Difference between revisions of "Load evaluation/es"
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(Created page with "#Con sistemas que se usa intensivamente solo 1 o 2 días a la semana. Si ingresa 1 o 2 días para todas las cargas, se obtendrá un sistema con una fuente FV y un sistema de a...") |
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#Con cargas que se utilizan durante varios días consecutivos durante la semana. Si una carga se utiliza durante los 5 días hábiles de la semana, debe tratarse como si estuviera funcionando los 7 días de la semana, ya que eliminar 2 días a la semana reducirá el requerimiento promedio de energía, pero en realidad el sistema deberá generar y almacenar el requerimiento total de energía la mayoría de los días. | #Con cargas que se utilizan durante varios días consecutivos durante la semana. Si una carga se utiliza durante los 5 días hábiles de la semana, debe tratarse como si estuviera funcionando los 7 días de la semana, ya que eliminar 2 días a la semana reducirá el requerimiento promedio de energía, pero en realidad el sistema deberá generar y almacenar el requerimiento total de energía la mayoría de los días. | ||
− | # | + | #Con sistemas que se usa intensivamente solo 1 o 2 días a la semana. Si ingresa 1 o 2 días para todas las cargas, se obtendrá un sistema con una fuente FV y un sistema de almacenamiento de energía de una capacidad insuficiente. En este caso, se recomienda que los días de uso se establezcan en 4 o 5 días. |
When designing any system, it is almost always necessary to explore various different designs with varying loads and usage patterns to arrive at the best balance between cost and budget. | When designing any system, it is almost always necessary to explore various different designs with varying loads and usage patterns to arrive at the best balance between cost and budget. |
Revision as of 15:46, 24 March 2021
El análsis de cargas implica la recopilación de información sobre las cargas que servirá como base para el resto del proceso de diseño del sistema. Las clasificaciones de energía y las estimaciones de uso para las cargas necesarias y potenciales se reúnen en unas tablas: una para corriente continua y otra para corriente alterna. Es importante sobrestimar el uso para garantizar que el sistema tenga una capacidad adecuada. Puede ser necesario realizar una estimación de este tipo para cada mes del año si las cargas, el uso estimado o el recurso solare varía con frecuencia a lo largo del año. Este proceso se trata en Comparación de cargas y recurso solar y los valores que resultan de este proceso deben usarse para diseñar el sistema. En las tablas siguientes, el uso se estima semanalmente. Este proceso funciona bien para cargas que se usan todos los días o grandes cargas que solo se usan ocasionalmente, pero es necesario tener cuidado en dos casos:
- Con cargas que se utilizan durante varios días consecutivos durante la semana. Si una carga se utiliza durante los 5 días hábiles de la semana, debe tratarse como si estuviera funcionando los 7 días de la semana, ya que eliminar 2 días a la semana reducirá el requerimiento promedio de energía, pero en realidad el sistema deberá generar y almacenar el requerimiento total de energía la mayoría de los días.
- Con sistemas que se usa intensivamente solo 1 o 2 días a la semana. Si ingresa 1 o 2 días para todas las cargas, se obtendrá un sistema con una fuente FV y un sistema de almacenamiento de energía de una capacidad insuficiente. En este caso, se recomienda que los días de uso se establezcan en 4 o 5 días.
When designing any system, it is almost always necessary to explore various different designs with varying loads and usage patterns to arrive at the best balance between cost and budget.
Contents
Additional considerations
- The make, model, and power rating of any loads currently present at the site should be documented. Photos are very useful.
- If the system design is going to incorporate loads that have not yet been purchased, guidance should be provided about the value and importance of purchasing energy efficient loads.
- This process can be difficult in locations that do not currently have electricity or that have users that do not have experience with electricity beforehand. In these cases, there is a tendency to over-estimate and under-estimate appliance usage depending on the individual. The result is that more responsibility falls upon the person performing the load evaluation and the system designer to provide guidance and accurate estimates.
- Potential projects that do not currently have an electrical system will also require additional evaluation and design work to ensure that the building will have adequate outlets for (power receptacles) and lighting for the intended use of each room.
DC load evaluation
Typical direct current loads include lights, cell phones, radios, and DC refrigerators. If a system incorporates an inverter, it is important that its idle consumption is included in the DC load evaluation.
Step 1: Fill out DC load chart
April - September | October - March | ||||||||||
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# | Load | Quantity | Watts | Total watts | Duty cycle | Hours per day | Days per week | Average daily DC watt-hours | Hours per day | Days per week | Average daily DC watt-hours |
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- Load: The make and model or type of load.
- Quantity: The number of the particular load.
- Watts: The power rating in watts of the load.
- Total watts = Quantity × Watts
- Duty cycle = Rated or estimated duty cycle for the load. If the load has no duty cycle a value of 1 should be used. A load with a duty cycle of 20% would be inputted as .2
- Hours per day: The maximum number of hours the load(s) will be operated per day. If the load has a duty cycle 24 hours should be used.
- Days per week: The maximum number of days the load(s) will be operated per week.
- Average daily DC watt-hours = Total watts × Duty cycle × Hours per day × Days per week ÷ 7 days
Step 2: Determine DC energy demand
Total average daily DC watt-hours (April - September) | = sum of Average daily DC watt-hours for all loads for April - September |
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Total average daily DC watt-hours (October - March) | = sum of Average daily DC watt-hours for all loads for October - March |
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AC load evaluation
There are additional considerations that go into performing an AC load analysis because this analysis is used for inverter sizing and selection, as well as Special:MyLanguage/PV source and charge controller sizing and selection and Energy storage sizing and selection. This chart therefore takes into account several other important factors:
Step 1: Inverter efficiency
The efficiency rating varies between different inverters. The manufacturers typically give a peak efficiency value that is above 90% (.9), it is recommended that a more conservative value like .8 or .85 be used.
Inverter efficiency | .85 |
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Step 2: Fill out AC load chart
April - October | March - September | ||||||||||||||
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# | Load | Quantity | Watts | Total watts | Duty cycle | Surge factor | Surge watts | Power factor | Volt-amperes (VA) | Hours per day | Days per week | Average daily AC watt-hours | Hours per day | Days per week | Average daily AC watt-hours |
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- Load: The make and model or type of load.
- Quantity: The number of the particular load.
- Watts: The power rating in watts for the load.
- Total watts = Quantity × watts
- Duty cycle = Rated or estimated duty cycle for the load. If the load has no duty cycle a value of 1 should be used. A load with a duty cycle of 20% would be inputted as .2
- Surge factor = Rated or estimated duty cycle for the load. Common values are between 3-5. If the load does not have a surge requirement a value of 0 should be used.
- Power factor = Rated or estimated power factor for the load.
- Volt-amperes (VA) = Total watts ÷ Power factor
- Hours per day: The maximum number of hours the load(s) will be operated per day. If the load has a duty cycle 24 hours should be used.
- Days per week: The maximum number of days the load(s) will be operated per week.
- Average daily AC watt-hours = Total watts × Duty cycle ÷ Inverter efficiency (Step 1) × Hours per day × Days per week ÷ 7 days
Step 3: Deteremine AC energy demand
Total average daily AC watt-hours (April - September) | = sum of Average daily AC watt-hours for all loads for April - September |
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Total average daily AC watt-hours (October - March) | = sum of Average daily AC watt-hours for all loads for October - March |
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Step 4: Determine AC power demand
Total VA | = sum of volt-amperes (VA) |
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Total VA with surge watts | = sum of Surge watts for all loads + Total VA |
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Total average daily energy demand
The total energy demand for the system is the added Average daily DC-watt hours and Average daily AC watt-hours for each time period.
Average daily watt-hours required (April - September) | = Total average daily DC watt-hours (April - October) + Total average daily AC watt-hours (April - September) |
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Average daily watt-hours required (April - September) | = Total average daily DC watt-hours (October - March) + Total average daily AC watt-hours (October - March) |
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