Sistemas de Regulación de flujo luminoso.
Patente P2010509
![](https://www.clarkia1.net/wp-content/uploads/2018/09/catalogo-web_luminosos-7.jpg)
Lámparas de vapor de sodio.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/trif-vapor-sodio-ahorro.gif)
Ensayos para una lámpara de 70 W.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/trif-vapor-sodio-grafica.jpg)
La lámpara de 70 W a 230 V consume 88,61 W, (hay que considerar la reactancia adicional) y da su flujo luminoso asignado considerado 1.0 pu (uno por unidad 100%).
Cuando se reduce la alimentación a 190 V el flujo luminoso se reduce a la mitad (0,5 pu). La potencia consumida a esta tensión es de 59,8 W, lo que supone un ahorro de 32,5 %.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/7-c.jpg)
Lámparas de vapor de Mercurio.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/tri-vapor-mercurio-ahorro.gif)
10 LAMPARAS DE 150W VAPOR DE MERCURIO
Funcionamiento: 8 horas.
1,5 KW x 8 horas = 12kWh (conectado a 230 V).
Reduciendo la tensión de alimentación a 208 V.
El consumo de una lámpara de mercurio a 208 V es del 80% aproximadamente (ahorro 20%).
12 kWh x 20% = 2,4 kWh(por día).
2,4 kWh x 365 días = 876 kWh.
876 kWh x 0.14€/kWh = 122,64 € de ahorro anual.
En preparación, rogamos consultar.
Lámparas de halogenuro metálico.
POTENCIA CONSUMIDA E INTENSIDAD DE FLUJO LUMINOSO PARA UNA LÁMPARA DE HALOGENURO METÁLICO
Ensayos para una lámpara de 70 W.
La lámpara de 70 W a 230 V consume 87,97 W, (hay que considerar la reactancia adicional) y da su flujo luminoso asignado considerado 1 pu (uno por unidad 100%).
Cuando se reduce la alimentación a 183 V el flujo luminoso se reduce a la mitad (0,5 pu). La potencia consumida a esta tensión es de 57,1 W, lo que supone un ahorro de 35,1 %.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/8.c.pdf.gif)
Regulación de Entrada:230V (398V) – 260V (450V) – 290V (502V) – 310V (537V)
T2N: Transformador doble nivel.
HM: Lámpara halogenuro metálico.
2446: Potencia del equipo.
3: Trifásico
Lighting Flow Regulation Systems.
Patent P2010509
![](https://www.clarkia1.net/wp-content/uploads/2018/09/catalogo-web_luminosos-7.jpg)
Sodium vapor lamps.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/trif-vapor-sodio-ahorro.gif)
Operation: 8 hours.
1.5 KW x 8 hours = 12kWh (connected to 230 V).
Reducing the supply voltage to 190 V.
The consumption of a sodium lamp at 190 V is approximately 67.5% (saving 32.5%).
12 kWh x 32.5% = 3.9 kWh (per day).
3.9 kWh x 365 days = 1432.5 kWh.
1432.5 kWh x 0.14 € / kWh = 199.29 € annual savings.
Tests for a 70W lamp.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/trif-vapor-sodio-grafica.jpg)
The lamp of 70 W at 230 V consumes 88.61 W, (the additional reactance must be considered) and gives its assigned luminous flux considered 1.0 pu (one per unit 100%).
When the power supply is reduced to 190 V, the luminous flux is reduced by half (0.5 pu). The power consumed at this voltage is 59.8 W, which represents a saving of 32.5%.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/7-c.jpg)
Mercury vapor lamps.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/tri-vapor-mercurio-ahorro.gif)
10 LAMPS OF 150W MERCURY STEAM
Operation: 8 hours.
1.5 KW x 8 hours = 12kWh (connected to 230 V).
Reducing the supply voltage to 208 V.
The consumption of a mercury lamp at 208 V is about 80% (saving 20%).
12 kWh x 20% = 2.4 kWh (per day).
2.4 kWh x 365 days = 876 kWh.
876 kWh x 0.14 € / kWh = € 122.64 annual savings.
In preparation, please consult.
Metal halide lamps.
CONSUMED POWER AND INTENSITY OF LUMINOUS FLOW FOR A METAL HALIDE LAMP
Tests for a 70 W lamp.
The lamp of 70 W at 230 V consumes 87.97 W, (the additional reactance must be considered) and gives its assigned luminous flux considered 1 pu (one per unit 100%).
When the power is reduced to 183 V, the luminous flux is reduced by half (0.5 pu). The power consumed at this voltage is 57.1 W, which represents a saving of 35.1%.
![](https://www.clarkia1.net/wp-content/uploads/2018/09/8.c.pdf.gif)
Input Regulation: 230V (398V) – 260V (450V) – 290V (502V) – 310V (537V)
T2N: Double level transformer.
HM: Metal halide lamp.
2446: Power of the team.
3: Three-phase