The SPE has split the former "Management & Information" technical discipline into two new technical discplines:
- Management
- Data Science & Engineering Analytics
Filters
SPE Disciplines
Theme
Author
Concept Tag
- acid (1)
- après le congrès (1)
- complex reservoir (1)
- Compound (1)
- compressive strength (1)
- data mining (1)
- diatomic phenol (1)
- different mining-geological condition (1)
- Exploitation pétrolières (1)
- extraction method (1)
- fine content (1)
- fraction (2)
- france léningrad-moscou vniineftékhim (1)
- gas generator (1)
- generator (1)
- gisement (1)
- heavy crude oil (1)
- hydrocarbon (1)
- Institut (1)
- Institut Supérieur (1)
- Institute (1)
- Juin (1)
- juin sibérien section sibérienne (1)
- Leningrad (1)
- limestone (1)
- léningrad-moscou vniineftékhim (1)
- macadam fraction (1)
- macadam quality (1)
- metals & mining (1)
- milled (1)
- mining-geological condition (1)
- moscou-leningrad-moscou vniineftékhim (1)
- musée minéralogique (1)
- nieftianyé kamni (1)
- oil shale (1)
- phenol (1)
- Raffinerie (1)
- raw material (1)
- raw material physicomechanical property (1)
- Recherch (1)
- Reservoir Characterization (1)
- reservoir geomechanics (1)
- resistance (1)
- shale oil (1)
- SredAzNIIgaz (1)
- surface-active agent (1)
- synthesis (1)
- tallinn (1)
- test result (1)
- tooth penetration (1)
- Upstream Oil & Gas (2)
- VNIINeftékhim (1)
- Wellbore Design (1)
Industry
Oilfield Places
Source
File Type
Site News
Goto
No map tile layer
| Layer | Fill | Outline |
|---|
Map layers
| Theme | Visible | Selectable | Appearance | Zoom Range (now: 0) |
|---|
| Fill | Stroke |
|---|---|
Collaborating Authors
Tallinn
ABSTRACT: The paper deals with the assessment of limestone macadam quality in limestone mining sector in Estonia. It provides test results on various raw materials with different mining-geological conditions, and obtained by surface miners Wirtgen 2500SM, Vermeer Terrain-Leveler T1255 and blasting operations. The tests results have shown that every additional processing and operating of a raw material improves its quality by different parameters: flakiness and shape index, fines content, resistance to fragmentation by Los Angeles method and resistance to freezing and thawing. While many of the parametres improve, some parameters change for the worse. 1 INTRODUCTION Limestone is extensively mined in Estonia for the use as a materials used for construction. Limestone aggregates are used for producing concrete, filling in road construction and for subsoil filling at construction sites. Limestone in Estionia is distributed widely and is considered as a national stone. They have variation in geological condition and rock mechanics properties (Lüütre et al. 1971). Limestone is mined generally from surface quarries by using mechanized means (i.e. surface miners) or explosion blast. The aim of this research is to compare manufactured macadam quality and raw material property of the limestone obtained by different mining methods and in different mining-geological conditions (e.g., blasting in Tondi-Väo and cutting by Vermeer Terrain- Leveler T1255 in Tallinn Tondi-Väo limestone mining; surface miner Wirtgen 2500SM in Ida-Virumaa Kiviõli limestone and oil-shale mining). Quality of the limestone raw materials and macadam assessed by laboratory tests are varying and quite dependable the mining-geological conditions of the rocks. 2 EXAMINED MINING SOLUTIONS At this work process was compared a number of different limestone raw materials and manufactured macadam quality, which are extracted by three different methods. Short description and technology over view of mining machines and methods can be found in next paragraphs.
compressive strength, data mining, different mining-geological condition, extraction method, fine content, fraction, limestone, macadam fraction, macadam quality, metals & mining, milled, mining-geological condition, raw material physicomechanical property, Reservoir Characterization, reservoir geomechanics, resistance, test result, tooth penetration, Upstream Oil & Gas, Wellbore Design
Industry:
- Materials > Metals & Mining (0.69)
- Energy > Oil & Gas > Upstream (0.35)
SPE Disciplines:
Processing and Utilization of Oil Shale of the Baltic Basin of the U.S.S.R.
Ozerov, G. V. (Tallinn Polytechnic Institute, Tallinn, U.S.S.R.) | Aarna, A. Y. (Tallinn Polytechnic Institute, Tallinn, U.S.S.R.) | Raudsepp, H. T. (Tallinn Polytechnic Institute, Tallinn, U.S.S.R.) | Gabergritz, M. Y. (Institute of Chemistry of the Estonian S.S.R. Academy of Sciences) | Faingold, S. I. (Institute of Chemistry of the Estonian S.S.R. Academy of Sciences) | Fomina, A. S. (Institute of Chemistry of the Estonian S.S.R. Academy of Sciences) | Kotov, A. M. (Ministry of Petroleum Processing and Petrochemical Industry, U.S.S.R.) | Mamedaliev, G. M. (Institute of Petrochemical Synthesis of the U.S.S.R. Academy of Sciences) | Nametkin, N. S. (Institute of Petrochemical Synthesis of the U.S.S.R. Academy of Sciences) | Serebrjannikov, N. D. (V. I. Lenin Oil Shale Processing Complex at Kohtla-Järve, U.S.S.R.) | Yefimov, V. M. (Institute of Oil Shale Research, U.S.S.R.) | Zelenin, N. I. (Leningrad Institute of Engineering and Economics, U. S. S. R.)
Abstract The resources of the oil shales (kukersites) are 21000 MM tons. For low-temperature coking, gas generators, tunnel ovens, rotary retorts and solid heat carrier retorts (where the heat carrier-shale ashes are obtained by burning oil shale semi-coke) have been used. For industrial production of town gas, vertical chamber ovens are used. The shale oil obtained by low-temperature coking contains, besides hydrocarbons, up to 45% oxygen compounds composed mainly of Phenols., The Phenols contain much diatomic Phenols of the resorcin type and are used for the synthesizing of tannins, epoxies and adhesive resins. The hydrocarbons of the shale oil are used as liquid (motor) fuel and for the synthesis of surfaceactive agents. The oil shale gasoline from chamber ovens contains much aromatic hydrocarbons and the gasoline is used for obtaining aromatic hydrocarbons and polymeric resins. Methods are worked out for the production of dicarboxylic acids, c4-Cl0, by direct oxidizing destruction of the kerogen. Oil shale finds use as fuel for large electric power stations (1600000 kW). Fly ash obtained by burning oil shale is caught in cyclone filters and electrostatic filters and is utilized for producing building materials of high quality. Résumé Les réserves du schiste bitumineux (koukersite) atteignent 21 milliards de tonnes. La semicarbonisation du koukersite est effetué dans des générateurs à cuve de foyer intérieur, dans des fours en tunnel, dans des cornues à rotation et dans des agrégats utilisant la cendre de la combustion du sémicoke comme porteur solide de la chaleur. Le gaz de ville est produit dans des fours à chambre verticaux. L'huile de schistes des agrégats à semicarbonisation contient outre des hydrocarbures presque 45 % de composés oxygénés, principalement de phénols. Les diphénols-les homologues du résorcinol-sont utilisés pour la synthèse des résines de colle et des substances tannantes. Sur la base des hydrocarbures de l'huile on a synthetisé des substances tensio-actives; on utilise les hydrocarbures aussi pour obtenir des combustibles liquides. L'huile de schistes recue dans les fours à chambre contient beaucoup de hydroCa1 bures aromatiques. Selon la méthode d'oxydation directe du kerogène on produit les acides dicarboxyliques saturés C4-Cio. Le schiste bitumineux-koukersiteest utilisé comme combustible énergétique dans les foyers des grandes centrales électriques. La cendre volatile collectée dans les cyclons et dans les électrofiltres est utilisée pour la production des matériaux de construction de haute qualité. by G. V. OZEROV, Tallinn Polytechnic Institute, Ehitajatetee 5, Tallinn, U.S.S.R., A. Y. AARNA, Tallinn Polytechnic Institute, M. Y. GUBERGRITZ, Institute of Chemistry of the Estonian S.S.R. Academy of Sciences, S. I. FAINGOLD, Institute of Chemistry of the Estonian S.S.R. A
Country:
- Europe > Estonia > Harju County > Tallinn (0.67)
- North America > United States (0.50)
Industry:
- Materials > Chemicals > Commodity Chemicals > Petrochemicals (1.00)
- Energy > Oil & Gas > Upstream (1.00)
Oilfield Places:
- Europe > Poland > Baltic Basin (0.99)
- North America > United States > Ohio > Baltic Field > Rose Run Formation (0.98)
- North America > United States > Ohio > Baltic Field > Knox Formation (0.98)
SPE Disciplines: Reservoir Description and Dynamics > Unconventional and Complex Reservoirs > Shale oil (1.00)
TOURS APRES LE CONGRES Numéro de l'excursion Itinéraire Lieux d'intérêt technique Durée -_ A Moscou-Léningrad- Moscou Institut VNIINeftekhim 10-12 juin Institut VNIGRI 1 Moscou-Tachkent-Boukhara-Samarkand- Institut SredAzNIIgaz 20-26 juin Moscou Gisement de gaz "Gazly" l a Moscou-Samarkand-Boukhara-Tachkent- Institut SredAzNIInaz 20-26 iuin Moscou Gisement de gaz "Gazly" Moscou-Krasnodar-Sotchi-Moscou Gisement de pétrole 20-26 juin "Krasnodarneftégaz" Administration Glartransneft de la région de la Mer Noire Moscou-Oulinovsk-Kazan-Bougoulma- Gisements pétroliers de la Tartarie 20-26 juin Kazan-Moscou et de la Bachkirie Moscou-Volgograd-Bakou- Moscou Exploitations pétrolières en mer de 20-26 juin Sérebrovsky et de "Nieftianyé Kamni", Raffinerie de Volgograd Raffinerie de Novo-Bakou Institut Supérieur de Recherches (VNII) Institut AzINNeftékhim 4a Moscou-Bakou-Volgograd- Moscou Exploitations pétrolières en mer de 20-26 juin Sérebrovsky et de "Nieftianyé Kamni", Raffinerie de Volgograd Raffinerie de Novo-Bakou Institut Supérieur de Recherches (VNII) Institut AzINNeftékhim 5 Moscou-Iaroslavl- Moscou Raffinerie de Novo-Iaroslav1 20-26 juin 6 Moscou-Leningrad- Moscou Institut VNIINEftekhim 20-26 juin Institut VNIGRI 6a Moscou-Leningrad Institut VNIINEftekhim 20-22 juin Institut VNIGRI 7 Moscou-Tallinn-Tartou-Pskov Unité de traitement de schistes 20-26 juin 8 Moscou-Sotchi-Bakou-Tachkent- Chantier pétrolier en mer de 20 juin-2 juillet Boukhara-Samarkand-Moscou Sérebrovsky "Nieftianyé Kamni", Raffinerie de Novo-Bakou, Institut Supérieur de Recherches (VNII) Institut AzNNeftékhim, Institut SredAzNIIgaz, Gisement de gaz "Gazly" 9 Moscou-Kiev- Moscou Institut des matériaux extradurs 20-22 juin (ISM) 10 Moscou-Lvov-Odessa-Kichinev Institut polytechnique 20-26 juin 11 Moscou-Erévan-Tbilissi-Moscou Musée minéralogique de l'Académie 20-26 juin des Sciences de la République d'Arménie 1 l a Moscou-Tbilissi-Erévan-Moscou Musée minéralogique de 1'Académie 20-26 juin des Sciences de la République d'Arménie 125 126 Tours Après le Congrès Numéro de 1 'excursion Itinéraire Lieux d'intérêt technique Durée 12 Moscou-Tioumen-Novosibirsk-Moscou Exploitations pétrolières de l'Ouest 20-26 juin Sibérien Section sibérienne de l'Académie des Sciences de l'U.R.S.S. 12a Moscou-Novosibirsk-Tioumen-Moscou Exploitations pétrolières de l'Ouest 20-26 juin Sibérien Section sibérienne de l'Académie des Sciences de l'U.R.S.S. 14 Moscou-Douchanbé-Tachkent-Fergana- Gisements pétroliers "Andijanneft", 20-26 juin Tachkent-Samarkand-Moscou Institut "SredAzNIIgaz" 15 Moscou-Vladimir-Souzdal-Moscou Gisements pétroliers "Andijanneft", 20-22 juin Institut "SredAzNIIgaz" 16 Moscou-Riga-Tallinn-Léningrad Unité de traitement des schistes 20-26 juin Institut VNIINeftékhim Institut VNIGRI 17 Moscou-Irkoutsk-Novosibirsk-Tachkent- Section sibérienne de l'Académie 20-27 juin Boukhara-Tachkent-Moscou des
après le congrès, Exploitation pétrolières, france léningrad-moscou vniineftékhim, gisement, Institut, Institut Supérieur, Juin, juin sibérien section sibérienne, léningrad-moscou vniineftékhim, moscou-leningrad-moscou vniineftékhim, musée minéralogique, nieftianyé kamni, Raffinerie, Recherch, SredAzNIIgaz, VNIINeftékhim
Country:
- Europe > Russia > Southern Federal District > Volgograd Oblast > Volgograd (0.90)
- Asia > Russia > Siberian Federal District > Novosibirsk Oblast > Novosibirsk (0.68)
- Europe > Estonia > Harju County > Tallinn (0.48)
Save or update focal point
Save a search / focal point to access it again.
Thank you!