SC 10.3 LZ MONOBLOC two-flame oil-fired burner BETA series

SC. 10.3 LZ

Power Kw/h Min 950
Max 4000
m3/h Min 817.000
Max 3.440.000
Supply voltage 3N-50 Hz 380V
Engine 5,5
Category:

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Monobloc burners with two-stage output regulation

        1. Duoblock burners with high temperature steel housing and combustion head.
        2. The following fuels may be used:
          • Light oil, viscosity 6 mm2/s at 20°C, LWP11.86 kWh/kg
        3. It is suitable for steam, hot water boiler, furnaces, dryers, thermal oil generators, etc.
        4. Each burner can be customized to the needs of the installation.
        5. Reduction of intervention time during maintenance operations:
          Electrical components with plug-in connectors
          Full accessibility to the hydraulic circuit and combustion head
        6. Simple and reliable flame control thanks to the photocell
        7. A customized type of sensor is used for sequential installation of multiple generators.
        8. The ease of design and the use of preheated combustion air while allowing energy savings by increasing the efficiency of the combustion economizer used by the system.
        9. It has the characteristics of good performance in different combustion chambers.
        10. It minimizes the specific amount of nitric oxide (NOx) gas emission by obtaining an optimal fuel air mixture thanks to the customized design of its combustion head.
        11. It provides easy installation and operating conditions in confined spaces thanks to its compact dimensions.
        12. Allows operation in high back pressure combustion chambers by placing a high pressure venting system.
        13. Standard protection of mechanical parts IP 54.
        14. IP 65 protection on request.
        15. The flame geometry can be adjusted according to the combustion chamber.
        16.  Compliance with the following directives:
          • 89/336 (2004/108)
          • EEC 73/23/ EEC 73/23/ EEC 73/23/ EEC 73/23/ EEC 73/23/ EEC 73/23/ EEC 73/23
          • EEC 98/37/
          • CEE EN 676
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