One of the fundamental needs of modern societies closely following technological developments is the efficient transport and preservation of energy and water. Geothermal pipes are used to transport all fluids and gases via pipes while preserving their temperatures. With a wide range of applications, geothermal pipes, due to their environmental sustainability and the economic contributions they provide, hold significant importance.
Geothermal pipes (pre-insulated-insulated pipes) are produced in various types depending on their intended use. The geothermal pipe types that provide the best economic contribution according to their intended use are as follows: Geothermal steel pipe, stone-reinforced pre-insulated seamless steel pipe, pre-insulated galvanized steel pipes, geothermal plastic pipes, pre-insulated PPR-C pipes, pre-insulated glass fiber-reinforced (composite) PPR pipes, pre-insulated HDPE pipes, pre-insulated GRE and GRP pipes, pre-insulated stainless steel pipes, pre-insulated ductile iron pipes, pre-insulated copper pipes. The geothermal pipe varieties produced by Yalçın Boru are of high quality standards, providing high economic input to businesses in all fluid transport operations.
The contributions of geothermal pipes to the economy can be analyzed under the following headings:
Energy efficiency: Geothermal pipes increase energy efficiency due to their superior heat insulation properties. The insulation of pipes used in the transport of hot or cold fluids minimizes heat losses. This reduces heating and cooling costs, leading to lower energy costs. The use of geothermal pipes in residential and industrial establishments with heating and cooling systems reduces operating costs and promotes energy savings.
Reduction in maintenance and repair costs: The use of geothermal pipes reduces maintenance and repair costs in the long term. The insulation coating on the pipe system provides protection against external factors and extends the life of the pipes. This reduction in maintenance and repair costs is economical.
Ease of installation: The use of geothermal pipes shortens the installation time. The faster installation of insulated pipe systems shortens the construction time, labor, and equipment costs for residential or industrial facility projects.
Environmental conservation: Geothermal pipes contribute to environmental conservation by promoting energy savings. The reduction in the use of energy resources reduces the carbon footprint, promoting environmental sustainability. Reduced energy consumption also lowers energy costs.
Creation of job opportunities: The production, distribution, and installation of geothermal pipes create new job opportunities. Economic activity is stimulated with the use of raw materials in production. The creation of new job opportunities contributes to economic growth.
The economic growth of countries and sustainable development depends on various factors. One of these factors is infrastructure. The use of geothermal pipes in infrastructure systems with geothermal properties significantly contributes to the national economy. The use of geothermal pipes in residential and industrial establishments holds an important place in the national economy. The position and importance of the use of geothermal pipes in the national economy can be detailed as follows:
Efficient use of the country's energy resources: The growth of a country's economy is related to the correct and efficient use of energy resources. The use of geothermal pipes in residential, regional heating, agriculture, and greenhouse cultivation, as well as in industrial establishments, reduces heat loss, ensuring energy efficiency. This results in the cost reduction of