Sviluppo ed analisi di un sistema dual-fuel diesel/benzina per combustioni di tipo RCCI

Nel presente lavoro è progettato e sviluppato un sistema dual-fuel diesel/benzina per combustioni di tipo RCCI, e sono esposti i risultati sperimentali in termini di prestazioni ed emissioni. E' inoltre descritto e implementato un algoritmo di stima dell'MFB50 a partire dalla sola misura della velocità motore.

Analisi preliminare di combustioni innovative su un motore diesel di piccola cilindrata

Analisi delle emissioni di inquinanti per combustioni innovative Dual-Fuel e Premixed Charge Compression Ignition (PCCI) operate su un motore Diesel, nel laboratorio di propulsione e macchine della Scuola d'Ingegneria e Architettura con sede a Forlì. Tale studio è stato realizzato in quanto la riduzione delle emissioni e dei consumi sono caratteristiche di primo impatto per la competitività sul mercato di un motore e poiché le emissioni di inquinanti sono regolate da standard europei che ne esigono la continua riduzione. L'obiettivo della ricerca è quello di definire un pattern di combustioni, variando il valore e la sincronizzazione dei parametri delle attuazioni, che consenta la riduzione di inquinanti senza compromettere le prestazioni. Capire come ottenere minori emissioni di inquinanti significa poter far rientrare anche i motori diesel nelle future normative EURO 6 (già definite ed in vigore da Settembre 2014), e di seguire studi paralleli sulla riduzione dei consumi sui quali sono già stati riscontrati risultati positivi.

Diesel knock combustion and its detection using acoustic emission

This paper presents an experimental investigation into the detection of excessive Diesel knock using acoustic emission signals. Three different dual-fuel Diesel engine operating regimes were induced into a compression ignition (Diesel) engine operating on both straight Diesel fuel and two different mixtures of fumigated ethanol and Diesel. The experimentally induced engine operating regimes were; normal, or Diesel only operation, acceptable dual-fuel operation and dual-fuel operation with excessive Diesel knock. During the excessive Diesel knock operating regime, high rates of ethanol substitution induced potentially damaging levels of Diesel knock. Acoustic emission data was captured along with cylinder pressure, crank-angle encoder, and top-dead centre signals for the different engine operating regimes. Using these signals, it was found that acoustic emission signals clearly distinguished between the two acceptable operating regimes and the operating regime experiencing excessive Diesel knock. It was also found that acoustic emission sensor position is critical. The acoustic emission sensor positioned on the block of the engine clearly related information concerning the level of Diesel knock occurring in the engine whist the sensor positioned on the head of the engine gave no indication concerning Diesel knock severity levels.

Thermodynamic modeling of ethanol fumigation in a diesel engine

Due to rapidly diminishing international supplies of fossil fuels, such as petroleum and diesel, the cost of fuel is constantly increasing, leading to higher costs of living, as a result of the significant reliance of many industries on motor vehicles. Many technologies have been developed to replace part or all of a fossil fuel with bio-fuels. One of the dual fuel technologies is fumigation of ethanol in diesel engines, which injects ethanol into the intake air stream of the engine. The advantage of this is that it avoids any costly modification of the engine high pressure diesel injection system, while reducing the volume of diesel required and potentially increasing the power output and efficiency. This paper investigates the performance of a diesel engine, converted to implement ethanol fumigation. The project will use both existing experimental data, along with generating computer modeled results using the program AVL Boost. The data from both experiments and the numerical simulation indicate desirable results for the peak pressure and the indicated mean effective pressure (IMEP). Increase in ethanol substitution resulted in elevated combustion pressure and an increase in the IMEP, while the variation of ethanol injection location resulted in negligible change. These increases in cylinder pressure led to a higher work output and total efficiency in the engine as the ethanol substitution was increased. In comparing the numerical and experimental results, the simulation showed a slight elevation, due to the inaccuracies in the heat release models. Future work is required to improve the combustion model and investigate the effect of the variation of the location of ethanol injection.

车用柴油/天然气双燃料发动机的开发

为了降低发动机的有害排放物，以车用X6130柴油机为基础，研究开发了车用柴油/天然气双燃料发动机。首先确定双燃料发动机的技术方案，然后进行天然气/空气混合器的设计与实验，最后进行双燃料发动机的台架性能实验。实验结果表明：在全负荷时，与原型柴油机相比，双燃料发动机排气烟度明显降低，天然气替代率可超过70%，而输出转矩和输出功率并没有降低。同时证明提出的双燃料发动机技术方案是切实可行的。

煤油-氢双燃料超音速燃烧研究

本课题进行了“煤油一氢”双燃料超音速燃烧的实验研究，采用一维近似计算程序对实验数据进行处理，对此一维程序所用模型也作了说明。实验采用“煤油一氢”双燃料超音速燃烧方案，即利用少量的氢与来流空气自然形成引导火焰与煤油进行混合燃烧。实验是在超单速燃烧实验台上进行的，实验空气总温1800K左右、总压17atm左右，燃烧室进口M为2.5，可以模拟飞行M数为7的超燃冲压发动机中的燃烧工况。在没有附加点火的情况下，能实现煤油一氢双燃料自点火并维持稳定燃烧的条件包括：氢的最小当量比、燃料的喷注方式与燃烧室几何形状等。因此，本实验进行了四方面的研究内容：（1）氢气当量比对点火极限的影响；（2）煤油驱动气压力对点火极限的影响；（3）不同凹槽形火焰稳定器对燃烧的影响，包括改变凹槽形状和改变喷油孔的位置；（4）实验空气总温对燃烧的影响。用一维超音速燃烧程序对实验数据进行了处理，实验结果表明，通过合理地控制氢气当量比、煤油当量比，在一定的总温总压条件下，利用合适的火焰稳定器，采用煤油一氢双燃料超音速燃烧方案实施煤油的超单速燃烧是可行的，其中凹槽形火焰稳定器对点火与燃烧有重要的作用。本实验研究表明，氢气当量比的最低极限为0.09左右，来流总温最低生在1710K时煤油仍能点燃。实验结果说明，煤油一氢双燃料超音速燃料超烯冲压发动机来说，煤油一氢双燃料超音速燃烧的氢量可以控制在较低的范围，并且来流温度要求不是很高，因此对于碳氢燃料超燃冲压发动机来说，煤油一氢双燃料超音速燃烧方案具有较为实用的价值。

Análise do desempenho de um queimador infravermelho funcionando com gás liquefeito de petróleo e glicerina

The use of infrared burners in industrial applications has many advantages in terms of technical-operational, for example, uniformity in the heat supply in the form of radiation and convection, with greater control of emissions due to the passage of exhaust gases through a macro-porous ceramic bed. This paper presents an infrared burner commercial, which was adapted an experimental ejector, capable of promoting a mixture of liquefied petroleum gas (LPG) and glycerin. By varying the percentage of dual-fuel, it was evaluated the performance of the infrared burner by performing an energy balance and atmospheric emissions. It was introduced a temperature controller with thermocouple modulating two-stage (low heat / high heat), using solenoid valves for each fuel. The infrared burner has been tested and tests by varying the amount of glycerin inserted by a gravity feed system. The method of thermodynamic analysis to estimate the load was used an aluminum plate located at the exit of combustion gases and the distribution of temperatures measured by a data acquisition system which recorded real-time measurements of the thermocouples attached. The burner had a stable combustion at levels of 15, 20 and 25% of adding glycerin in mass ratio of LPG gas, increasing the supply of heat to the plate. According to data obtained showed that there was an improvement in the efficiency of the 1st Law of infrared burner with increasing addition of glycerin. The emission levels of greenhouse gases produced by combustion (CO, NOx, SO2 and HC) met the environmental limits set by resolution No. 382/2006 of CONAMA

Desenvolvimento de programa computacional aplicado ao empacotamento do palhiço de cana-de-açúcar

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Programação linear inteira aplicada ao aproveitamento do palhiço da cana-de-açúcar

Pós-graduação em Agronomia (Energia na Agricultura) - FCA

ANALISANDO O GRAU DE RELAÇÃO E CORRELAÇÃO ENTRE VARIÁVEIS MACROECONÔMICAS E O SETOR SUCROALCOOLEIRO

O modelo brasileiro de utilização de recursos provenientes de biomassa pode ser considerado como referência na utilização em substituição da matriz energética. Dentre eles o etanol vem se destacando como uma fonte de bioenergia cada vez mais utilizada, principalmente na frota de veículos, tal incentivo vem sendo sedimentado ao longo de quase quatro décadas desde a primeira crise do petróleo com a implantação do PROALCOOL até o desenvolvimento e a aplicação da tecnologia de carros bicombustíveis conhecidos como veículos flex, que hoje representam aproximadamente 90% dos automóveis vendidos. O presente trabalho buscará identificar a existência de uma relação entre os indicadores de produção de automóveis, o aumento de produção de etanol e as variáveis macroeconômicas pelos índices de INCC, IPCA e IGP-M que são amplamente conhecidos e reconhecidos pelo governo, empresários e população. Foi utilizada a técnica multivariada de regressão e correlação com auxilio do oftware SPSS. Os resultados sugerem que existe uma correlação entre os índices macroeconômicos mais baixos e o aumento da produção de automóveis e de etanol.

A comparison of integrated biomass to electricity systems

This thesis presents a comparison of integrated biomass to electricity systems on the basis of their efficiency, capital cost and electricity production cost. Four systems are evaluated: combustion to raise steam for a steam cycle; atmospheric gasification to produce fuel gas for a dual fuel diesel engine; pressurised gasification to produce fuel gas for a gas turbine combined cycle; and fast pyrolysis to produce pyrolysis liquid for a dual fuel diesel engine. The feedstock in all cases is wood in chipped form. This is the first time that all three thermochemical conversion technologies have been compared in a single, consistent evaluation.The systems have been modelled from the transportation of the wood chips through pretreatment, thermochemical conversion and electricity generation. Equipment requirements during pretreatment are comprehensively modelled and include reception, storage, drying and communication. The de-coupling of the fast pyrolysis system is examined, where the fast pyrolysis and engine stages are carried out at separate locations. Relationships are also included to allow learning effects to be studied. The modelling is achieved through the use of multiple spreadsheets where each spreadsheet models part of the system in isolation and the spreadsheets are combined to give the cost and performance of a whole system.The use of the models has shown that on current costs the combustion system remains the most cost-effective generating route, despite its low efficiency. The novel systems only produce lower cost electricity if learning effects are included, implying that some sort of subsidy will be required during the early development of the gasification and fast pyrolysis systems to make them competitive with the established combustion approach. The use of decoupling in fast pyrolysis systems is a useful way of reducing system costs if electricity is required at several sites because• a single pyrolysis site can be used to supply all the generators, offering economies of scale at the conversion step. Overall, costs are much higher than conventional electricity generating costs for fossil fuels, due mainly to the small scales used. Biomass to electricity opportunities remain restricted to niche markets where electricity prices are high or feed costs are very low. It is highly recommended that further work examines possibilities for combined beat and power which is suitable for small scale systems and could increase revenues that could reduce electricity prices.

Engines for combined heat and power

Spark-ignited (SI) gas engines are for the use of fuel gas only and are limited to the flammable range of the gas; this means the range of a concentration of a gas or vapor that will burn after ignition. Fuel gas like syngas from gasification or biogas must meet high quality and chemical purity standards for combustion in SI gas engines. Considerable effort has been devoted to fast pyrolysis over the years and some of the product oils have been tested in diesel or dual-fuel engines since 1993. For biogas conversion, usually dual-fuel engines are used, while for synthesis gas the use of gas engines is more common. The trials using wood derived pyrolysis oil from fast pyrolysis have not yet been a success story and these approaches have usually failed due to the high corrosivity of the pyrolysis oils.