The document lists specifications for various bitumen emulsion and modification units and related equipment produced by GlobeCore. It includes the UVB-1 bitumen emulsion unit in 1 m3/hour, 2 m3/hour and 8 m3/hour capacities. It also lists the UVB-2 bitumen modification unit in 4 m3/hour and 20 m3/hour capacities. Additional items listed include collection tanks, pumps, filters and related accessories. Capacities, dimensions, power requirements and other technical specifications are provided for each item.
This document provides specifications for various bitumen emulsion and modification units and related equipment. It lists the UVB-1 bitumen emulsion unit in three sizes with production capacities of 1, 2, and 8 cubic meters per hour. It also lists the UVB-2 bitumen modification unit in two sizes with production capacities of 4 and 20 cubic meters per hour. In addition, it provides details on related equipment including collection tanks, pumps, filters and laboratory systems.
www.gcequipment.com
GlobeCore Bitumen emulsion plant
is designed for production of cationic and anionic bitumen emulsions for road construction and waterproofing.
This brochure explains operational principle and lists main components and their functionality.
For further assistance please contact Mr Stanislav Sukhar
Tel: +380500131317
Email: sales@gcequipment.com
Skype: stan_globecore
The document summarizes the key machines used on a construction site, including a batching plant, transit mixer trucks, concrete boom truck, backhoe loader, and tower cranes. It provides details on the batching plant components and processes, including cement and aggregate storage, mixing, and quality control. Concrete is mixed in 1m3 batches and transported to the construction site by transit mixer trucks that can hold up to 6 batches per load. A concrete boom truck is used to pump concrete to higher levels and other machinery like backhoe loaders and tower cranes assist with site excavation, material handling, and safety compliance.
The document discusses modern trends in the road construction industry in India. It notes that India has the second largest road network in the world and the government spends $4 billion annually on road development. Major projects underway include the Golden Quadrilateral and North-South-East-West Corridor projects. Annual growth in passenger and cargo traffic is projected at 12-15% and 15-18% respectively, requiring $50-60 billion in investment over the next 5 years. The use of modern project management techniques, resources, and technologies such as soil stabilization and modified bitumen are enabling more economical road construction.
The document provides information on bitumen mixes used for road construction. It discusses the constituents of bitumen mixes, which include aggregates, filler, and binders like bitumen. It describes different types of mixes like dense graded, stone matrix, and open graded mixes. It also covers characteristics of materials used in mixes and production methods for both hot and cold bitumen mixes. Cold mixes use bitumen emulsions and avoid heating of aggregates and binders.
This document discusses the use of plastic waste in the construction of flexible pavements. It begins by defining plastics and describing the different types. It then outlines the process for using plastic waste in road construction, including segregation, cleaning, shredding, and mixing the plastic with heated aggregates and bitumen. Test results showed that roads constructed with plastic waste had increased strength, reduced costs, and helped reduce plastic waste. However, there are also concerns about toxins leaching from the plastic and particulate pollution when the road is used. Overall, the document examines the process and benefits of using plastic waste to build roads but notes some environmental risks require further study.
The document provides an overview of public works departments and concrete road construction in India. It discusses that the Public Works Department in Uttar Pradesh pioneered construction and established agencies like the State Bridge Corporation. It also describes the types of pavements used in India, including flexible pavements made of bitumen and rigid concrete pavements. The document outlines the basic process of constructing concrete roads, from site preparation to mixing, placing, and curing concrete before opening the road to traffic.
This document provides specifications for various bitumen emulsion and modification units and related equipment. It lists the UVB-1 bitumen emulsion unit in three sizes with production capacities of 1, 2, and 8 cubic meters per hour. It also lists the UVB-2 bitumen modification unit in two sizes with production capacities of 4 and 20 cubic meters per hour. In addition, it provides details on related equipment including collection tanks, pumps, filters and laboratory systems.
www.gcequipment.com
GlobeCore Bitumen emulsion plant
is designed for production of cationic and anionic bitumen emulsions for road construction and waterproofing.
This brochure explains operational principle and lists main components and their functionality.
For further assistance please contact Mr Stanislav Sukhar
Tel: +380500131317
Email: sales@gcequipment.com
Skype: stan_globecore
The document summarizes the key machines used on a construction site, including a batching plant, transit mixer trucks, concrete boom truck, backhoe loader, and tower cranes. It provides details on the batching plant components and processes, including cement and aggregate storage, mixing, and quality control. Concrete is mixed in 1m3 batches and transported to the construction site by transit mixer trucks that can hold up to 6 batches per load. A concrete boom truck is used to pump concrete to higher levels and other machinery like backhoe loaders and tower cranes assist with site excavation, material handling, and safety compliance.
The document discusses modern trends in the road construction industry in India. It notes that India has the second largest road network in the world and the government spends $4 billion annually on road development. Major projects underway include the Golden Quadrilateral and North-South-East-West Corridor projects. Annual growth in passenger and cargo traffic is projected at 12-15% and 15-18% respectively, requiring $50-60 billion in investment over the next 5 years. The use of modern project management techniques, resources, and technologies such as soil stabilization and modified bitumen are enabling more economical road construction.
The document provides information on bitumen mixes used for road construction. It discusses the constituents of bitumen mixes, which include aggregates, filler, and binders like bitumen. It describes different types of mixes like dense graded, stone matrix, and open graded mixes. It also covers characteristics of materials used in mixes and production methods for both hot and cold bitumen mixes. Cold mixes use bitumen emulsions and avoid heating of aggregates and binders.
This document discusses the use of plastic waste in the construction of flexible pavements. It begins by defining plastics and describing the different types. It then outlines the process for using plastic waste in road construction, including segregation, cleaning, shredding, and mixing the plastic with heated aggregates and bitumen. Test results showed that roads constructed with plastic waste had increased strength, reduced costs, and helped reduce plastic waste. However, there are also concerns about toxins leaching from the plastic and particulate pollution when the road is used. Overall, the document examines the process and benefits of using plastic waste to build roads but notes some environmental risks require further study.
The document provides an overview of public works departments and concrete road construction in India. It discusses that the Public Works Department in Uttar Pradesh pioneered construction and established agencies like the State Bridge Corporation. It also describes the types of pavements used in India, including flexible pavements made of bitumen and rigid concrete pavements. The document outlines the basic process of constructing concrete roads, from site preparation to mixing, placing, and curing concrete before opening the road to traffic.
The document lists various equipment for producing and modifying bitumen emulsions and collections tanks, including:
- UVB-1 bitumen emulsion units with production capacities of 1, 2, and 8 m3/hour for producing bitumen emulsions.
- A UVB-2 bitumen modification unit with capacities of 4 and 20 m3/hour for modifying bitumen by adding polymers and other additives.
- Auxiliary equipment like colloid mills, pumps, and a SBE-30 bitumen collection tank. specifications for each piece of equipment are provided.
GlobecCore equipment for bitumen emulsion production 2016GlobeCore Plant
АPrimary applications of GlobeCore technologies:
-Extending pavement lifetime
-Quick removal of tensions occurring under traffic load
-Job cost reduction
-Extending the time between pavement repairs
-Environmental protection.
Globecore equipment for bitumen emulsion production 2016GlobeCore Plant
Bitumen emulsion plant model UVB-1 is applied for production of small quantities of bitumen emulsion. Compact design of bitumen emulsion plant allows easy installation and space saving.
The plant is operated in semi-automatic mode and controlled by Program Logic Controller.
Bitumen emulsion plant is equipped with solvent pump; it allows to use low penetration grade bitumen to produce high quality emulsions.
Globecore equipment for bitumen emulsion production 2016GlobeCore Plant
Bitumen emulsion plant model UVB-1 is applied for production of small quantities of bitumen emulsion. Compact design of bitumen emulsion plant allows easy installation and space saving.
The plant is operated in semi-automatic mode and controlled by Program Logic Controller.
Bitumen emulsion plant is equipped with solvent pump; it allows to use low penetration grade bitumen to produce high quality emulsions.
We are one of leading manufacturers & supplier of AAC (Autoclaved aerated concrete) & ALC (Aerated Light weight Concrete) plants in India. We can supply 30m3/ Day to 50000 m3/ annually Plant. Serving their clients with its perfection, efficiency and quality of work. Company manufacturer these state of the art machineries, used in producing AAC & ALC Blocks. Help their clients, in setting up this plant at their places. Customer person can get trained in live production at our plant before landing of the equipment at customer premises.
http://aacplant.net
International Refereed Journal of Engineering and Science (IRJES)irjes
The core of the vision IRJES is to disseminate new knowledge and technology for the benefit of all, ranging from academic research and professional communities to industry professionals in a range of topics in computer science and engineering. It also provides a place for high-caliber researchers, practitioners and PhD students to present ongoing research and development in these areas.
The document discusses several machines and accessories for sample preparation in the cement industry. The EQR-100 Mill is designed to crush samples and reduce them to analytical size in seconds for analysis. The EQJ-100 Jaw Crusher crushes samples up to 50mm and reduces them to under 1mm. The EQP-100 and EQP-200 Pellet Presses are used to create pellets of samples under pressure. The F-Series Induction Fluxers fuse samples into beads or dissolve them for further analysis using XRF, AA, or ICP techniques. A variety of accessories like fluxing agents, cups, and tools are also described.
This document provides information about Amar Prem's summer training completed at Bharat Heavy Electricals Limited (Insulator Plant) in Jagdishpur, Uttar Pradesh from June 1st to June 30th, 2016. It includes a certificate signed by his supervisor, Gaurav Pandey, certifying that Amar Prem was cooperative, sincere, and hard working during his training. The document also includes an acknowledgement from Amar Prem thanking BHEL staff for their guidance. Finally, it outlines the various manufacturing processes at the BHEL insulator plant, including sections on insulators, the power distribution plan, calibration lab, ceramic lab, boiler, and detailed descriptions of manufacturing insulators and ceralins.
BESTON has been devoted to environmental projects since 1998. They produce high-quality, certified products for pyrolysis and distillation technology. Their systems can process waste tires/rubber and plastics into fuel oil and carbon black. BESTON works to contribute to environmental protection through quality products and service while creating value for customers.
The Shoaiba Barge SWRO plant in Saudi Arabia is the world's only sea-based desalination plant. It consists of two barges each with a capacity of 26,000 cubic meters per day. The plant uses ultrafiltration pre-treatment and a two-pass reverse osmosis system with FILMTECTM membranes. Since starting operation in May 2008, the first barge has consistently produced high quality water while operating pressures and salt passage have remained stable with only minor decreases in permeate flow observed. Routine membrane cleaning will be required to maintain performance levels.
The document describes several pieces of equipment used in sample preparation:
A manual pellet press that can apply up to 20 tons of pressure to produce high-quality pellets for analysis. Induction fluxers that heat samples homogenously and control temperature to produce beads and solutions. Pellet presses that can apply double pressure cycles and produce pellets of different sizes. An induction-heated jaw crusher for primary size reduction of samples up to 50mm. A vibratory disc mill that can grind a wide variety of materials to analytical grain sizes using a controlled programmable process.
Panasonic has developed a new reliable CO2 refrigeration unit for medium and low temperature applications under high ambient temperatures. The unit features a 100% dedicated outdoor condensing unit with a 2-stage rotary compressor, Panasonic's patented split cycle technology, and low noise levels. It provides high energy efficiency, trusted quality, and low installation costs. Panasonic has been expanding use of these units globally since 2011, with over 10,000 units installed worldwide as of 2019. The document provides details on the unit's performance and applications.
The UVB-1- bitumen unit is designed for the production of anionic and cationic bitumen emulsions, which are used in road construction for the following purposes:
- tack-coating of the old road pavement base before laying new asphalt
concrete;
- preparation of cold asphalt concrete mixes;
- surface treatment of pavements;
- thin protective coatings;
- road top patching;
- dampproofing of buildings and structures;
- soft roofs construction and repairing.
APEX focuses on soil erosion control products made from coir fiber. They produce coir geotextiles and coir logs. Coir geotextiles are mats made from coconut husk fibers that are durable and help prevent soil erosion. Coir logs are long cylindrical structures made of densely packed coir fibers within a twine netting that are used to stabilize slopes and banks from erosion. APEX provides these products at various sizes and specifications to customers internationally and is certified in quality management.
Usually the lining, for this type of excavation, using TBM-EPB, is made with prefabricated concrete segments, and through this memory, I would like to suggest a new technology and related methodology using, instead of the "Pel-Gravel", of the lightweight cellular concrete / concrete CLC [Reported by ACI Committee 523].
What is very important is that even this type of proposed material must also be able to influence the interaction between the support [which is the rock] and the excavation behavior along the tunnel layout.
This document provides information about Muyang MY series single-screw extruders. It discusses the application of these extruders in producing pet food and aquafeed. It compares single-screw and twin-screw extruders. The document also covers technical parameters like capacities for different models, process parameters for floating and sinking aquafeed production, and configuration requirements. Production references are given and wear parts like the extruding rotor are described.
The document describes the Van Bommel Dedusting Technology (VBDT), which provides an end-of-pipe solution to reduce dust from urea products. The VBDT uses equipment like a magnet, lump breaker, elevator, and double aspirator to remove fines, broken product, dust and ultra-fines from urea, producing a premium-grade product. It has been proven to successfully handle high capacity loading and unloading. The VBDT can be a cost-effective way to improve urea product quality and working conditions by producing dust-free urea granules or prills.
The newsletter provides information on new and improved products from Maytronics, including:
1) The new Dolphin M600 robotic pool cleaner which offers maximum cleaning performance with minimal effort through features like a dual-drive motor, precise navigation, and a cloud-connected power supply.
2) Updates to the Dolphin Wave 300XL such as improvements to the driving system and a new power supply PCB card.
3) A thicker filter upgrade kit for models like the M600 and S300 that allows for a higher filtration surface area.
GlobeCore is one of the world leaders in industrial manufacturing. Products of GlobeCore are used in transformer oil purification and degassing, insulation oil filtration, power transformer vacuuming.
The head office is located in Oldenburg, Germany. Our systems have been supplied to and are successfully operated in 70 countries. A network of 17 dealers supports global sales and services.GlobeCore established representative offices in United States, and South Africa and in United Arab Emirates to extend reach and improve efficiency. We actively expand production and sales territories, develop our infrastructure and introduce new additional services.
GlobeCore is a member of American Wind Energy Association www.awea.orgGlobeCore today is a large and diverse company. Over 260 specialists are working as a team from metal cutting to final assembly of the products.The production facility is equipped in compliance with international industry standards: it features robotic plasma metal cutters, automated welding systems and modern PLC controlled machinery.
The engineering staff systematically develops new oil purification equipment and improves existing product lines. GlobeCore produces hundreds of units annually and each product is thoroughly tested at the company’s testing facility.Hundreds of grateful letters and comments from our clients confirm that we are moving in the right direction. During the company’s long life we have established numerous contacts and created a vast network of return clients. And we are not stopping. GlobeCore is open for potential consumers and extends an invitation to all to visit our facility.
PROCESS INTENSIFIER AVS. ELECTROMAGNETIC MILL
The AVS electromagnetic vortex
system operates by forming a vortex
layer in an electromagnetic eld
and using this layer to process
various materials.
A multitude of physical and
chemical processes occurring in
the unit's chamber pulverize
materials to micron sizes,
activate, mix and blend
various substances and
accelerate chemical
reactions by tens and
hundreds times.
The document lists various equipment for producing and modifying bitumen emulsions and collections tanks, including:
- UVB-1 bitumen emulsion units with production capacities of 1, 2, and 8 m3/hour for producing bitumen emulsions.
- A UVB-2 bitumen modification unit with capacities of 4 and 20 m3/hour for modifying bitumen by adding polymers and other additives.
- Auxiliary equipment like colloid mills, pumps, and a SBE-30 bitumen collection tank. specifications for each piece of equipment are provided.
GlobecCore equipment for bitumen emulsion production 2016GlobeCore Plant
АPrimary applications of GlobeCore technologies:
-Extending pavement lifetime
-Quick removal of tensions occurring under traffic load
-Job cost reduction
-Extending the time between pavement repairs
-Environmental protection.
Globecore equipment for bitumen emulsion production 2016GlobeCore Plant
Bitumen emulsion plant model UVB-1 is applied for production of small quantities of bitumen emulsion. Compact design of bitumen emulsion plant allows easy installation and space saving.
The plant is operated in semi-automatic mode and controlled by Program Logic Controller.
Bitumen emulsion plant is equipped with solvent pump; it allows to use low penetration grade bitumen to produce high quality emulsions.
Globecore equipment for bitumen emulsion production 2016GlobeCore Plant
Bitumen emulsion plant model UVB-1 is applied for production of small quantities of bitumen emulsion. Compact design of bitumen emulsion plant allows easy installation and space saving.
The plant is operated in semi-automatic mode and controlled by Program Logic Controller.
Bitumen emulsion plant is equipped with solvent pump; it allows to use low penetration grade bitumen to produce high quality emulsions.
We are one of leading manufacturers & supplier of AAC (Autoclaved aerated concrete) & ALC (Aerated Light weight Concrete) plants in India. We can supply 30m3/ Day to 50000 m3/ annually Plant. Serving their clients with its perfection, efficiency and quality of work. Company manufacturer these state of the art machineries, used in producing AAC & ALC Blocks. Help their clients, in setting up this plant at their places. Customer person can get trained in live production at our plant before landing of the equipment at customer premises.
http://aacplant.net
International Refereed Journal of Engineering and Science (IRJES)irjes
The core of the vision IRJES is to disseminate new knowledge and technology for the benefit of all, ranging from academic research and professional communities to industry professionals in a range of topics in computer science and engineering. It also provides a place for high-caliber researchers, practitioners and PhD students to present ongoing research and development in these areas.
The document discusses several machines and accessories for sample preparation in the cement industry. The EQR-100 Mill is designed to crush samples and reduce them to analytical size in seconds for analysis. The EQJ-100 Jaw Crusher crushes samples up to 50mm and reduces them to under 1mm. The EQP-100 and EQP-200 Pellet Presses are used to create pellets of samples under pressure. The F-Series Induction Fluxers fuse samples into beads or dissolve them for further analysis using XRF, AA, or ICP techniques. A variety of accessories like fluxing agents, cups, and tools are also described.
This document provides information about Amar Prem's summer training completed at Bharat Heavy Electricals Limited (Insulator Plant) in Jagdishpur, Uttar Pradesh from June 1st to June 30th, 2016. It includes a certificate signed by his supervisor, Gaurav Pandey, certifying that Amar Prem was cooperative, sincere, and hard working during his training. The document also includes an acknowledgement from Amar Prem thanking BHEL staff for their guidance. Finally, it outlines the various manufacturing processes at the BHEL insulator plant, including sections on insulators, the power distribution plan, calibration lab, ceramic lab, boiler, and detailed descriptions of manufacturing insulators and ceralins.
BESTON has been devoted to environmental projects since 1998. They produce high-quality, certified products for pyrolysis and distillation technology. Their systems can process waste tires/rubber and plastics into fuel oil and carbon black. BESTON works to contribute to environmental protection through quality products and service while creating value for customers.
The Shoaiba Barge SWRO plant in Saudi Arabia is the world's only sea-based desalination plant. It consists of two barges each with a capacity of 26,000 cubic meters per day. The plant uses ultrafiltration pre-treatment and a two-pass reverse osmosis system with FILMTECTM membranes. Since starting operation in May 2008, the first barge has consistently produced high quality water while operating pressures and salt passage have remained stable with only minor decreases in permeate flow observed. Routine membrane cleaning will be required to maintain performance levels.
The document describes several pieces of equipment used in sample preparation:
A manual pellet press that can apply up to 20 tons of pressure to produce high-quality pellets for analysis. Induction fluxers that heat samples homogenously and control temperature to produce beads and solutions. Pellet presses that can apply double pressure cycles and produce pellets of different sizes. An induction-heated jaw crusher for primary size reduction of samples up to 50mm. A vibratory disc mill that can grind a wide variety of materials to analytical grain sizes using a controlled programmable process.
Panasonic has developed a new reliable CO2 refrigeration unit for medium and low temperature applications under high ambient temperatures. The unit features a 100% dedicated outdoor condensing unit with a 2-stage rotary compressor, Panasonic's patented split cycle technology, and low noise levels. It provides high energy efficiency, trusted quality, and low installation costs. Panasonic has been expanding use of these units globally since 2011, with over 10,000 units installed worldwide as of 2019. The document provides details on the unit's performance and applications.
The UVB-1- bitumen unit is designed for the production of anionic and cationic bitumen emulsions, which are used in road construction for the following purposes:
- tack-coating of the old road pavement base before laying new asphalt
concrete;
- preparation of cold asphalt concrete mixes;
- surface treatment of pavements;
- thin protective coatings;
- road top patching;
- dampproofing of buildings and structures;
- soft roofs construction and repairing.
APEX focuses on soil erosion control products made from coir fiber. They produce coir geotextiles and coir logs. Coir geotextiles are mats made from coconut husk fibers that are durable and help prevent soil erosion. Coir logs are long cylindrical structures made of densely packed coir fibers within a twine netting that are used to stabilize slopes and banks from erosion. APEX provides these products at various sizes and specifications to customers internationally and is certified in quality management.
Usually the lining, for this type of excavation, using TBM-EPB, is made with prefabricated concrete segments, and through this memory, I would like to suggest a new technology and related methodology using, instead of the "Pel-Gravel", of the lightweight cellular concrete / concrete CLC [Reported by ACI Committee 523].
What is very important is that even this type of proposed material must also be able to influence the interaction between the support [which is the rock] and the excavation behavior along the tunnel layout.
This document provides information about Muyang MY series single-screw extruders. It discusses the application of these extruders in producing pet food and aquafeed. It compares single-screw and twin-screw extruders. The document also covers technical parameters like capacities for different models, process parameters for floating and sinking aquafeed production, and configuration requirements. Production references are given and wear parts like the extruding rotor are described.
The document describes the Van Bommel Dedusting Technology (VBDT), which provides an end-of-pipe solution to reduce dust from urea products. The VBDT uses equipment like a magnet, lump breaker, elevator, and double aspirator to remove fines, broken product, dust and ultra-fines from urea, producing a premium-grade product. It has been proven to successfully handle high capacity loading and unloading. The VBDT can be a cost-effective way to improve urea product quality and working conditions by producing dust-free urea granules or prills.
The newsletter provides information on new and improved products from Maytronics, including:
1) The new Dolphin M600 robotic pool cleaner which offers maximum cleaning performance with minimal effort through features like a dual-drive motor, precise navigation, and a cloud-connected power supply.
2) Updates to the Dolphin Wave 300XL such as improvements to the driving system and a new power supply PCB card.
3) A thicker filter upgrade kit for models like the M600 and S300 that allows for a higher filtration surface area.
Similar to Road construction equipment GlobeCore (20)
GlobeCore is one of the world leaders in industrial manufacturing. Products of GlobeCore are used in transformer oil purification and degassing, insulation oil filtration, power transformer vacuuming.
The head office is located in Oldenburg, Germany. Our systems have been supplied to and are successfully operated in 70 countries. A network of 17 dealers supports global sales and services.GlobeCore established representative offices in United States, and South Africa and in United Arab Emirates to extend reach and improve efficiency. We actively expand production and sales territories, develop our infrastructure and introduce new additional services.
GlobeCore is a member of American Wind Energy Association www.awea.orgGlobeCore today is a large and diverse company. Over 260 specialists are working as a team from metal cutting to final assembly of the products.The production facility is equipped in compliance with international industry standards: it features robotic plasma metal cutters, automated welding systems and modern PLC controlled machinery.
The engineering staff systematically develops new oil purification equipment and improves existing product lines. GlobeCore produces hundreds of units annually and each product is thoroughly tested at the company’s testing facility.Hundreds of grateful letters and comments from our clients confirm that we are moving in the right direction. During the company’s long life we have established numerous contacts and created a vast network of return clients. And we are not stopping. GlobeCore is open for potential consumers and extends an invitation to all to visit our facility.
PROCESS INTENSIFIER AVS. ELECTROMAGNETIC MILL
The AVS electromagnetic vortex
system operates by forming a vortex
layer in an electromagnetic eld
and using this layer to process
various materials.
A multitude of physical and
chemical processes occurring in
the unit's chamber pulverize
materials to micron sizes,
activate, mix and blend
various substances and
accelerate chemical
reactions by tens and
hundreds times.
WIND TURBINE SERVICE
The CMM-G unit is designed for a three-stage process of changing oil in wind turbine gearboxes1 (draining old oil, flushing the gearbox and filling it with new oil). The unit allows for quick and efficient servicing of wind turbine oil system. The unit can be used for servicing wind turbines made by many different manufacturers. The CMM-G can also heat clean oil.
Mobile transformer oil purification plant with high vacuum globecore cmm(uvm)...GlobeCore
The document describes the GlobeCore CMM (UVM) 10,0 A mobile transformer oil purification plant. It can process up to 10,000 liters per hour to remove water, gases, and particulate matter from transformer oils. The unit operates in degassing, heating, and vacuum evacuation modes using pumps, filters, a vacuum chamber, and an oil heater. It is controlled by a programmable logic controller and is designed to regenerate oils on-site to service power transformers and other high voltage equipment.
GlobeCore Bitumen Emulsion Plant UVB 8 is especially designed to fulfil the requirements of a specialized road contractor or road and waterproof materials producer for manufacturing volumes of cationic and anionic bitumen emulsion. UVB 8 is available with latex injection unit. Latex makes road and waterproof materials more flexible at low temperatures and resistant to softening in warm conditions.
Globecore transformer oil purification plant with high vacuum cmm 6 dGlobeCore
The document describes the CMM-6D transformer oil purification plant. The plant removes particulate matter and purifies oil from water and gas through degassing, drying, filtration, and heating. It processes 2-6 cubic meters per hour of oil and can heat oil to 90°C. The self-contained unit is installed on a trailer and operated via an automatic control system and touchscreen interface.
This document describes an oil regeneration system that extends the life of oils like transformer oil, turbine oil, and industrial oil by removing contaminants through an adsorption process. The system draws in used oil, filters it, passes it through regeneration cartridges that restore its properties, then collects and filters the regenerated oil. It saves money by extending oil life and is more environmentally friendly than disposing of used oil. The system can regenerate various types of oils at rates of 0.2-0.8 cubic meters per hour depending on the oil type.
The document describes a GlobeCore CMM-2.2 transformer oil purification plant that can purify 2,200 liters of oil per hour. It removes solids and purifies oil of water and gases using vacuum and heat. The portable unit features components like filters, pumps, a heater, and a control panel to clean insulation and lubrication oils used in electric equipment. It can filter and heat oil, perform thermo-vacuum drying, or evacuate air from other equipment under vacuum.
This document provides information about a GlobeCore transformer oil regeneration plant. It can [1] regenerate used transformer oil to restore its dielectric properties and chemical composition, [2] remove gases, water, and particles from oil, and [3] service transformers by evacuating them, heating their windings with hot oil, and removing sediment. The plant uses a degassing section to filter and vacuum treat oil, and a regeneration section uses sorbent to restore oil chemically. It can process up to 4 cubic meters of oil per hour and treat oil both online and offline from transformers.
CMM-R plants are designed to regenerate transformer oil and extend the life of aging transformers. The process draws oil through Fuller's Earth, which removes sludge and degradation byproducts through molecular filtration. The plant then reactivates the Fuller's Earth to be reused up to 300 times. Treated oil shows improved parameters such as acidity level and breakdown voltage. The plant continuously circulates oil to fully automate regeneration and extend a transformer's lifespan by 25-30 years through timely oil regeneration.
Redefining brain tumor segmentation: a cutting-edge convolutional neural netw...IJECEIAES
Medical image analysis has witnessed significant advancements with deep learning techniques. In the domain of brain tumor segmentation, the ability to
precisely delineate tumor boundaries from magnetic resonance imaging (MRI)
scans holds profound implications for diagnosis. This study presents an ensemble convolutional neural network (CNN) with transfer learning, integrating
the state-of-the-art Deeplabv3+ architecture with the ResNet18 backbone. The
model is rigorously trained and evaluated, exhibiting remarkable performance
metrics, including an impressive global accuracy of 99.286%, a high-class accuracy of 82.191%, a mean intersection over union (IoU) of 79.900%, a weighted
IoU of 98.620%, and a Boundary F1 (BF) score of 83.303%. Notably, a detailed comparative analysis with existing methods showcases the superiority of
our proposed model. These findings underscore the model’s competence in precise brain tumor localization, underscoring its potential to revolutionize medical
image analysis and enhance healthcare outcomes. This research paves the way
for future exploration and optimization of advanced CNN models in medical
imaging, emphasizing addressing false positives and resource efficiency.
A SYSTEMATIC RISK ASSESSMENT APPROACH FOR SECURING THE SMART IRRIGATION SYSTEMSIJNSA Journal
The smart irrigation system represents an innovative approach to optimize water usage in agricultural and landscaping practices. The integration of cutting-edge technologies, including sensors, actuators, and data analysis, empowers this system to provide accurate monitoring and control of irrigation processes by leveraging real-time environmental conditions. The main objective of a smart irrigation system is to optimize water efficiency, minimize expenses, and foster the adoption of sustainable water management methods. This paper conducts a systematic risk assessment by exploring the key components/assets and their functionalities in the smart irrigation system. The crucial role of sensors in gathering data on soil moisture, weather patterns, and plant well-being is emphasized in this system. These sensors enable intelligent decision-making in irrigation scheduling and water distribution, leading to enhanced water efficiency and sustainable water management practices. Actuators enable automated control of irrigation devices, ensuring precise and targeted water delivery to plants. Additionally, the paper addresses the potential threat and vulnerabilities associated with smart irrigation systems. It discusses limitations of the system, such as power constraints and computational capabilities, and calculates the potential security risks. The paper suggests possible risk treatment methods for effective secure system operation. In conclusion, the paper emphasizes the significant benefits of implementing smart irrigation systems, including improved water conservation, increased crop yield, and reduced environmental impact. Additionally, based on the security analysis conducted, the paper recommends the implementation of countermeasures and security approaches to address vulnerabilities and ensure the integrity and reliability of the system. By incorporating these measures, smart irrigation technology can revolutionize water management practices in agriculture, promoting sustainability, resource efficiency, and safeguarding against potential security threats.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
Comparative analysis between traditional aquaponics and reconstructed aquapon...bijceesjournal
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECTjpsjournal1
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
DEEP LEARNING FOR SMART GRID INTRUSION DETECTION: A HYBRID CNN-LSTM-BASED MODELgerogepatton
As digital technology becomes more deeply embedded in power systems, protecting the communication
networks of Smart Grids (SG) has emerged as a critical concern. Distributed Network Protocol 3 (DNP3)
represents a multi-tiered application layer protocol extensively utilized in Supervisory Control and Data
Acquisition (SCADA)-based smart grids to facilitate real-time data gathering and control functionalities.
Robust Intrusion Detection Systems (IDS) are necessary for early threat detection and mitigation because
of the interconnection of these networks, which makes them vulnerable to a variety of cyberattacks. To
solve this issue, this paper develops a hybrid Deep Learning (DL) model specifically designed for intrusion
detection in smart grids. The proposed approach is a combination of the Convolutional Neural Network
(CNN) and the Long-Short-Term Memory algorithms (LSTM). We employed a recent intrusion detection
dataset (DNP3), which focuses on unauthorized commands and Denial of Service (DoS) cyberattacks, to
train and test our model. The results of our experiments show that our CNN-LSTM method is much better
at finding smart grid intrusions than other deep learning algorithms used for classification. In addition,
our proposed approach improves accuracy, precision, recall, and F1 score, achieving a high detection
accuracy rate of 99.50%.
TIME DIVISION MULTIPLEXING TECHNIQUE FOR COMMUNICATION SYSTEMHODECEDSIET
Time Division Multiplexing (TDM) is a method of transmitting multiple signals over a single communication channel by dividing the signal into many segments, each having a very short duration of time. These time slots are then allocated to different data streams, allowing multiple signals to share the same transmission medium efficiently. TDM is widely used in telecommunications and data communication systems.
### How TDM Works
1. **Time Slots Allocation**: The core principle of TDM is to assign distinct time slots to each signal. During each time slot, the respective signal is transmitted, and then the process repeats cyclically. For example, if there are four signals to be transmitted, the TDM cycle will divide time into four slots, each assigned to one signal.
2. **Synchronization**: Synchronization is crucial in TDM systems to ensure that the signals are correctly aligned with their respective time slots. Both the transmitter and receiver must be synchronized to avoid any overlap or loss of data. This synchronization is typically maintained by a clock signal that ensures time slots are accurately aligned.
3. **Frame Structure**: TDM data is organized into frames, where each frame consists of a set of time slots. Each frame is repeated at regular intervals, ensuring continuous transmission of data streams. The frame structure helps in managing the data streams and maintaining the synchronization between the transmitter and receiver.
4. **Multiplexer and Demultiplexer**: At the transmitting end, a multiplexer combines multiple input signals into a single composite signal by assigning each signal to a specific time slot. At the receiving end, a demultiplexer separates the composite signal back into individual signals based on their respective time slots.
### Types of TDM
1. **Synchronous TDM**: In synchronous TDM, time slots are pre-assigned to each signal, regardless of whether the signal has data to transmit or not. This can lead to inefficiencies if some time slots remain empty due to the absence of data.
2. **Asynchronous TDM (or Statistical TDM)**: Asynchronous TDM addresses the inefficiencies of synchronous TDM by allocating time slots dynamically based on the presence of data. Time slots are assigned only when there is data to transmit, which optimizes the use of the communication channel.
### Applications of TDM
- **Telecommunications**: TDM is extensively used in telecommunication systems, such as in T1 and E1 lines, where multiple telephone calls are transmitted over a single line by assigning each call to a specific time slot.
- **Digital Audio and Video Broadcasting**: TDM is used in broadcasting systems to transmit multiple audio or video streams over a single channel, ensuring efficient use of bandwidth.
- **Computer Networks**: TDM is used in network protocols and systems to manage the transmission of data from multiple sources over a single network medium.
### Advantages of TDM
- **Efficient Use of Bandwidth**: TDM all
ACEP Magazine edition 4th launched on 05.06.2024Rahul
This document provides information about the third edition of the magazine "Sthapatya" published by the Association of Civil Engineers (Practicing) Aurangabad. It includes messages from current and past presidents of ACEP, memories and photos from past ACEP events, information on life time achievement awards given by ACEP, and a technical article on concrete maintenance, repairs and strengthening. The document highlights activities of ACEP and provides a technical educational article for members.
2. UVB-1 bitumen emulsion unit (1 m³/hour) ............................................................................................................................................. 2
UVB-1 bitumen emulsion unit (2 m³/hour).............................................................................................................................................. 4
UVB-1 bitumen emulsion unit (8 m³/hour) ............................................................................................................................................. 6
UVB-2 bitumen modification unit (4 m³/hour) ...................................................................................................................................... 8
UVB-2 bitumen modification unit (20 m³/hour) ..................................................................................................................................10
SBE-30 bitumen emulsion collection tank ............................................................................................................................................14
SBM-15 modified bitumen collection tank .......................................................................................................................................... 15
SN-1 pump assembly ....................................................................................................................................................................................16
FBS-1 bitumen filter ...................................................................................................................................................................................... 17
UVB-2-L bitumen modification laboratory system ........................................................................................................................... 19
UVB-1-L bitumen emulsion laboratory system .................................................................................................................................. 20
UVB-1-V foam bitumen laboratory system ........................................................................................................................................... 21
Примечания ............................................................................................................................................. 25
Content
3. 2
UVB-1 Bitumen Emulsion Unit
UVB-1unit,1m³/hourproductioncapacity
*Dependingonprocessrecipe
**Theunitcaninjectvariouscomponentsintotheemulsion:stabilizer,viscosityadjustment,adhesion
additiveaswellaslatex,whichallowtoproduceamorethermallydurableproduct.
Value
Maximum production capacity (preparation time included), m3
/hour 1
Minimum bitumen consumption, m3/hour/ cubic yards per hour 0.97/1.26
Water consumption, m3/hour/ gallons per hour 0.6-0.7 */158-185
Flux consumption, dm3
/hour 0-50 *
Acid (alkali) consumption, dm3
/hour 1-20 *
dm3
/hour 1-20 *
Adhesion additive consumption, dm3
/h 1-20 *
Max bitumen input pressure, MPa 0.2
Bitumen to mixer pressure, MPa 14-16
Water phase to mixer pressure, MPa 0.2
Bitumen input temperatur, °С/F 140-160/284-320
Water input temperautre, °С/F 40-60/104-140
Max emulsion output head, m 15
Max nominal power, kW 17
Power voltage at 50 Hz, V 380
Compressed air supply, bar 4-6
Air consumption, dm3
/min 100
Dimensions (L/W/H), mm/inches: 2250/1750/1840
87.5”/69’’/72.5’’
Max weight, kg/lbs 1050/2320.5
GlobeCore’s UVB-1 Bitumen Emulsion plants are designed for the
production of anionic and cationic bitumen emulsions.
Bitumen emulsions are used in road construction and for the resurfacing
of old roads and highways. Bitumen emulsions are used before the
application of asphalt or concrete, and are used for the preparation of cold
asphalt concrete mixes, the treatment of road surface tops, preparation of
thin film protective coatings, and road-patching repairs. The units can be
operated either indoors or outdoors under canopy.
The UVB-1 unit has a one cubic meter (1 m3) per hour production capacity.
(1.3 cubic yards)
4. 3
UVB-1 extension, 1 м3
/hour production capacity (1.3 cubic yards)
Waterphaseextensionsection
ForUVB-11m3
/hourproductioncapacity
Value
Minimum pump capacity, m3/hour/ gallons per hour 12/3176
Temperature of water input to the extension, оС/оF 40-60/104-140
Max nominal power, kW 3
Power voltage at 50Hz (60Hz in USA), V 380
Dimensions (L/W/H), mm/inches 2230/1170/1500
88’’/46’’/59’’
Max weight, kg/lbs 370/818
The “water phase extension” section increases the production capacity of
the UVB-1 by more than 2 times due to the elimination of the time required
for preparation of the blend in the unit. The addition of the extension
provides for continuous operation of the unit.
The unit is designed to operate when ambient temperatures range
between +5о
С/41о
F to +40 о
С/104о
F.
5. 4
UVB-1 Bitumen emulsion unit 2 m3
/hour production capacity (2.6 cubic yards)
Value
Maximum production capacity (preparation time included),
m3/hour/cubic yards/hour
Minimum bitumen consumption, m3/hour/cubic yards per hour 1.5/1.96
Water consumption, m3/hour/gallons per hour 0.6–1.5*/159–397
Flux consumption, dm3
/hour 0–50 *
Acid consumption, dm3
/hour 5–20 *
dm3
/hour 5–20 *
Adhesion additive consumption, dm3
/h 1–20 *
Max bitumen input pressure, MPa 0.2
Bitumen to mixer pressure, MPa 1.4–1.6
Water phase to mixer pressure,MPa 0.2
Bitumen input temperature, °С/o
F 140–160/284–320
Water input temperautre,°С/o
F 40–60*/104–140
Max emulsion output head, m 15
Max nominal power, kW 17
Power voltage at 50 Hz, V 380
Compressed air supply, bar 4–6
Air consumption, dm3
/min 250
Dimensions (L/W/H), mm/inches 2340/2080/2080
92”/82”/82’’
Max weight, kg/lbs 1260/2785
*Dependingonprocessrecipe A2m3
/hourUVB-1bitumenunit
The unit consecutively blends components in hydrodynamic mixers at a
constant pressure and temperature. Due to the unique design the
hydrodynamic mixer, the unit is able to provide instant blending of
component streams. This makes the unit compact and reduces energy
consumption. The final stage of production of the “uniform water-bitumen
emulsion” occurs in a colloid mill. The high performance colloid mill
assures the production of a high quality final product.
The unit also features “process control” instrumentation that allows the
operator to operate the unit in either manual or semi-automatic mode.
2*/2.6
7. 6
UVB-1 Bitumen emulsion unit 8 m3
/hour production capacity (10.4 cubic yards)
An8m3
/hourUVB-1bitumenunit
The reliability of the unit is ensured by the use of the best components from European and Asian
and American manufacturers:
• Motovario gearbox
• KTR couplings
• Wilo pumps
• Influx flowmeters
• Zipson valves (This is only a partial list of manufacturers)
The unit features Wika temperature and pressure sensors for safety of operation
8. 7
UVB-1unit,8m3
/hourproductioncapacity(containerized)
Value
Maximum production capacity (preparation time included),
m3/hour/cubic yards
8*/10.3
Minimum bitumen consumption, m3/hour/cubic yards 10.5/13.6
Water consumption, m3/hour/gallons per hour max 5–7*/1853
Flux consumption, dm3
/hour 50–350 *
Acid consumption, dm3
/hour 50–150 *
dm3
/hour до 50 *
Max bitumen input pressure, MPa 0,2
Bitumen to mixer pressure, MPa 1.4
Water phase to mixer pressure,MPa 0.2
Bitumen input temperature, °С/o
F 140–160/284–320
Water input temperautre, °С/o
F 40–60/104–140
Max emulsion output head, m/cubic yards 10/13
Max nominal power, kW 38
Power voltage at 50 Hz, V 380/220
Dimensions (L/W/H), mm/inches 4850/2150/2200
191’’/84.6’’/86.6’’
Max weight, kg/lbs 3550/7845
*Dependingonprocessrecipe
For outdoor operation, the unit can be manufactured and placed in a
container with rolling doors for anti-vandal protection.
For indoor operation, or operation under a canopy, the unit can be
manufactured and placed in an open container.
The 1 m3/hour and 2 m3/hour UVB-1 units are built in open containers
and in containers with rolling doors. The 8 m3/hour UVB-1 units are built
in open containers and in containers with rolling doors and anti-vandal
containers.
UVB-1 Bitumen emulsion unit 8 m3
/hour production capacity (10.3 cubic yards)
9. 8
UVB-2
UVB-2unit,4m³/hourproductioncapacity
4 m3
/hour production capacity
The UVB-2 bitumen modification units are designed to modify bitumen by
adding polymers, adhesion additives, and plasticizers into viscous road
bitumen. Modified bitumen is used in production of asphalt/concrete top
layer, cement protection layers, and as crack sealant.
The use of modified bitumen, instead of regular bitumen in asphalt
concrete mixes extends the operating temperature range of asphalt
concrete layer applications without the concern of seasonal temperature
fluctuations. It also ensures load “deformation resistance” (crack and rut
formation) and extends the useful service life of highways and roadway
systems.
The unit is designed for efficient implementation of virtually any bitumen
modification process using a wide range of polymer modifiers (polymers
and waxes).
10. 9
Value
Minimum production capacity, m³/hour/cubic yards per hour 4/5.2
Amount of polymer per 1м³ of bitumen, kg/lbs 10 to 100/22.1 to 221
Operation mode Batch/consecutive
Number of reactors 2
Nominal power, kW
• mill 45
• bitumen to mill supply pump 5,5
• bitumen supply/output pump 11.0
• agitator drive 2×5.5
• heater power (total) 4×27
• heat carrier supply pump 3
• control systems 0.8
• plasticizer supply pump 3
• adhesion additive supply pump 0.25
• total 190
Power supply:
• voltage,V 380
• AC frequency,Hz* 50
Dimensions without components removed for transportation
(L/H/W), mm/inches
5200/3200/2400
204.7’’/126’’/94.5’’
Max weight, kg/lbs 5600/12,376
*AllequipmentforuseinNorthAmericaisdesignedtooperateon60Hz
11. 10
UVB-2 20 m3
/hour production capacity (26 cubic yards)
Value
Minimumproductioncapacity,m³/hour/cubicyardsperhour 20/26
Amountofpolymerper1м³ofbitumen,kg/lbs 10 to 60/22.1 to 132.6
Amount of plasticizer per 1 m³ 10–100
Amount of adhesive additive per 1 m³ of bitumen, liters (max) 10
Operation mode Continuous
Nominal power, kW
• mill 2 х 55 = 110
• bitumen pumps 2 х 18 = 36
• plasticizer pump 1.1
• adhesion additive pump 0.25
• screw elevator drive 3
• weight elevator and screw elevator driver 0.43
• screw mixer drive 5.5
• total 157
Power supply:
• voltage,V 380
• AC frequency,Hz* 50
Dimensions without components removed for transportation
(L/H/W) mm/inches,
6050/2570/3360
238.25’’/109.25’’/132.25’’
Max weight, kg/lbs 5860/12,950
*AllequipmentforuseinNorthAmericaisdesignedtooperateon60Hz
12. 11
UVB-2unit20m³/hourcapacity
Increasing road construction and
repair market leads to growing
modified bitumen demand.
The 20 m3
/hour unit solves that
problem. The double stream
process used in this unit reduces
load on the shearing part of the mill
and extend mill service life.
11
15. 14
SBE-30
SBE-15 SBE-30
Minimum total volume, m³/cu. yds 16/20.8 33/42.9
Minimum usable volume, m³/yds 15/19.5 30/39
Electric power
• voltage, V 380 380
• AC frequency, Hz* 50 50
Dimensions (L/W/H), mm/inches
Max weight, kg/lbs 3000/6630 7000/15470
Max full loaded weight, kg/lbs 18000/39780 37000/81770
SBE-30bitumenemulsioncollection
andstoragetank
The SBE bitumen emulsion collection and storage tank is designed for storage
of bitumen emulsion produced with the UVB-1 bitumen emulsion unit. It can
be supplied with or without an agitator and with a circulation pump collector.
The system is equipped with Dinel and Wika temperature and level sensors as
2100/2100/6400
82.7’’/82.7’’/252’’
2448/2400/11700
96.5’’/94.5’’/461’’
*AllequipmentforuseinNorthAmericaisdesignedtooperateon60Hz
16. 15
SBM-15
bitumen production equipment. The product is equipped with automatic
agitator and heating circuit. The system is equipped with Dinel and Wika
SBM-15 SBM-30
Minimum total volume, m³/ cu. yds. 16/20.8 33/42.9
Minimum usable volume, m³/cu. yds. 15/19.5 30/39
Agitator type Vane Vane
Agitator RPM 36 400
Heat exchanger square area, m2
18
Insulation thickness, mm/inches 200/8’’ 200/8’’
Nominal power, kW 11.3 30
Electric power
• voltage,V 380 380
• AC frequency, Hz* 50/60 50/60
Dimensions (L/W/H), mm/inches 3250/2500/7200
128’’/98.5’’/283.5‘’
2440/2400/12500
96’’/94.5’’/492’’
Max weight, kg/lbs 3800/8398 11000/24310
Max full loaded weight, kg/lbs 18800/41548 41000/90610
collectiontank
*AllequipmentforuseinNorthAmericaisdesignedtooperateon60Hz
17. 16
SN-1 Pump assembly
Value
Pump type Gear pump
Nominal capacity, m3/hour/gals per hour 28/7411.6
Nominal shaft RPM 389
Nominal drive power, kW 5.5
Power voltage,V 380/220
Nominal mean suction diameter, mm 80
Nominal mean heat carrier input diameter, mm 25
Max allowable heat carrier pressure, MPa 0.78
Max heat carrier temperature, °C/o
F 180/356
Operating pressure at nominal feed, MPa 0.59
Minimum suction head, m 1
Dimensions (L/W/H), mm/inches 1270/430/745
50’’/17’’/29.5’’
Max weight, kg/lbs 300/663
PumpassemblySN-1
The SN-1 Pump Assembly is designed for the pumping of high
viscosity organic binding materials with viscosity up to 3,500
mm2/second and temperatures up to +180oC/356oF. This
pump is used for pumping of waterproofing, roofing, asphalt
repair mastics and emulsions, as well as for the pumping of oil,
tar and bitumen emulsions.
18. 17
FBS-1
Value
Mean nominal diameter, mm/inches 80/3.2’’
Capacity, m3/hour/cu yds. per hour 15/19.5
mm 5/1
Bitumen input pressure, kg/cm2
,(MPa) 2 (0.2)
Heat carrier operating pressure, kg/cm2
,(MPa) 4 (0.4)
Bitumen input temperature,˚C/˚F 140–160/284–320
Heat carrier temperature, ˚C/˚F max 200/392
Dimensions without control cabinet (L/W/H), mm/inches 925/380/1100
36.5’’/15’’/43.3’’
Max weight, kg/lbs 170/376
The FBS-1 Bitumen filter is designed to remove solid contaminants from
bitumen and other non-corrosive liquids.
The filter is intended for integration into the input, storage and output
processes involving regular or modified bitumen, bitumen emulsions and
other high viscosity liquids that require heating.
This filter has two filter cartridges that allows it to operate continuously.
It also features temperature and pressure sensors for increased reliability
and safety.
20. 19
UVB-2-L
Value
Main load vessel volume, liters/gals 24/6.25
Minimum bitumen load in vessel, liters/gals 10/2.6
Maximum bitumen load in vessel, liters/gals 12/3.12
Dispersion of bitumen and
polymer in mill
ump capacity, l/min/gal per min 30/7.8
Max temperature of bitumen preparation, ˚C/˚F 190/374
Minimum bitumen input temperature, ˚C/˚F 160/320
Heating of liquid in the tank and pipelines By heat carrier
Heater power, kW 4.8
Controls Manual
Component controls Automation assisted
Max power consumption, kW 15
Dimensions (L/W/H), mm/inches 1630/770/1800
64.2”/30.4”/71”
Max net weight, kg/lbs 420/928.2
UVB-2-Llaboratorysystem
The UVB-2-L bitumen modification laboratory system is designed for preparation of
small samples (no more than 10 liters/2.5 gals. per batch) of modified bitumen.
The system uses a continuous bitumen mixing process with further dispersion of
bitumen and polymer in the mill. Unit design allows for addition of other liquid
components in the process of bitumen modification.
The unit can be used by petrochemical facilities for the
optimization of the modified bitumen production
process, determining the required amount of modifying
additives, and using the prepared bitumen as a
laboratory sample.
21. 20
UVB-1-L Bitumen emulsion laboratory system
Bitumen emulsion laboratory system is designed for:
• preparation of laboratory samples of bitumen emulsions;
• testing and refining of the bitumen emulsion recipe with
given emulsion components and intended emulsion application.
This unit can be supplied in addition to UVB-1 bitumen emulsion production
unit or as a stand-alone product.
Value
Max production capacity, dm3
/hour 20
Bitumen to mixer pressure, MPa 1.6
Bitumen temperature, ˚C/˚F 140–160/284–320
Water phase temperature, ˚C/˚F 40–60/104–140
Max power consumption, kW 6
Power voltage, V 380/220
Dimensions (L/W/H), mm/inches 1500/700/1350
59.1’’/27.5’’/53.2’’
Max weight, kg/lbs 200/442BitumenemulsionlaboratorysystemUVB-1-L
22. 21
UVB-1-V Foam bitumen laboratory system
Value
Minimum mixer capacity for bitumen, l/hour/galsperhour 600/158.5
Water consumption, l/hour,min/max(galsperhour) 6/30 (1.5/7.85)
Air consumption, l/hour,min/max 0/100
Bitumen pressure, max, MPa 1.6
Water pressure, max, MPa 0.6
Compressed air pressure (to mixer), max, MPa 0.6
Compresse air pressure (to controls),min/max,MPa 0.4/0.63
Bitumen temperature, ˚C/˚Fmin/max 140–160/284–320
Water temperature, ˚C/˚F,min/max 20–60/68–140
Oil temperature (for heating)˚C/˚F,min/max 120–180/248–356
Nominal power, kW 10.4
Power voltage, V 380/220
Bitumen tank volume, liters/gals 15/3.9
Water tank volume, liters/gals 15/3.9
Volume of oil for heating, liters/gals 10–15/2.5–3.9
Dimensions (L/W/H), mm/inches 1250/970/1490
49.3’’/38.25’’/57.7’’
Max weight, kg/lbs 400/884
UVB-1-Vlaboratorysystem
The UVB-L unit is designed for refining of foam bitumen recipes. It can
be used by asphalt-concrete mix production facilities, as well as
construction and road repair facilities.
The unit is designed for indoor use.