Dragiša Tolmač scite author profile

Dragiša Tolmač

4Publications

34Citation Statements Received

20Citation Statements Given

How they've been cited

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Affiliations

Univerzitet Union Nikola Tesla, University of Novi Sad, Institut Mihajlo Pupin

Publications

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Methods for Determination of Biomass Energy Pellet Quality

et al. 2014

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This paper will give details of described methods for the laboratory on the examination of biomass energy pellets after they have been through the pressing and cooling process of pressed material. These methods are based on previous experiments collected through the literature. The fundamentals of these experiments are examinations of shape and dimensions, moisture content, bulk density, fine particle content, pellet attrition, ash content, and calorific value of energy pellets as they pass throughout the burning process. The examination results will contain a range of data that was gathered. It will contain evidence of physical characteristics of biomass energy pellets. A comparison of characteristics was performed on the basis of the existing literature and standards. After the comparison of the conducted examination, there will be an examination discussed with other sources or ideas formed by other international theorists. It was clear from the findings of the examination that parameters are acceptable, because the results were relatively similar. It is necessary to use the national standard for defining quality energy pellets and briquettes of biomass for the research. National standards regulate the methods for testing the quality of energy pellets and briquettes of biomass.

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Resource potential and scope of the use of renewable energy sources in Serbia

Prvulović

Josimovic²,

Matić

et al. 2016

Energy Sources, Part B: Economics, Planning, and Policy

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Global Trends on Production and Utilization of Biodiesel

Tolmač

Prulovic

Lambić

et al. 2013

Energy Sources, Part B: Economics, Planning, and Policy

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Analysis of the main parameters of crude oil pipeline transport

Tolmac

Prvulović

Nedić

et al. 2020

Hem Ind

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The paper presents results of experimental research and simulation of the main parameters of crude oil pipeline transport. In Serbia, 70 % of the produced oil belongs to a paraffin type, of which over 25 % has a high content of paraffin. High-content paraffin oil usually has a high pour point. The paraffin content in crude oil from Vojvodina, Serbia, is in the range 7.5 to 26 %, and the oil pour temperature varies from 18 to 36?C. The imported crude oil has a flow point max. 8?C. Homogenization, i.e. mixing of domestic and imported crude oil, improves the transport properties and decreases the pour point. After homogenization, the crude oil is pre-heated, and then transported by a pipeline to the refinery for further processing. Heating induces modification of crude oil physical properties, especially flow properties so to prevent wax formation within the oil pipeline. The aim of this paper was to determine operating parameters and flow characteristics for a particular oil pipeline (428 mm inner diameter, 91,000 m length) under real operating conditions. By heating in the range of 20 - 50?C, the viscosity of crude oil was reduced, approaching the viscosity of water. The pipeline is isolated (100 mm thick isolation) and buried into in the ground (1 m depth). It is found that the heat transfer coefficient has a dominant influence on the cooling rate of the oil in the pipeline. The heat transfer coefficient is mainly determined by the isolation thickness so that it was determined as 0.60 W m-2 K-1 for + 100 mm thickness, while it was 2.20 W m-2 K-1 for the non-isolated pipeline. Heat losses through the main pipeline ranged from 36 - 110 kJ m-1 h-1 (10 - 30 W m-1). The difference between the starting and the ending temperature of crude oil ranged from 10 to 12?C. Such a decrease of ?t = 10 oC and, consequently, the increase in viscosity induced a noti-ceable increase in the pressure drop and pump power by 3 to 4 %, at the maximum flowrate of 0.194 m3 s-1 (700 m3 h-1). The cooling rate during transportation under stationary thermal and hydraulic conditions is in the range 0.52 ? 0.5 oC h-1. In the case of domestic oil (Vojvodina, Serbia) transport, the downtime should not exceed 24 h, since stopping and cooling of the oil would result in formation of solid paraffin particles followed by oil gelation.

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