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Study on extraction of pollutant free flammable fuel from contaminated automobile waste lube oil

Thanikachalam J., Karthikeyan S.

Journal of Achievements in Materials and Manufacturing Engineering

2020

Vol. 100, nr 2

78--84

Purpose: of this paper is to investigate the reusability of contaminated waste lubricant oil as flammable fuel by thermal and catalytic cracking process followed by distillation. It also includes the study of using Zeolite and Nickel nano particles as catalyst and its influence catalytic cracking. Design/methodology/approach: A conventional sterilization technique called Autoclaving method, uses high-pressure steam to separate water and other solid waste from the lube oil. It is followed by thermal cracking which breaks the molecular chains and decompose the waste lube oil. The autoclaving process works by the concept that the boiling point of water (or steam) increases when it is under pressure. Findings: Now a days, Industrial and Automobile waste lubricating oils are giving big threat ecology while burning and disposing on bare land. Furthermore, they discharged into the open environment which might make destructive sicknesses to ecology. In water, oil is a visible pollutant, floating as a scum on the surface. Moreover, there is a gradual rise in fuel requirement across the globe, and the consumption of oil assets have driven the researchers to find elective power for internal combustion engines. By the way, diminishing of fossil sources, growing of demand and cost of petroleum based fuels and its environmental hazards as a result of burning or disposing on land have encouraged to investigate possibility of recycling of waste engine oil. Research limitations/implications: A series of process such as filtration, cracking followed by distillation needs expensive experimental setup and regular maintenance as the extracted flammable oil fuel possess significant range of dynamic viscosity values. As all real fluids has its own viscosity, in near future, an investigation is about to do on its behaviour on blending with other flammable fluids. Practical implications: Although the result of this investigation conforming its flammable characteristic of the extracted fuel, the quantity of pollutant free flammable fuel from waste contaminated lube oil being extracted is significant, the cost of catalyst is considerably more, as it plays the most vital part in cracking. This effort likely also reduces foreign exchange, reduces greenhouse emissions and enhances regional development especially in developing countries. Originality/value: The novelty of the work is to prepare pollutant free flammable fuel from waste Lube oil by catalytic cracking process. Here Zoelite and Nickel nanoparticles are used as catalyst which breaks the long-chain molecules of the high boiling hydrocarbon liquids into much shorter molecules.

Efekty pracy polskiej instalacji mechaniczno-cieplnego przetwarzania odpadów komunalnych

Bień J. D.

Inżynieria Ekologiczna

2017

Vol. 18, nr 4

25--31

W Polsce i w szeregu krajów Unii Europejskiej przetwarzanie zmieszanych odpadów komunalnych zostało oparte na drodze przetwarzania odpadów w instalacjach mechaniczno-biologicznych oraz instalacjach termicznego przetwarzania. Dotychczasowe doświadczenia z funkcjonowania tych instalacji, w szczególności w aspekcie recyklingu materiałowego, co w obliczu formułowania gospodarki o obiegu zamkniętym jest dla Komisji Europejskiej priorytetowym zagadnieniem nie napawa optymizmem. By myśleć o wysokim poziomie ponownego wykorzystania i recyklingu odpadów komunalnych, który zgodnie z założeniami UE ma wynosić co najmniej 65% do 2030 r. konieczne są działania zmierzające do podniesienia jakości odpadów. Z pewnością takim rozwiązaniem jest selektywna zbiórka u źródła, ale z zaznaczeniem, że powinna być prowadzona na wysokim poziomie. Jak kosztowne jest to rozwiązanie przekonało się już wiele krajów. W poszukiwaniu innych metod kraje Wielkiej Brytanii zwracają swe zainteresowanie w kierunku metod mechaniczno-cieplnego przetwarzania. W Polsce funkcjonuje jedna taka instalacja. Doświadczenia z jej pracy przedstawione zostały w niniejszej publikacji.

In Poland and in several EU countries, the processing of mixed municipal waste is based on waste treatment in mechanical and biological installations and thermal processing plants. The experience gained from the operation of these installations, particularly in the aspect of material recycling, which is important to the formulation of circular economy, is not satisfactory. In order to achieve a high level of reuse and recycling of municipal waste, which is expected to be at least 65% by 2030, efforts to improve waste quality needs to be made. Certainly, a selective collection of waste at source is one of the solutions; however, it should be noted that it must be conducted at a high level. Many countries have already realized how costly this solution is. In search of other methods, the UK countries are turning their attention to the mechanical heat treatment technology. In Poland, there is one such installation and the idea of this paper is to discuss the issues connected with it. The practical experience of the operating of this installation shows so far that the process enables to match good process parameters to a variable input. The very good quality of secondary raw materials obtained in the process is more attractive to the final consumer. Moreover, the levels of recycling for the four fractions of waste, such as: paper, metals, plastics and glass, are high and significantly exceed the factors achieved in the process of mechanical and biological treatment.