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Conversions of Factories to Industrial Natural Gas

  1. Analysis of energy need: The current energy use of the factory is analyzed and it is determined how much energy need can be met with natural gas.

  2. Cost-effectiveness analysis: The costs and effectiveness of natural gas conversion are evaluated and a decision is made.

  3. Construction of natural gas infrastructure: If the factory does not have a natural gas infrastructure, it may be necessary to construct the infrastructure. This may include the installation of natural gas pipelines or the construction of natural gas storage facilities.

  4. Changing machinery and equipment: It may be necessary to change the machinery and equipment used in the factory so that they can operate with natural gas.

  5. Training and practice: Training is given and practice is made for employees to use natural gas-operated machinery and equipment.

  6. Commissioning and monitoring: After the natural gas conversion is completed, the system is commissioned and its effectiveness is monitored.

*Industrial natural gas conversion processes may differ depending on the size of the plant, energy needs, current fuel use and other factors. For example: in a large factory, the installation of the gas line and the installation of equipment may be larger in scale and cost, while in a small factory it may be smaller and more costly. In addition, the availability or absence of natural gas in the region where the factory is located may affect operations. Therefore, the conversion processes of factories to natural gas may differ according to the characteristics of each factory.

Waste Treatment Plant Installations on City Networks

  1. Planning and preliminary examination: The region where the waste treatment plant will be established is planned and preliminary examination is made. This may include evaluating the facility's dimensions, capacity, location, local environment, and other factors.

  2. Project preparation: A project is prepared for the waste treatment plant. The project may include determining the facility's design, cost, construction time and other details.

  3. Financing and investment: Financing and investment is provided for the waste treatment plant. This can be done in different ways such as local governments, private sector or public-private cooperation.

  4. Construction: Waste treatment plant construction is carried out. This process may include groundbreaking, construction, electrical, mechanical and other operations.

  5. Operation and maintenance: After the waste treatment plant is completed, operation and maintenance operations are carried out. This may include processes such as collection, treatment, recycling or storage of waste.

  6. Monitoring and control: While the operation and maintenance of the waste treatment facility is carried out, the efficiency of the facility is monitored and audited.

*Waste treatment plant installations may vary depending on the type, size, capacity and environmental conditions of the facility. For example: there may be differences between an urban waste treatment plant and an industrial waste treatment plant. Likewise, the treatment method used for a treatment plant may vary (eg biological treatment or chemical treatment). Therefore, the installation procedures may also differ. In addition, the legal and regulations must be taken into account in the establishment of the waste treatment plant.

Installation and Commissioning of Stainless Steel Pump Buildings and Units

  1. Planning and preliminary examination: The planning of the area where the pump buildings and units will be installed is made and a preliminary examination is made. This may involve evaluating the size, capacity, location, local environment and other factors of buildings and units.

  2. Project preparation: A project is prepared for pump buildings and units. The project may involve determining the design, cost, construction time and other details of buildings and units.

  3. Financing and investment: Financing and investment is provided for pump buildings and units. This can be done in different ways such as local governments, private sector or public-private cooperation.

  4. Construction: Pump buildings and units are constructed. This process may include groundbreaking, construction, electrical, mechanical and other operations.

  5. Installation of pumps and units: Pumps and units are placed and assembled inside buildings.

  6. Testing and adjusting: Pumps and units are tested and necessary adjustments are made.

  7. Commissioning: Pumps and units are commissioned and supervised.

  8. Operation and maintenance: After the pumps and units are completed, the operation and maintenance operations are carried out. This may include checking the operation of pumps and units, performing maintenance, resolving faults.

*Installation and commissioning processes may differ according to the needs and purpose of each facility. For example: a plant may not need direct pumping, but water treatment. Therefore, the installation and commissioning of the systems should be done in accordance with the needs.

Conversion of Industrial Facilities to LNG and LPG

  1. Planning and preliminary examination: The existing energy resources of the facility are analyzed and its suitability for LNG or LPG use is evaluated. In addition, the impact of the use of LNG or LPG on the environmental impacts, costs and performance of the facility is examined.

  2. Project preparation: A project is prepared to make it suitable for LNG or LPG use. The project may involve modifying the facility's existing systems, adding new equipment, determining the location and other details.

  3. Financing and investment: Necessary financing and investment is provided for LNG or LPG conversion. This can be done in different ways such as local governments, private sector or public-private cooperation.

  4. Construction: Construction is carried out to make it suitable for LNG or LPG use. This may include modifying existing systems, installing new equipment, installing degassing, storage, distribution and other systems.

  5. Testing and adjustment: LNG or LPG systems are tested and necessary adjustments are made. This process may include inspection of systems operation, gas quality, gas pressure, temperature and other parameters. The tests are done to control the operation of the systems and to make the necessary settings.

  6. Commissioning: LNG or LPG systems are commissioned and supervised. This may include monitoring the operation of systems, monitoring the quality of the gas, gas pressure, temperature and other parameters. Commissioning is done to control the operation of the systems and to make the necessary settings.

  7. Operation and maintenance: After the LNG or LPG systems are completed, operation and maintenance operations are carried out. This process may include operations such as checking the operation of the systems, performing maintenance, resolving faults. Operation and maintenance operations are carried out to control the operation of the systems and to make the necessary adjustments.

*LNG or LPG conversion processes may differ depending on the characteristics, scale and purposes of the facility. For example: in some plants only the energy source can be changed, while in others the entire energy system can be reconfigured. Also, while LNG or LPG is used in some facilities, only one can be used in others. Therefore, a conversion process must be carried out that is specially designed according to the needs and purpose of each facility.

Manufacturing, Assembly and Commissioning of Industrial Heating Systems

  1. Project preparation phase: The needs and objectives of the business are determined. This can affect the size, design and costs of the system.

  2. Manufacturing: The components and parts of the system are produced. This may include pumps, valves, pipes, radiators, burners and other equipment.

  3. Assembly: Components and parts of the system are mounted in place. This can affect the way the system works and its performance.

  4. System audit: Audit is done to control the operation and performance of the system. This is important to ensure that the system is installed and functioning correctly.

  5. Commissioning: After passing the system inspection, the system is commissioned and operated. This is important to ensure that the system functions correctly and meets the needs.

  6. Maintenance and repair: After the system is commissioned, periodical maintenance and repair operations are carried out. This will preserve the long-term performance of the system and prevent failures.

*Manufacture, installation and commissioning of industrial heating systems may differ depending on the type, scale and purposes of the system. For example: some systems are used in just one area, while others can be used to heat the entire facility. Also, some systems use only gas, while others may also use electricity or other energy sources. For this reason, a specially designed system should be realized according to the needs and purpose of each facility.

We Integrate With Your Ecosystem

Our company carries out studies that are environmentally friendly and reduce environmental pollution for a sustainable future. We serve as an environmentally friendly company with our investments in energy efficiency, waste management and protection of natural resources.

Our products and services are also environmentally friendly. For example, the products we manufacture are made from recycled materials and the energy we use in the production process is also supplied from renewable sources. In addition, thanks to our waste management systems, we ensure the recycling of waste generated during the production process.

We continue to work to contribute to our customers. Together we can build an environmentally friendly future. We integrate with your ecosystem and work with you for a sustainable future.

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