Tag Archive for: stabilization

In Goa, India, the renovated Manohar International Airport, the second largest airport in the region, began operations

The airport’s roads and runways are designed with robust and sustainable infrastructure that includes an economical solar power plant, eco-friendly building design, energy-efficient LED runway lighting, rainwater harvesting systems and a wastewater treatment plant with advanced recycling capabilities. The airport officially began operations with the arrival of its first passenger flight from Hyderabad.

The main innovation in the construction of Manohar Airport is the use of StabilRoad© technology, which is an innovative and environmentally friendly road construction solution. StabilRoad© technology increases durability and reduces environmental impact. By incorporating StabilRoad© technology, Manohar Airport has achieved a more resilient and sustainable ground infrastructure that meets global standards of environmentally conscious development.

StabilRoad® technology supports areas with difficult climates with stabilized roads

StabilRoad® technology supports areas with difficult climates with stabilized roads

In monsoon areas, where annual rainfall can reach up to 3000 mm, roads often face severe damage. The rain washes away the roads and in case of floods, the whole infrastructure suffers significantly. This in turn negatively affects the local economy and the daily life of communities. StabilRoad® technology offers a solution that can withstand harsh weather conditions. Improved roads built using the StabilRoad® method remain in perfect condition even after many years. This means that rural residents do not have to repeatedly lose their vital infrastructure and can enjoy constant connectivity and better living conditions.

StabilRoad® stabilization technology is based on a unique method, making the road resistant to extreme rainfall and flooding. This technology ensures that the roads remain strong and durable even in the most severe weather conditions. As a result, it is possible to reduce road repair and maintenance costs while providing a reliable transportation network. In addition to weather resistance, StabilRoad® technology is also environmentally friendly. By using local materials and reducing the need for ongoing maintenance, it helps reduce the ecological footprint. This is especially important in areas where conservation of natural resources is critical.

StabilRoad® supports the essential economic development of rural areas by providing safe and climate-adapted roads. Stable and reliable infrastructure is an important factor that allows the local economy to develop, improving access to markets, education and health services. This leads to an increase in the quality of life and creates new economic opportunities. StabilRoad® technology offers a sustainable and efficient solution for road stabilization in areas with a harsher climate. As a result, rural communities can maintain their vital infrastructure even in extreme weather conditions, ensuring sustainable economic growth and better living conditions.

StabilRoad® technology reached the Formula E World Championship circuit

StabilRoad® technology reached the Formula E World Championship circuit

Hyderabad Street Circuit, a temporary venue built to host the Formula E World Championship, is located on the NTR Park Roads on the edge of the Hussain Sagar Lake. The competition is supported by the Telangana local government and the NTR Marg road was stabilized using StabilRoad® technology in 2018. Telangana and Hyderabad authorities and race operators have selected the highest quality road for the Formula E Race to ensure smooth and safe organization of the race.

The application of StabilRoad® technology increased the durability and quality of the road, enabling the circuit to withstand the intense conditions of Formula E races. The benefits of the StabilRoad® method are manifold. In addition to allowing the full reuse of existing material, it is an environmentally friendly and cost-effective solution that extends the life of roads and reduces maintenance costs.

The use of StabilRoad® technology at the Hyderabad circuit is an example of the company’s commitment to providing the highest standards to its partners. We are proud to be able to support our partners in this way and contribute to the creation of high-quality roads. Our commitment to quality and sustainability drives us forward, ensuring that both local communities and international events benefit from our innovative solutions. StabilRoad® technology continues to improve road quality and increase durability, which is especially important in demanding environments such as Formula E World Championship circuits.

StabilRoad® project at Hyderabad international airport was a success

StabilRoad® project at Hyderabad international airport was a success

From March 2020, the repair work on the existing roads and concourses of the Hyderabad International Airport began. In addition, new roads and parks serving the airport began to be built using StabilRoad® technology. The Government of India granted special permission to continue the work even during the quarantine period of the Covid-19 virus, which allowed for more extensive work, as air traffic was minimal at that time. During the renovation and reconstruction works, the Hyderabad airport taxiways, partially the alternate runway and the entire main runway were stabilized using StabilRoad® technology. In total, nearly 300,000 m² of surface was stabilized.

One of the largest cargo aircraft, the Airbus Beluga, landed at the Rajiv Gandhi International Airport (RGIA) on December 4, giving the onlookers a rare and extraordinary experience. Hyderabad airport authorities arranged this landing on the runway, which was part of the StabilRoad® method carried out in 2020 and 2021, covering a total area of ​​700,000 square meters.

The use of StabilRoad® technology at Hyderabad International Airport once again proved its efficiency and durability. The technology allows heavily loaded roads and runways to maintain their quality and functionality even under intensive use. The StabilRoad® method has helped reduce maintenance costs and extend the life of roads, providing an environmentally friendly and cost-effective solution. Hyderabad International Airport’s major project is a model for future airport infrastructure projects, proving that high-quality and durable road can be achieved even in challenging conditions.

Tag Archive for: stabilization

Andaman and Nicobar Islands national highway extension

Andaman and Nicobar Islands national highway extension

In 2019, a new and ambitious national highway project was launched in the Union Territory of Andaman and Nicobar Islands in India. The aim of the project was to improve traffic safety and road durability, especially given the islands’ harsh climate and monsoon seasons, which bring intense rainfall and difficult weather conditions. Andaman and Nicobar Islands are known for their beautiful yet challenging landscape. The area’s road infrastructure is vital to the development of the local community and tourism.

The project used StabilRoad® technology, which was used to widen a road approximately 55 kilometers long and 5.5 meters wide. The first road section was completed in 2019, after which extensive testing and monitoring was carried out. The results of the testing were very positive, so it was decided to complete the construction of the entire road using the StabilRoad® method. The project was completed by March 2021.

The widening of the Andaman and Nicobar Islands National Highway was a successful project that demonstrated the benefits of using StabilRoad® technology. Thanks to StabilRoad® technology, the national road of the islands is now stronger and more durable, offering a safe and comfortable traffic option for the residents and visitors of the islands.

Project data

  • Project Manager: Vishwa Samudra Engineering
  • Location: Andaman & Nicobar, India
  • Area: 300,000 m2
  • Construction period: March 2019 – March 2021
  • Construction period: 1 year

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Renovation of Hyderabad international airport

Renovation of Hyderabad international airport

In March 2020, extensive renovation work began at Hyderabad’s Rajiv Gandhi International Airport. The main objective of the project was to improve the airport’s infrastructure by ensuring safe and durable taxiways and runways that meet international standards and can withstand heavy traffic loads. Rajiv Gandhi International Airport is named after the former Prime Minister of India, Rajiv Gandhi, and is recognized as one of the best airports in the world, having made AirHelp’s top ten list in the world.

During the project, StabilRoad® technology was used, with the help of which all the runways and taxiways, with a total length of 8 kilometers, were stabilized. The entire existing pavement structure was stabilized, making the airport runways more durable and long-lasting. Reusing existing material reduced the need for new materials and contributed to environmental sustainability.

The renovation of Hyberbad International Airport was a successful project that demonstrated the benefits of using StabilRoad® technology. Thanks to StabilRoad® technology, airport runways are now stronger and more durable, providing safe and comfortable flight operations for thousands of passengers and goods.

Project data

  • Project Manager: Vishwa Samudra Engineering
  • Location: Hyderabad, India
  • Area: 300,000 m2
  • Construction period: March 2020 – March 2021
  • Construction period: 1 year

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Stabilization and asphalting of main street in central Hyderabad

Stabilization and asphalting of main street in central Hyderabad

In February 2018, extensive road works were carried out in the center of Hyderabad, during which the main street was stabilized and asphalted. The main goal of the project was to improve the quality of the pavement, ensuring its durability and extending its service life. The project was aimed at stabilizing the existing multi-layer partially degraded bitumen asphalt soil and covering it with a new asphalt layer. Hyderabad, home to around 7 million people, is known for its heavy traffic and intense traffic congestion. The quality and condition of the central high street is critical as it is one of the city’s main transport hubs.

The project used StabilRoad® technology, which stabilized the existing soil and then covered it with a 5 cm thick layer of asphalt. During the process, 30 cm of soil was mixed, of which about 25 cm was bituminous asphalt and 5 cm old black mix (WMM). The stabilized surface was then covered with a new asphalt layer 5 cm thick, which ensured the strength and durability of the road surface.

The stabilization and asphalting of a main street in the city center of Hyderabad was a successful project that demonstrated the benefits of using StabilRoad® technology. Thanks to StabilRoad® technology, the new main street is now significantly stronger and more durable, providing safe and comfortable traffic for millions of people.

Project data

  • Project Manager: Vishwa Samudra Engineering
  • Location: Hyderabad, India
  • Area: 22,000 m2
  • Construction date: February 2018
  • Construction period: 6 days

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Stabilization and asphalting of Kerala national highway

Stabilization and asphalting of Kerala national highway

In March 2018, extensive renovation work was carried out on the national highway in the Kerala region. The main goal of the project was to improve the quality of roads and extend their service life by applying environmentally friendly and sustainable technologies. Kerala is also known for its harsh weather conditions, including heavy rains and hot temperatures. These conditions significantly affect the quality and durability of roads.

During the project, the existing pavement material was stabilized and reused. The project focused on reusing existing material to improve the road’s durability and quality. This process involved thoroughly mixing and stabilizing the existing pavement using the StabilRoad® method to create a strong and durable base. The stabilized area was then covered with a new layer of asphalt, which ensured the long-term durability and quality of the road surface.

The stabilization and asphalting of the Kerala National Highway was a successful project that demonstrated the benefits of using StabilRoad® technology. Thanks to StabilRoad® technology, the Kerala road is now significantly more durable and in a better condition, providing a safe and comfortable traffic option for local residents and visitors.

Project data

  • Project Manager: Vishwa Samudra Engineering
  • Location: Adoor Town, Kerala, India
  • Road length: 5.9 km
  • Construction date: March 2018
  • Construction period: 9 days

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Stabilization and asphalting of Krishnapatnam harbor areas

Stabilization and asphalting of Krishnapatnam harbor areas

In February 2017, extensive road works were carried out at the Port of Krishnapatnam in Andhra Pradesh to stabilize and asphalt the access roads between the HGV parking lot. The aim of the project was to improve the durability and ease of use of the roads in order to ensure smooth and safe traffic in the port territory. Krishnapatnam Port is one of the largest and most important ports in India, handling thousands of heavy goods vehicles every day. The quality and durability of port access roads is critical as these roads must withstand extreme loads.

The project used StabilRoad® technology, which stabilized the existing soil and then covered it with a 5 cm thick layer of asphalt. For stabilization and mixing, only the soil found in the port area was used, including loamy sand and clayey crushed stone. This approach ensured that the materials needed for the road works were easily available and environmentally friendly.

The stabilization and asphalting of Krishnapatnam harbor areas was a successful project that demonstrated the benefits of using StabilRoad® technology. Thanks to StabilRoad® technology, the access roads are now significantly stronger and more durable, offering safe and comfortable traffic in the port.

Project data

  • Project Manager: Vishwa Samudra Engineering
  • Location: Andhra Pradesh, India
  • Area: 20,000 m2
  • Construction time: August 2017
  • Construction period: 10 days

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Renovation of the Imavere log sorting area warehouse

Renovation of the Imavere log sorting area warehouse

In July 2016, a project was carried out, during which the old dilapidated asphalt covered warehouse was renovated in the Imavere log sorting area. The goal of the project was to stabilize and improve the decking of the warehouse to ensure its durability and long-term service life. Over time, the old asphalt coating of the warehouse had decayed, making work difficult and dangerous. The Imavere log sorting area is an important part of Stora Enso’s logistics chain, where large quantities of wood are sorted and stored.

The project used StabilRoad® technology, by which the existing pavement material (gravel, sand, clay) was mixed with cement and StabilRoad® additive to achieve the required stability. The existing soil was thoroughly mixed to create a stable base for further work. After stabilization, the storage area was left uncovered for the winter, allowing the soil to settle and gain the necessary strength.

The renovation of the sorting area warehouse was a successful project that demonstrated the benefits of using StabilRoad® technology. Thanks to the StabilRoad® technology, the warehouse is significantly stronger and more durable, offering safe and comfortable work arrangements for the staff of the entire sorting area.

Project data

  • Project manager: StoraEnso
  • Location: Imavere, Estonia
  • Area: 3,800 m2
  • Construction date: July 2016
  • Construction period: 2 days

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Stabilization of the Kolga-Jaani gravel test road section

Stabilization of the Kolga-Jaani gravel test road section

In July 2015, an important project was carried out in Kolga-Jaani, during which a test road section with a gravel surface was stabilized. The aim of the project was to improve the quality and durability of the road section, making it dust-free and stable and strong enough to withstand the traffic load of the area. Before the start of the project, the Kolga-Jaani road section was covered with gravel, which, as a dusty and unstable surface, did not meet the needs of local traffic.

The project used StabilRoad® technology, by which the existing pavement material (gravel, sand, clay) was mixed with cement and StabilRoad® additive to achieve the required stability. The thickness of the stabilized layer was 30 cm, which ensures sufficient stability and strength of the road. The first half of the section was immediately coated with a granite crushed-bitumen coating to test the durability and performance of the coating immediately after stabilization. The other half of the section was left uncovered for the winter to observe how the stabilized layer would withstand winter weather conditions. In autumn, the theme land was organized and ditches were dug to ensure effective drainage of rainwater. The following summer, the other half of the section was also covered with a granite crushed-bitumen coating.

Stabilization of the Kolga-Jaani gravel test road section was an important step in improving quality and durability. Thanks to the professional application of the Estonian Transport Board and StabilRoad® technology, the stabilized road section is now much more durable and user-friendly. This project shows how innovative and environmentally friendly solutions can significantly improve the quality and durability of infrastructure.

Project data

  • Project manager: Estonian Transport Board
  • Location: Kolga-Jaani, Kõo, Estonia
  • Area: 2,800 m2
  • Construction date: July 2015
  • Construction period: 1 day

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Construction of a technical highway in the Krasnodar region for heavy cargo

Construction of a technical highway in the Krasnodar region for heavy cargo

In July 2015, an ambitious road project was started in Krasnodar Krai, the purpose of which was to build a technical road for extremely heavy goods for the construction of the Kerch bridge. This project was an important step in the development of the region’s infrastructure, providing the necessary infrastructure for the transportation of large and heavy construction materials.

During the project, a road about 40 kilometers long and 12 meters wide was widened. In order for the road to be able to withstand the movement of heavy loads, the existing road surface material (fine clay sand) was stabilized with cement and StabilRoad® additive. The thickness of the stabilized layer was 40 cm, which ensured sufficient stability and strength of the road. This was especially important considering the purpose of the road for transporting extremely heavy goods during the construction of the Kerch Bridge.

The construction of the technical road in the Krasnodar region was an important step in the development of the region’s infrastructure, providing a strong and durable road for the transportation of goods necessary for the construction of the Kerch bridge. The successful completion of the project proved the efficiency and durability of StabilRoad® technology for large and complex construction projects. Thanks to the successful implementation of the StabilRoad® method, the road is now much more durable and user-friendly, showing how environmentally friendly and sustainable solutions can significantly improve the quality and durability of infrastructure.

Project data

  • Location: Krasnodar, Russia
  • Area: 480,000 m2
  • Construction period: July 2015 – November 2015
  • Construction period: 5 months

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