Success stories
Fuel heating
Steam flow control line
The steam flow control line provides precise monitoring and efficient management of steam distribution in industrial processes to improve productivity and reduce costs.
Original situation:
Challenges posed by Synhelion:
Application of steam in a solar receiver.
- Application of steam at temperatures exceeding 185°C.
- Fuel generation from CO2. .
Possibility of generating fuel from CO2 through a concentrated solar power installation. The installation captures CO2 and utilizes it as energy to process kerosene.
No existing operational framework was in place Giconmes provided the necessary heat transmission technology to execute this project.
Proposed solution:
Customized steam solution developed by Giconmes.
Proposed solution:
Steam generation system + condensate recovery and water treatment system + valve system.
Technology used:
- Stainless steel 60 kW steam generation system.
- Sensors: steam flow meter, temperature, pressure.
- Sensors: steam flow meter, temperature, pressure.
- Droplet separator + overpressure safety valve.
- Pressure reducer.
- Afterheater to increase steam temperature above 180°C.
- Condensate recovery system.
- Water treatment system.
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Benefits:
The benefits obtained by the customer
through the installation of steam generators:
- Through the valve system, steam is applied at a temperature above 185°C.
- Fuel production from CO2.
FAQs
We understand that many questions may arise. Here are some of the most common ones.
There are no emissions other than those produced in the electricity production process. Therefore, they can be neutral depending on the electricity mix. Electric steam boilers are the present and the future.
Absolutely. In fact, it is recommended to achieve maximum efficiency. There is no problem with remote control as long as current regulations are followed.
A steam generator is a pressure vessel that, along with the pipe network it is connected to, is subject to regulatory control and complementary technical instructions, according to the regulations published in Royal Decree 809/2021, dated September 21st. Its maintenance is divided into a part that can be easily performed by the owner:
- Familiarize yourself with and apply the manufacturer’s instructions regarding the use, safety measures, and maintenance.
- Do not put the installation into operation or prevent the operation of pressure equipment if the requirements of the regulations are not met.
- It is necessary to have, at least, the following documentation of the pressure equipment while they are installed: Declaration of Conformity, if applicable, manufacturer’s instructions, and, if necessary, installation certificate, along with other supporting documentation (such as Installation Project, record of the last periodic inspection, certifications of equipment repairs or modifications, as well as any other documentation required by the corresponding complementary technical instruction (ITC) of this regulation). For detailed information, please refer to Annex IV of the regulation. This documentation should be made available to the competent authority of the autonomous community and to the companies that carry out maintenance, repairs, or periodic inspections.
- Use the pressure equipment within the intended operating limits specified by the manufacturer, and remove them from service if they no longer meet the necessary safety requirements.
- Perform maintenance on the installations, pressure equipment, safety accessories, and control devices in accordance with the operating conditions and manufacturer’s instructions, and conduct inspections at least once a year.
- Arrange for the necessary periodic inspections as stipulated in Article 6 of the regulation.
- Maintain an up-to-date record of pressure equipment belonging to categories I to IV, as defined in RD 709/2015, dated July 24th, or equipment deemed equivalent to these categories according to Article 3.2 of the regulation, as well as their installations.
It is known that by applying heat to water, it transforms into steam at its boiling point under atmospheric pressure. From this point onwards, depending on the desired level of steam saturation for its proper application, we may need to increase the pressure in order to achieve higher temperature. To change the temperature and saturation level of the steam, we always need to adjust the pressure.
It is a unit of pressure equivalent to 1 kg/cm2, 0.98 atmospheres, or 14.50 PSI.
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