Saobraćajni institut CIP :: Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/rss.html Story list en http://www.sicip.co.rs/thumbnail/2.JPG?thumbId=1487&fileSize=7691&contentType=image/jpeg&lastModified=1396956524000 Saobraćajni institut CIP :: Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/rss.html Final designs for reconstruction of "Juhorska 6" boiler house, Belgrade http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/819/Final+designs+for+reconstruction+of+%22Juhorska+6%22+boiler+house%2C+Belgrade+.html "Juhorska 6" boiler house, which is integrated in the System of District Heating Plants of Belgrade, is located on Karaburma settlement in the cellar premises of residential and office building in Juhorska Street. The boiler house supplies with energy the building in 6, Juhorska Street and several buildings in the vicinity.

"Juhorska 6" boiler house, which is integrated in the System of District Heating Plants of Belgrade, is located on Karaburma settlement in the cellar premises of residential and office building in Juhorska Street. The boiler house supplies with energy the building in 6, Juhorska Street and several buildings in the vicinity. The design envisages increase of heat source capacity i.e. installed capacity of boiler system, conversion of fuel from mazut to fuel oil and modernization of heat energy distribution system and related equipment for boiler system. Three hot water three-pass light fuel oil boilers, each of 1.1 MW capacity shall be installed so that total heat capacity of the boiler house will be 3.3 MW.

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Wed, 18 Jun 2014 15:38:57 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/819/Final+designs+for+reconstruction+of+%22Juhorska+6%22+boiler+house%2C+Belgrade+
Preliminary and Final designs for construction of the City Thermal Power Plant in Novi Kneževac Municipality http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/820/Preliminary+and+Final+designs+for+construction+of+the+City+Thermal+Power+Plant+in+Novi+Kne%C5%BEevac+Municipality+.html The design envisages construction of new city thermal power plant in Novi Kneževac. Available building area for installation of boiler units is 17x14 m, minimum clear height is 6 m. Total heat capacity of the thermal power plant is 10 MW. One boiler unit of 7 MW heat capacity shall be installed in the Phase 1 and there is a space in the facility for one additional boiler installation of 3 MW.

The design envisages construction of new city thermal power plant in Novi Kneževac. Available building area for installation of boiler units is 17x14 m, minimum clear height is 6 m. Total heat capacity of the thermal power plant is 10 MW. One boiler unit of 7 MW heat capacity shall be installed in the Phase 1 and there is a space in the facility for one additional boiler installation of 3 MW. Main motor fuel is gas, and its alternation is heavy fuel oil - mazut. All related equipment for the system (safety and technical equipment, expansion solution, distributing manifold and collector, chemical water preparation, gas and mazut installation, etc.) is dimensioned for total heat capacity of the boiler house of 10 MW. Technical documentation for new city thermal power plant is adjusted to the existing district heating system for Novi Kneževac.

Complete technical documentation includes architectural/construction, traffic, electrical and hydraulic engineering designs, reports on geotechnical investigations and geodetic surveying, Feasibility study, Fire protection report and Safety at work report. ]]>
Tue, 17 Jun 2014 15:40:31 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/820/Preliminary+and+Final+designs+for+construction+of+the+City+Thermal+Power+Plant+in+Novi+Kne%C5%BEevac+Municipality+
Final design for conversion of the existing solid-fuel boiler house with steam boilers to hot-water boilers for the building of OJ ZOVS Lajkovac http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/821/Final+design+for+conversion+of+the+existing+solid-fuel+boiler+house+with+steam+boilers+to+hot-water+boilers+for+the+building+of+OJ+ZOVS+Lajkovac.html The existing boiler house is provided with two solid-fuel locomotive boilers that produce saturated steam of 6,024 bar pressure and 159C temperature. The capacity of each boiler is 2,205 kW. Due to reduced need for heat energy the existing steam boiler shall be replaced with two solid-fuel hot-water boilers.

The existing boiler house is provided with two solid-fuel locomotive boilers that produce saturated steam of 6,024 bar pressure and 159°C temperature. The capacity of each boiler is 2,205 kW. Due to reduced need for heat energy the existing steam boiler shall be replaced with two solid-fuel hot-water boilers. 

The new design envisages dismantling of the existing steam installation and the heat source will be new solid-fuel hot-water boilers, each of 750 kW, which can work individually and together. The newly designed boilers are connected to the existing hot water distributing manifold and collector which position will not be changed. Smoke gases will be extracted through new single-liner steel chimney of Ø800 mm clear opening, 20 m high.

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Mon, 16 Jun 2014 15:42:44 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/821/Final+design+for+conversion+of+the+existing+solid-fuel+boiler+house+with+steam+boilers+to+hot-water+boilers+for+the+building+of+OJ+ZOVS+Lajkovac
Final designs of infrared heating system in the halls of Želvoz Complex, Smederevo: - halls of the plant for wagon repairs - halls for turning of "Valdunes" monoblock wheels - a part of the hall for running repairs of wagons (weighbridges) http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/822/Final+designs+of+infrared+heating+system+in+the+halls+of+%C5%BDelvoz+Complex%2C+Smederevo%3A+-+halls+of+the+plant+for+wagon+repairs+-+halls+for+turning+of+%22Valdunes%22+monoblock+wheels+-+a+part+of+the+hall+for+running+repairs+of+wagons+%28weighbridges%29.html The design deals with heating system in the halls. Infrared heating system with radiant gas panel heaters (9 units - 38 kW each and 23 units - 22 kW each) shall be installed in the plant for wagon repairs of "Želvoz" Complex, Smederevo). A hall for turning of "Valdunes" monoblock wheels in "Želvoz" Complex, Smederevo, shall be heated with 5 infrared radiant gas panel heaters, 38 kW each. A part of the hall for running repairs of wagons (weighbridges) in "Želvoz" Complex, Smederevo shall be heated with 21 infrared radiant gas panel heaters, 22 kW each. In all halls the heaters are grouped, according to technology applied, in the zones with separate control/distribution cabinet and with system for removal of combustion products. IR heaters are connected to gas distribution network by steel pipes via reducer stations.

The design deals with heating system in the halls. Infrared heating system with radiant gas panel heaters (9 units - 38 kW each and 23 units - 22 kW each) shall be installed in the plant for wagon repairs of "Želvoz" Complex, Smederevo). A hall for turning of "Valdunes" monoblock wheels in "Želvoz" Complex, Smederevo, shall be heated with 5 infrared radiant gas panel heaters, 38 kW each. A part of the hall for running repairs of wagons (weighbridges) in "Želvoz" Complex, Smederevo shall be heated with 21 infrared radiant gas panel heaters, 22 kW each. In all halls the heaters are grouped, according to technology applied, in the zones with separate control/distribution cabinet and with system for removal of combustion products. IR heaters are connected to gas distribution network by steel pipes via reducer stations.

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Sun, 15 Jun 2014 15:44:06 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/822/Final+designs+of+infrared+heating+system+in+the+halls+of+%C5%BDelvoz+Complex%2C+Smederevo%3A+-+halls+of+the+plant+for+wagon+repairs+-+halls+for+turning+of+%22Valdunes%22+monoblock+wheels+-+a+part+of+the+hall+for+running+repairs+of+wagons+%28weighbridges%29
Final design for reconstruction and refurbishment of the Installation Depot (heating and ventilation) and Final design of heating and ventilation systems in the electrical engineering workshop (ETR) in Dorćol Complex of the Public Transport Company "Beograd" http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/823/Final+design+for+reconstruction+and+refurbishment+of+the+Installation+Depot+%28heating+and+ventilation%29+and+Final+design+of+heating+and+ventilation+systems+in+the+electrical+engineering+workshop+%28ETR%29+in+Dor%C4%87ol+Complex+of+the+Public+Transport+Company+%22Beograd%22.html A hall of the Installation Depot shall be heated with hot water calorifiers (90/70°C). There will be installed calorifiers operating with circulating air and calorifiers operating with mix of fresh and circulating air. Air shall be extracted from this areas through exhaust grilles, ducts and axial fans.

A hall of the Installation Depot shall be heated with hot water calorifiers (90/70°C). There will be installed calorifiers operating with circulating air and calorifiers operating with mix of fresh and circulating air.  Air shall be extracted from this areas through exhaust grilles, ducts and axial fans.

Extraction of supplied air will be performed through inspection pits in the Installation Depot. For better ventilation in the summer periods, air from the upper zone of the Depot will be extracted through exhaust grilles, ducts and axial fans as well. The electrical engineering workshop shall be ventilated by means of axial fans installed at places of old, defective fans. Radiator heating system shall be installed in the offices of both facilities. Facilities under reconstruction are supplied with heat energy from the existing boiler house within the Dorćol Complex of the Public Transport Company "Beograd".

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Sat, 14 Jun 2014 15:45:00 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/823/Final+design+for+reconstruction+and+refurbishment+of+the+Installation+Depot+%28heating+and+ventilation%29+and+Final+design+of+heating+and+ventilation+systems+in+the+electrical+engineering+workshop+%28ETR%29+in+Dor%C4%87ol+Complex+of+the+Public+Transport+Company+%22Beograd%22
Preliminary and Final designs of heating substations TP 52, TP 52A, TRZ24 and TRZ24A with related primary and secondary systems in Obrenovac http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/824/Preliminary+and+Final+designs+of+heating+substations+TP+52%2C+TP+52A%2C+TRZ24+and+TRZ24A+with+related+primary+and+secondary+systems+in+Obrenovac+.html TP-52 and TP-52A: The design deals with connection of newly designed primary hot-water heating system to the existing main hot-water heating system, distribution pipeline from the primary hot-water heating system to external walls of heating substations TP-52 and TP-52A and distribution pipelines of the secondary hot-water heating system from heating substations to consumers. Distribution pipelines of primary and secondary hot-water heating systems shall be assembled of pre-insulated steel pipes TPZ24 and TPZ24A: The design deals with connection of newly designed primary hot-water heating system to the existing main hot-water heating system, distribution pipeline of the primary hot-water heating system to heating substations TPZ24 and TPZ24A, equipment in substations and distribution pipelines of the secondary hot-water heating system from heating substations to consumers. Distribution pipeline of primary hot-water heating systems shall be assembled of pre-insulated steel pipes and the secondary hot-water heating system shall be assembled of pre-insulated plastic pipes.

TP-52 and TP-52A: The design deals with connection of newly designed primary hot-water heating system to the existing main hot-water heating system, distribution pipeline from the primary hot-water heating system to external walls of heating substations TP-52 and TP-52A and distribution pipelines of the secondary hot-water heating system from heating substations to consumers. Distribution pipelines of primary and secondary hot-water heating systems shall be assembled of pre-insulated steel pipes TPZ24 and TPZ24A: The design deals with connection of newly designed primary hot-water heating system to the existing main hot-water heating system, distribution pipeline of the primary hot-water heating system to heating substations TPZ24 and TPZ24A, equipment in substations and  distribution pipelines of the secondary hot-water heating system from heating substations to consumers. Distribution pipeline of primary hot-water heating systems shall be assembled of pre-insulated steel pipes and the secondary hot-water heating system shall be assembled of pre-insulated plastic pipes. 

Heat capacity of each heating station is about 1 MW and total length of hot-water pipelines of each designed system of heating substations is about 1 km. Complete technical documentation also includes construction designs and reports on necessary geodetic surveying.

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Fri, 13 Jun 2014 15:47:56 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/824/Preliminary+and+Final+designs+of+heating+substations+TP+52%2C+TP+52A%2C+TRZ24+and+TRZ24A+with+related+primary+and+secondary+systems+in+Obrenovac+
Final design for rehabilitation of main field of the "Red Star" Football Club in 1a, Ljutice Bogdana Street, Belgrade http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/825/Final+design+for+rehabilitation+of+main+field+of+the+%22Red+Star%22+Football+Club+in+1a%2C+Ljutice+Bogdana+Street%2C+Belgrade+.html Technical documentation envisages all construction and other works necessary to place new natural grass, replace the field sparkling system and drainage system and install the heating system on the main field of the Red Star Football Club.

Technical documentation envisages all construction and other works necessary to place new natural grass, replace the field sparkling system and drainage system and install the heating system on the main field of the Red Star Football Club. 

Complete technical documentation contains mechanical, construction, electrical and hydraulic engineering designs, reports on geotechnical investigations and reports on geodetic surveying.

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Thu, 12 Jun 2014 15:50:20 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/825/Final+design+for+rehabilitation+of+main+field+of+the+%22Red+Star%22+Football+Club+in+1a%2C+Ljutice+Bogdana+Street%2C+Belgrade+
Preliminary and Final designs for relocation of gas pipeline due to construction of Mirijevski Boulevard from the constructed section in Karaburma settlement to Vitezovi Karađorđeve zvezde Street in Mirijevo settlement http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/826/Preliminary+and+Final+designs+for+relocation+of+gas+pipeline+due+to+construction+of+Mirijevski+Boulevard+from+the+constructed+section+in+Karaburma+settlement+to+Vitezovi+Kara%C4%91or%C4%91eve+zvezde+Street+in+Mirijevo+settlement+.html Based on the Terms of Reference and the requirements and approvals of the gas distribution company - "SRBIJAGAS" PC, technical documentation envisages relocation of a section of the existing steel gas pipeline GGM 05-04, Ø273x5.6 mm in size, which supplies Mirijevo heating plant.

Based on the Terms of Reference and the requirements and approvals of the gas distribution company - "SRBIJAGAS" PC, technical documentation envisages relocation of a section of the existing steel gas pipeline GGM 05-04, Ø273x5.6 mm in size, which supplies Mirijevo heating plant. 

The route of relocated gas pipeline situated in the sidewalk was defined on the basis of the urban planning requirements and the site servicing plan. The designed gas pipeline shall be assembled of steel seamless pipes according to SRPS C.B5.221, Ø273x6.3 mm in size, about 800 m long. In accordance with the requirements of the gas distribution company, polyethylene gas pipeline, Ø90 mm in size, shall be placed above the steel gas pipeline.

The gas pipeline is protected against corrosion with adequate coatings and plastic tapes while at street crossing points it will be double insulated with plastic tapes in length of 10 m counting from the outer edge of the right-of-way. In addition, cathodic protection will be applied to the relocated gas pipeline section. Complete technical documentation contains mechanical, construction, electrical and hydraulic engineering designs, reports on geotechnical investigations and reports on geodetic surveying.

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Wed, 11 Jun 2014 15:58:54 +0100 Thermal Engineering, Process and Gas Technology http://www.sicip.co.rs/en/activity/Technical-documentation/mechanical-engineering-designs/Thermal-Engineering-Process-and-Gas-Technology/story/826/Preliminary+and+Final+designs+for+relocation+of+gas+pipeline+due+to+construction+of+Mirijevski+Boulevard+from+the+constructed+section+in+Karaburma+settlement+to+Vitezovi+Kara%C4%91or%C4%91eve+zvezde+Street+in+Mirijevo+settlement+