Ufuk is a specialized firm in the construction and building sector, offering various services based on years of experience. We aim to provide tailored solutions to meet our customers' needs by closely following industry developments.

We place great importance on quality, safety, and aesthetics in the design and production of structures that are customized to meet our customers' expectations. Considering local and international standards, we execute our projects in accordance with the highest quality and safety standards.

At Ufuk, we strive to maintain the highest level of customer satisfaction and perform our work with precision. In every project we undertake, our goal is to provide our customers with the best service possible.

Hangars are large enclosed spaces primarily used for the housing, maintenance, and repair of aircraft, helicopters, unmanned aerial vehicles (UAVs), and other airborne vehicles. These structures provide a secure environment for the safe parking and protection of aircraft. They can also be utilized for the storage of equipment and materials necessary for maintenance and repair operations.

Aircraft are highly sensitive to weather conditions, temperature, humidity, and other environmental factors. Therefore, hangars provide an ideal environment for the long-term storage of aircraft. They also offer a suitable space for the storage of specialized equipment and vehicles required for maintenance operations.

Aircraft hangars are used in various fields such as military airbases, civilian airports, and private aviation companies. These structures ensure the safety and longevity of aircraft while contributing to the sustainability of the aviation industry.

Liquid transfer tanks are enclosed silos used for the storage, transfer, and filling of liquid substances for industrial and commercial purposes. These tanks are typically used for storing and transferring chemicals, petrochemical products, food and beverage products, pharmaceuticals, and other liquid goods. Liquid transfer tanks come in different sizes and shapes and are usually made of stainless steel or other durable materials. These tanks are specially designed to ensure proper storage of liquids and have features such as sealing and other safety measures to ensure safe transfer. Liquid transfer tanks are used in various industries, including manufacturing facilities, distribution centers, and storage areas. They facilitate the transfer of liquids, enhancing efficiency and reducing costs.

1- Modular Tanks: Modular tanks are made up of smaller modules that are combined to create tanks with larger capacities. These modules are usually made of fiberglass, polyethylene, or steel and can have different capacities. Modular tanks can be easily transported and quickly assembled, making them suitable for emergency or temporary storage needs.

2- Bladder Type Tanks: Bladder type tanks are foldable tanks that use a flexible membrane, typically made of materials like PVC, nylon, or polyurethane, for liquid storage. The membrane is supported by a steel frame. Bladder type tanks are easy to transport and install, and they are commonly used in wastewater treatment facilities, ships, and military applications.

3- Reinforced Concrete Tanks: Reinforced concrete tanks are built using durable and long-lasting concrete material. They are commonly used for water storage, treatment, and fire suppression systems. The disadvantage of reinforced concrete tanks is that they are not portable and their installation can be more challenging compared to other materials.

4- Carbon Steel Tanks: Carbon steel tanks are cost-effective, durable, and long-lasting. However, they are vulnerable to rust and corrosion, making them unsuitable for storing aggressive chemicals. Additionally, carbon steel tanks are heavier than other tank types, which can make transportation and installation more difficult.

Carbon steel tanks can be manufactured in different sizes and shapes, including horizontal or vertical cylindrical tanks, reactor tanks, pressurized tanks, and open swimming pool-shaped tanks.

Each tank type has its own advantages and disadvantages and should be chosen based on the intended use.

Propeller pumps are commonly used for high-flow water transfers. These pumps are typically employed in pipeline systems with straight and wide flow paths. The design of the propeller is optimized to accommodate high flow rates.

Propeller pumps require a propeller to generate the movement of water. The propeller pushes the water forward in the pipeline by creating pressure and fluid forces. The propeller usually has a circular or oval blade profile and rotates with the movement of the water.

Propeller pumps are widely used in applications that require high flow rates. These applications include water transfers, industrial processes, irrigation, fire suppression, and marine applications. Propeller pumps are preferred due to their high efficiency, low cost, and low maintenance requirements.

However, it's important to note that propeller pumps may produce lower pressure compared to other types of pumps due to their focus on high flow rates. As a result, propeller pumps are not suitable for low-pressure applications.

Generator systems can be used as a single generator or in the form of multiple generator groups when needed. In this way, synchronized generators can be controlled by the control system to activate or deactivate additional generators in case of increased energy demand. This control system is designed to manage the synchronization and load sharing of the generators.

This system combines one or more generators with Automatic Voltage Regulators (AVR) and Motor Control Units (MCU). The AVR controls the generator's output voltage and ensures it stays within a specific voltage range. The MCU controls the generator's speed and frequency and optimizes the load sharing of the generator.

The control system also includes a synchronization panel. This panel is used for synchronizing the generators and establishing parallel connections. The synchronization panel compares the frequencies and phase angles of the generators and ensures their synchronization. As a result, power flow is balanced between the generators and load sharing is optimized.

In conclusion, the control system of parallel-connected generator systems is designed to optimize the synchronization, load sharing, and operational efficiency of the generators. These systems are used to provide a reliable and continuous power source in applications that require high power capacity.

Bladder-type tanks are commonly used in conjunction with fuel transfer units and offer benefits in many industrial applications. Fuel transfer units are designed to transfer fuel from storage tanks to desired points. These units are typically portable or stationary and equipped to ensure safe and efficient fuel transfer.

Bladder-type tanks can be used as an alternative to fuel storage tanks. They come in various sizes and capacities and feature a flexible inner tank made of lightweight materials. This inner tank is placed within an air cavity connected to the outer shell. When fuel is stored, the inner tank expands to accommodate the volume of fuel, preventing its contact with air.

Bladder-type tanks are suitable and environmentally friendly for safe fuel storage. Additionally, portable models can be easily transported and installed. When used in conjunction with fuel transfer units, storage and transfer operations can be easily performed.

These systems have a wide range of applications. In addition to industrial applications, they are used in various sectors such as military, maritime, airports, construction, and energy. Particularly, portable bladder-type tanks and fuel transfer units are ideal for special applications requiring mobile fuel transfer, such as military operations, emergencies, or projects in remote areas.

In conclusion, bladder-type tanks and fuel transfer units provide a convenient and effective solution for safe, fast, and easy fuel storage and transfer operations. They enable efficient management of fuel resources and ensure reliable fuel supply in various settings.

UFUK offers specially designed and manufactured blast-resistant structures to meet your most detailed specifications. We provide both temporary and permanent applications, ranging from single units to large-scale complexes. Our engineering team can accommodate various explosion overpressure levels and duration levels, and design for low, medium, or high response blast configurations.

The following projects have been implemented in military bases and facilities that require high-security measures:

- Living areas, offices, and operation centers equipped with reinforced concrete walls, ballistic windows, and doors. Bomb shelters.

- Entry Control Points (ECP).

- Critical Asset Control Points (CACP).

- Observation towers equipped with reinforced concrete walls, ballistic windows, and doors.

- Living areas, offices, and operation centers including 15 minutes / 60 minutes / 120 minutes Forced Entry / Ballistic Resistant (FE/BR) buildings.

- Alaska and Jersey barriers up to the desired height.

- Blast walls.

- Facility perimeter walls and fences.

- Anti-vehicle barriers.

At UFUK, we prioritize safety and security in our blast-resistant structures. We work closely with our clients to understand their specific needs and deliver customized solutions that meet their requirements.

Pipe lines, systems formed by pipes of different diameters and material properties coming together. These pipelines are used in various fields, and many factors are taken into consideration when deciding which type of pipe to use in each area.

- Steel Pipes: Steel pipes are preferred in industrial areas due to their high strength and durability. They are used in fire systems, oil and gas transportation, water pipelines, and pressurized systems.

- PVC Pipes: PVC pipes are widely used in residential areas due to their low cost, lightweight, and easy installation. They are preferred in clean water pipelines, rainwater drainage, wastewater systems, and garden irrigation systems.

- PE Pipes: PE pipes are used in areas such as wastewater systems, agriculture, and garden irrigation systems due to their lightweight, flexibility, and durability. They are also commonly used in gas pipelines.

- Ductile Iron Pipes: Ductile iron pipes are preferred in areas such as water pipelines, wastewater systems, industrial facilities, and fire systems due to their high pressure resistance and low corrosion risk.

- Fiberglass Pipes: Fiberglass pipes are used in industrial facilities, water treatment systems, shipbuilding, and submarine pipelines due to their high chemical resistance, lightweight, and durability.

- Copper Pipes: Copper pipes, which have high heat and electrical conductivity, are used in areas such as hot water pipelines, heating systems, and cooling systems.

Pipelines made of different materials are designed to meet specific requirements and can be used safely for many years when properly utilized.

Facilities need regular maintenance and control procedures in order to operate safely and efficiently. Therefore, facility maintenance tasks are of critical importance and are designed to meet different requirements in various areas.

Fire systems are crucial for protecting facilities against fire risks during emergency situations. Fire systems can consist of fire detection devices, fire extinguishers, fire cabinets, hydrants, and fire alarm systems. Regular maintenance of these systems is important to ensure they are in working condition and capable of providing the necessary response in emergency situations.

Clean water, wastewater, and treatment systems are designed to ensure effective and efficient water usage in facilities. Clean water systems enable the transmission of water from water sources to areas of use within the facility. Wastewater systems collect and remove wastewater generated within the facility. Treatment systems purify the wastewater, allowing it to be discharged without causing harm to the environment.

Fuel storage and transfer units are used to meet the fuel needs of facilities. These systems can include fuel storage tanks, pumps, filters, and transfer pipes. Regular maintenance of these systems ensures the safe and efficient storage and usage of fuel.

Facility maintenance tasks enable facilities to operate efficiently, safely, and in an environmentally conscious manner. Therefore, it is important for facilities to prioritize these maintenance tasks for the sustainability of their operations.