Modelling of a Brazilian ethanol plant: impact of the bagasse use and the ethanol dehydration on energy efficiency and s

PDF / 2,348,328 Bytes
25 Pages / 595.276 x 790.866 pts Page_size
107 Downloads / 226 Views

(2020) 42:568

TECHNICAL PAPER

Modelling of a Brazilian ethanol plant: impact of the bagasse use and the ethanol dehydration on energy efficiency and sustainability Sergio Luiz Pinto Castiñeiras Filho1 · Florian Pradelle1 Received: 28 May 2020 / Accepted: 28 September 2020 © The Brazilian Society of Mechanical Sciences and Engineering 2020

Abstract Ethanol has a large share in Brazilian primary energy consumption and plays a significant role in the mitigation of the emissions from combustion engines, as national regulations advance towards increasing anhydrous ethanol content in gasoline or by the direct use of hydrated ethanol as fuel. A simulation of a sugarcane ethanol plant with a regular yield of 85.3 L of ethanol per ton of cane was carried out. The investigated process starts from the cultivation of sugarcane to the production of hydrated and/or anhydrous ethanol. The study considered that bagasse can be either burnt for cogeneration or used as feedstock for the enzymatic hydrolysis system. Additionally, alternative energy sources (such as natural gas (NG) burnt in a boiler or electricity from the Brazilian National Interconnected System (NIS)) are considered in order to cover the domestic demand in cases where biomass lacked for energy purposes. Net energy ratio (NER), fossil energy ratio (FER) and total CO2 emission were modelled through central composite designs to assess scenarios in which the fraction of bagasse sent to hydrolysis (x1) and hydrated ethanol sent to dehydration (x2) both varied between 0 and 100%. The application of statistical tools (ANOVA, Student’s t test and R2) showed that x1 caused significant variations on the investigated parameters, while x2 proportioned mild effects. NER varied in the range 0.795–0.984, with an optimal value being found at (x1, x2) equal to (81.82, 0) and (36.67, 0) when the system is coupled to NIS and a NG boiler, respectively. FER was verified as high as 11.910 with energy from NIS to produce hydrated ethanol with maximal cogeneration from the bagasse. It diminished to 3, when around 40% of bagasse is sent to enzymatic hydrolysis instead for the cogeneration system and NG complements the domestic demand. Keywords Ethanol · Sugarcane · Bagasse hydrolysis · Cogeneration · Central composite design · Efficiency List of symbols 1G First generation 2G Second generation AE Anhydrous ethanol CCD Central composite design CO2 Carbon dioxide Technical Editor: Jader Barbosa. Electronic supplementary material The online version of this article (https://doi.org/10.1007/s40430-020-02653-3) contains supplementary material, which is available to authorized users. * Sergio Luiz Pinto Castiñeiras Filho [email protected] Florian Pradelle pradelle@puc‑rio.br 1

Department of Mechanical Engineering (DEM), Pontifícia Universidade Católica do Rio de Janeiro (PUC-Rio), Rio de Janeiro, Brazil

FC Field contribution FER Fossil energy ratio HE Hydrated ethanol HHV Higher heating value (MJ/kg) LHV Lower heating value (MJ/kg) MEG Mono-ethylene glycol mol% Per

Data Loading...

Modelling of a Brazilian ethanol plant: impact of the bagasse use and the ethanol dehydration on energy efficiency and s

Recommend Documents

Morphine and ethanol pretreatment effects on expression and extinction of ethanol-induced conditioned place preference a

Influence of Ethanol on Combustion and Knock

Stress tolerance and growth physiology of yeast strains from the Brazilian fuel ethanol industry

Ethanol and Environment

Characteristics of Fuel Ethanol

Biochemical Pharmacology of Ethanol

Ethanol Production from Enzymatic Hydrolysates Optimized of Agave tequilana Weber var. azul and Agave karwinskii bagasse

Ethanol Markets

Impact of focused ultrasound on the ethanol ablation of VX2 liver tumours in rabbits

Chemistry, Types and Sources of Ethanol

Consolidation of Ethanol/Bentonite Slurry Injected in a Planar Fracture; Mathematical Modelling and Experiment

Kinetic and mechanistic study of ethanol dehydration to diethyl ether over Ni-ZSM-5 in a closed batch reactor