANITA GĘBSKA-KUCZEROWSKA ◽

Robert Gajda

Keyword(s):

Service Providers ◽

Policy Decision ◽

Decision Makers ◽

Public Healthcare ◽

Second Stage ◽

Multi Stage ◽

Third Stage ◽

Three Stages ◽

Policy Decision Making ◽

Epidemiology And Public Health

Abstract Objective This study presented a research methodology used to prepare the proposal of assumptions regarding the strategy for preventing blood-borne diseases in Poland. Methods The project was carried out from 18th July to 30th November 2016. The tasks under that project were assigned to an outsourcing company to avoid the tendency in respondents’ answers. The research was divided into three stages. The first stage diagnosed the problem from the perspectives of service providers, practitioners, and epidemiologists – persons who encounter problems related to blood-derivative infections at work. The second stage involved analysis at the level of local and country health policy – the institution of supervision, authorities, and administration through the engagement of experts, and public healthcare specialists. In the third stage, decision makers were interviewed (key representatives– that is, the opinions of leaders were sought) and asked to summarize and define priorities regarding conclusions determined in the earlier phases of the project, i.e., during the first and second stages. Results The final output of the entire project is a list of key problems/challenges and solution proposals associated with medical and nonmedical services that are connected to the breakage of tissue continuity. Conclusions Results composed from the multi-stage survey regarded proposed assumptions for the strategy for the prevention of blood-borne infections in Poland. Statistical data allowed the assessment of the health effects, while the methodology applied also allowed diagnosis of the processes leading to these effects.Funding This study was supported by a Swiss Contribution and Ministry of Health grant (KIK35).

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The Coherence of Mary Barton: Romance, Realism, and Utopia

Victoriographies ◽

10.3366/vic.2015.0194 ◽

2015 ◽

Vol 5 (3) ◽

pp. 185-200

Author(s):

Robert Z. Birdwell

Keyword(s):

Thomas Carlyle ◽

The Novel ◽

Second Stage ◽

The Third ◽

Third Stage ◽

Three Stages ◽

Mode Of Production

Critics have argued that Elizabeth Gaskell's first novel, Mary Barton (1848), is split by a conflict between the modes of realism and romance. But the conflict does not render the novel incoherent, because Gaskell surpasses both modes through a utopian narrative that breaks with the conflict of form and gives coherence to the whole novel. Gaskell not only depicts what Thomas Carlyle called the ‘Condition of England’ in her work but also develops, through three stages, the utopia that will redeem this condition. The first stage is romantic nostalgia, a backward glance at Eden from the countryside surrounding Manchester. The second stage occurs in Manchester, as Gaskell mixes romance with a realistic mode, tracing a utopian drive toward death. The third stage is the utopian break with romantic and realistic accounts of the Condition of England and with the inadequate preceding conceptions of utopia. This third stage transforms narrative modes and figures a new mode of production.

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Impact of Lignin Content on the Sweet Sorghum Bagasse Enzymatic Hydrolysis

Energy Procedia ◽

10.1016/j.egypro.2014.12.251 ◽

2014 ◽

Vol 61 ◽

pp. 1957-1960

Author(s):

Zhipei Yan ◽

Jihong Li ◽

Shizhong Li ◽

Ting Cui ◽

Yan Jiang ◽

...

Keyword(s):

Enzymatic Hydrolysis ◽

Sweet Sorghum ◽

Lignin Content ◽

Sweet Sorghum Bagasse ◽

Sorghum Bagasse

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Insights into the physiology of Chlorella vulgaris cultivated in sweet sorghum bagasse hydrolysate for sustainable algal biomass and lipid production

Scientific Reports ◽

10.1038/s41598-021-86372-2 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Neha Arora ◽

George P. Philippidis

Keyword(s):

Sweet Sorghum ◽

Lipid Production ◽

Scale Up ◽

Cellular Growth ◽

Sweet Sorghum Bagasse ◽

Triacylglycerol Synthesis ◽

Sugar Addition ◽

Dry Cell Weight ◽

Sorghum Bagasse ◽

Mixotrophic Conditions

AbstractSupplementing cultivation media with exogenous carbon sources enhances biomass and lipid production in microalgae. Utilization of renewable organic carbon from agricultural residues can potentially reduce the cost of algae cultivation, while enhancing sustainability. In the present investigation a medium was developed from sweet sorghum bagasse for cultivation of Chlorella under mixotrophic conditions. Using response surface methodology, the optimal values of critical process parameters were determined, namely inoculum cell density (O.D.750) of 0.786, SSB hydrolysate content of the medium 25% v/v, and zero medium salinity, to achieve maximum lipid productivity of 120 mg/L/d. Enhanced biomass (3.44 g/L) and lipid content (40% of dry cell weight) were observed when the alga was cultivated in SSB hydrolysate under mixotrophic conditions compared to heterotrophic and photoautotrophic conditions. A time course investigation revealed distinct physiological responses in terms of cellular growth and biochemical composition of C. vulgaris cultivated in the various trophic modes. The determined carbohydrate and lipid profiles indicate that sugar addition to the cultivation medium boosts neutral lipid synthesis compared to structural lipids, suggesting that carbon flux is channeled towards triacylglycerol synthesis in the cells. Furthermore, the fatty acid profile of lipids extracted from mixotrophically grown cultures contained more saturated and monosaturated fatty acids, which are suitable for biofuel manufacturing. Scale-up studies in a photobioreactor using SSB hydrolysate achieved a biomass concentration of 2.83 g/L consisting of 34% lipids and 26% carbohydrates. These results confirmed that SSB hydrolysate is a promising feedstock for mixotrophic cultivation of Chlorella and synthesis of algal bioproducts and biofuels.

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Optimization of a pretreatment and hydrolysis process for the efficient recovery of recycled sugars and unknown compounds from agricultural sweet sorghum bagasse stem pith solid waste

PeerJ ◽

10.7717/peerj.6186 ◽

2019 ◽

Vol 6 ◽

pp. e6186 ◽

Cited By ~ 2

Author(s):

Ting-Ting Jiang ◽

Yan Liang ◽

Xiang Zhou ◽

Zi-Wei Shi ◽

Zhi-Jun Xin

Keyword(s):

Solid Waste ◽

Sweet Sorghum ◽

Agricultural Waste ◽

Value Added ◽

Raw Material ◽

Alkali Concentration ◽

Sweet Sorghum Bagasse ◽

Amorphous Cellulose ◽

Sorghum Bagasse ◽

Value Added Products

Background Sweet sorghum bagasse (SSB), comprising both a dermal layer and pith, is a solid waste generated by agricultural activities. Open burning was previously used to treat agricultural solid waste but is harmful to the environment and human health. Recent reports showed that certain techniques can convert this agricultural waste into valuable products. While SSB has been considered an attractive raw material for sugar extraction and the production of value-added products, the pith root in the SSB can be difficult to process. Therefore, it is necessary to pretreat bagasse before conventional hydrolysis. Methods A thorough analysis and comparison of various pretreatment methods were conducted based on physicochemical and microscopic approaches. The responses of agricultural SSB stem pith with different particle sizes to pretreatment temperature, acid and alkali concentration and enzyme dosage were investigated to determine the optimal pretreatment. The integrated methods are beneficial to the utilization of carbohydrate-based and unknown compounds in agricultural solid waste. Results Acid (1.5−4.5%, v/v) and alkali (5−8%, w/v) reagents were used to collect cellulose from different meshes of pith at 25–100 °C. The results showed that the use of 100 mesh pith soaked in 8% (w/v) NaOH solution at 100 °C resulted in 32.47% ± 0.01% solid recovery. Follow-up fermentation with 3% (v/v) acid and 6.5% (w/v) alkali at 50 °C for enzymolysis was performed with the optimal enzyme ratio. An analysis of the surface topography and porosity before and after pretreatment showed that both the pore size of the pith and the amount of exposed cellulose increased as the mesh size increased. Interestingly, various compounds, including 42 compounds previously known to be present and 13 compounds not previously known to be present, were detected in the pretreatment liquid, while 10 types of monosaccharides, including D-glucose, D-xylose and D-arabinose, were found in the enzymatic solution. The total monosaccharide content of the pith was 149.48 ± 0.3 mg/g dry matter. Discussion An integrated technique for obtaining value-added products from sweet sorghum pith is presented in this work. Based on this technique, lignin and hemicellulose were effectively broken down, amorphous cellulose was obtained and all sugars in the sweet sorghum pith were hydrolysed into monosaccharides. A total of 42 compounds previously found in these materials, including alcohol, ester, acid, alkene, aldehyde ketone, alkene, phenolic and benzene ring compounds, were detected in the pretreatment pith. In addition, several compounds that had not been previously observed in these materials were found in the pretreatment solution. These findings will improve the transformation of lignocellulosic biomass into sugar to create a high-value-added coproduct during the integrated process and to maximize the potential utilization of agricultural waste in current biorefinery processing.

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