ПІДВИЩЕННЯ ЦЕТАНОВОГО ЧИСЛА ДИЗЕЛЬНОГО ПАЛИВА ПРИ ДОМІШКАХ НАНОПОРОШКА ОКСИДА АЛЮМІНІЯ (AL2O3)

Ship power plants Pub Date : 2019-05-05 DOI:10.31653/smf39.2019.69-77

В.І. Кулік В.І.

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Abstract

The main trends in modern diesel engines are the increase in fuel efficiency and operational reliability of engines, as well as their environmental safety, mainly related to stringent emission requirements for exhaust gases. The necessity of the world navy fleet in the non-existent amount of fuel is clarified, the forecast is made, which implies further increase of its consumption. The total capacity of marine engines in the world, and in the longterm perspective, until 2050, is determined. The number of emissions of harmful substances into the atmosphere by the ships of the world fleet is shown, international norms are regulated, which strictly regulate the number of these emissions, as well as the dynamics of the strengthening of norms for the present and for the future. Certain types of technological emissions and the composition of harmful substances in the exhaust gases of marine engines have been identified. They make up 0.1 - 1.0% of total emissions, are in gaseous state and include carbon monoxide oxides, NOx nitrogen, SOx sulfur, and hydrocarbon CrNy. Emissions of nitrogen oxides (NOx) with off-gas from marine diesel engines account for about 14% of global NOx emissions from the combustion of all types of fossil hydrocarbon fuels The analysis of methods of their purification is carried out. An analysis of recent publications has been carried out It is known that the quality of diesel fuel, its physical and chemical properties, affect the fuel economy and the content of harmful substances in the exhaust gases of the engine. The most common way to ensure the required properties of diesel fuel is the introduction of multifunctional impurities. The groups of impurities to diesel fuel are given. The influence of nano-metal impurity on Al2O3 fuel is analyzed. The analysis of diesel fuel with an admixture of aluminum oxide nanopowders (Al2O3) gamma-modification. It has been established that the additive to diesel fuel based on AL2O3 nanopowders is promising. It is expedient to carry out a complex of motor tests for introduction of an additive on the sea and river fleet

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现代柴油发动机的主要趋势是提高发动机的燃油效率和运行可靠性，以及它们的环境安全性，主要与严格的废气排放要求有关。澄清了世界海军舰队在不存在的燃料量中存在的必要性，并对其进行了预测，这意味着其消耗量将进一步增加。世界船用发动机的总容量，从长远来看，直到2050年，是确定的。世界船队的船舶向大气排放有害物质的数量显示，国际规范受到管制，这些规范严格管制这些排放的数量，以及加强目前和未来规范的动态。已经确定了某些类型的技术排放和船舶发动机废气中有害物质的组成。它们占总排放量的0.1 - 1.0%，呈气态，包括一氧化碳氧化物、氮氧化物、硫氧化物和碳氢化合物CrNy。船用柴油发动机随废气排放的氮氧化物(NOx)约占全球各类化石碳氢燃料燃烧产生的氮氧化物排放量的14%。对最近的出版物进行了分析。众所周知，柴油的质量及其物理和化学性质影响燃油经济性和发动机废气中有害物质的含量。确保柴油所需性能的最常见方法是引入多功能杂质。给出了柴油中杂质的种类。分析了纳米金属杂质对Al2O3燃料的影响。掺有纳米氧化铝粉(Al2O3) γ修饰的柴油燃料的分析。研究表明，纳米AL2O3粉体作为柴油添加剂具有广阔的应用前景。为了在海运和内河船队上引入添加剂，进行一系列的发动机试验是有利的

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Ship power plants

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