Algal fuel production by industry: process simulation and economic assessment

Surfactants are amphiphilic molecules that have been used in widely used as emulsifier and cleaning agent in various industries. These broad industrial applications made the global surfactant production increased annually. In 2020, the amount of global surfactant production estimated would reach more than 24 million per year. However, the currently used surfactants are synthetically produced from chemical or petroleum-derived products, so it is often toxic and non-biodegradable. Rhamnolipids are “surfactant like” molecules produced by Pseudomonas aeruginosa, which could be alternatives for more environmentally friendly surfactants. The use of rhamnolipids is quite limited due to its expensive production cost. The production cost of rhamnolipid could be reduced using by agro-industrial by-product as a substrate. One of the abundant agro-industrial by-products in Indonesia that can be used as a substrate for rhamnolipid production is Oil Palm Empty Fruit Bunch (OPEFB). This study employed SuperPro Designer v9.5 to performed process simulation and economic assessment of rhamnolipid production using OPEFB as a substrate through two different purification methods, which are solvent extraction and chromatography adsorption. Based on the process simulation that has been done, the process that used adsorption chromatography purification methods more efficient in terms of the usage of the feedstock and energy. The economic assessment also showed that these methods were more profitable and economically attractive, with the value of NPV 11.400.000 USD, IRR 11,64%, and Payback Period 6,21 years.

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Process Simulation of Municipal Solid Waste Derived Pellet Gasification for Fuel Production

Proceedings of the 7th International Conference on Informatics, Environment, Energy and Applications - IEEA '18 ◽

10.1145/3208854.3208869 ◽

2018 ◽

Author(s):

Aviwe Hlaba ◽

Ademola Rabiu ◽

Otolorin Adelaja Osibote

Keyword(s):

Municipal Solid Waste ◽

Solid Waste ◽

Process Simulation ◽

Fuel Production

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Techno-Economic Analysis of Vinasse Treatment Alternatives Through Process Simulation: A Case Study of Cuban Distillery

10.21203/rs.3.rs-518806/v1 ◽

2021 ◽

Author(s):

Arletis Cruz Llerena ◽

Osney Perez Ones ◽

Lourdes Zumalacárregui de Cárdenas ◽

José Luis Pérez de los Ríos

Keyword(s):

Process Simulation ◽

Electricity Generation ◽

Industrial Effluents ◽

Economic Assessment ◽

Actual Condition ◽

Animal Food ◽

Investment Projects ◽

Aspen Hysys ◽

Treatment Alternatives

Abstract Purpose Vinasse is one of the organic industrial effluents with major polluting effect. The objective of this work was to perform a techno-economic assessment of vinasses treatment alternatives for valorization of this waste through process simulation with Aspen Hysys v10.0. Methods Four alternatives were studied: (A_1) incineration and electricity generation, (A_2) desalinization, (A_3) anaerobic digestion and electricity generation and (A_4) drying. The selected packages for the evaluation and prediction of properties were: Lee-Kesler-Plöcker and NBS Steam, NRTL-Ideal, Peng-Robinson-Stryjer-Vera and NBS Steam and NRTL-Ideal respectively; the validation in these cases was carried out with data reported in the literature. The economic evaluation was carried according to the changes that each alternative determines in each one of the elements of effective cash flow comparing with the actual condition. Results With the alternative A_1, fertilizers ashes are obtained removing all the residual and the energy generation. By the alternative A_2, fertilizers salts and desalinate vinasses (for animal food) were obtained. By the alternative A_3, energy is generated from biogas. By the alternative A_4, dry vinasse is obtained which is used as fertilizer and animal food. Conclusion The polluting effect of the vinasse can be reduced with the proposed treatment alternatives. It was showed that the alternatives are feasible, being the alternative A_1 the best, with a NPV of $ 1.29 MMUSD, IRR 25.5% and DPBP 2.7 years. Process simulation are a valuable supporting tool when making decisions in investment projects for valorization of vinasse from the ethanol industry.

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TECHNO-ECONOMIC ASSESSMENT OF TRANSFORMING SORGHUM BAGASSE INTO BIOETHANOL FUEL IN NIGERIA: 1 - PROCESS MODELLING, SIMULATION, AND COST ESTIMATION

Journal of Engineering Studies and Research ◽

10.29081/jesr.v26i3.219 ◽

2020 ◽

Vol 26 (3) ◽

pp. 154-164

Author(s):

AJAYI OLUFUNMILOLA OYENIKE ◽

ONIFADE KOLAWOLE RASHEED ◽

ONADEJI ABIODUN ◽

OYEGOKE TOYESE

Keyword(s):

Cost Estimation ◽

Economic Assessment ◽

Fuel Production ◽

Environmental Threats ◽

Aspen Hysys ◽

Process Plant ◽

Sorghum Bagasse ◽

Alternative Sources ◽

Cost Implications ◽

Bioethanol Fuel

Apart from the environmental threats posed by fossil fuel due to emissions of greenhouse gases (majorly CO2), Nigeria's economy's continuous reliance on only one source of fuel production is unsustainable, hence, the need to consider diversification and alternative sources of energy generation and fuel production. This work aims to model and simulate the process of transforming sorghum bagasse into a fuel grade bioethanol via the use of Aspen HYSYS and MATLAB for the development and evaluation of cost implications and demand of the concerned plant studied. The study of process plant models shows that 189 g of fuel grade bioethanol will be obtainable from a kilogram of sorghum bagasse based on the condition employed in the modeling of the process. Cost analysis indicates that it would require a capital and operation cost worth of $1.92 and $ 0.83, respectively, to produce a liter of fuel grade bioethanol from sorghum bagasse.

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