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Electricity and heat demand
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Hot water directly powered by solar electricity (off-grid)
Hot water generated from solar energy was previously associated only with solar thermal systems. These are relatively complex and maintenance-intensive systems that operate inefficiently, especially during the transitional period and in winter. It is much simpler and cost-effective to channel direct current from photovoltaic modules directly into a power-controlled immersion heater, converting it into heat without losses.
This process is easily achieved with ELWA from my-PV, an electronically controlled PV immersion heater. No connection to the mains is required for operation, as the unit is powered directly from PV (for pure off-grid operation). Optionally, ELWA can also maintain a minimum temperature in the tank using mains power.
Standard PV system • with high optimization potential
A photovoltaic system with an inverter supplies household appliances when demand occurs simultaneously. Without the ability to store excess yield, the degree of self-utilization ratio is limited. Various my-PV solutions will significantly increase the degree of self-consumption.
Hot water from PV • controlled heating element
Utilize surplus PV energy for hot water preparation, optimizing the self-consumption of your system. An electronically controlled heating element is installed in the hot water or buffer storage tank for this purpose. The heating power is continuously regulated, ensuring practically no energy is fed back into the grid, significantly increasing your self-utilization.
This works perfectly with the AC ELWA 2 from my-PV, the successor to the proven AC ELWA-E. The device automatically regulates from 0 – 3.5 kW continuously. Optionally, the AC ELWA 2 can also maintain a minimum temperature in the storage tank using grid power.
Hot water from PV • Power Manager + immersion heater
Simply utilize excess PV energy for hot water production to optimize the self-utilization ratio of the system. A standard heating element is installed in the hot water boiler or buffer tank. The heat output is linearly controlled by a Power Manager, which regulates the PV feed-in power to zero, maximizing your self-utilization.
This works with my-PV's AC•THOR / AC•THOR 9s. Standard electric heaters become "PV ready." Optionally, AC•THOR / AC•THOR 9s can also maintain a minimum temperature in the tank using mains power. A separate temperature sensor can optimize energy drawn from the public grid.
PV Hot water + space heating • for low-energy single-family houses
In modern low-energy houses, conventional water-guided heating systems are often oversized. Therefore, in addition to hot water production, the building's space heating is also supplied electrically - solar-electrically and predominantly with excess PV energy. Simultaneously, even at night or on short winter days with minimal PV yield, it is ensured that the indoor climate remains comfortable thanks to electricity from the grid.
The heart of the solar-electric house is my-PV's linearly controlled photovoltaic Power Manager AC•THOR 9s designed for grid-connected photovoltaic systems.
Hot water + heating with PV • for low-energy multi-family houses
Are you looking to assess the feasibility of your purely solar-electric residential construction project or multi-family house in advance? With the help of the my-PV Power-Coach, you can now simulate and evaluate the feasibility of a solar-electric multi-family house.
my-PV considers solar-electric space heating to be meaningful only for houses that are very well insulated. However, there are generally significant advantages with decentralized hot water generation. For hot water and space heating with photovoltaics, such residential projects can be approximately calculated using the my-PV Power-Coach by depicting a single apartment rather than the entire project. The results are then representative for a single apartment, and conclusions to be drawn about the overall project.
Settings for the conventional heating system for hot water preparation:
"Entire year" - Hot water is produced all year round with the normal heating system. Excess PV energy is used additionally if possible. There is no hot water preparation with mains power.
"Heating period" - Hot water preparation only in summer with mains power (boost backup), in winter with the normal heating system.
"Off" - Boost backup is provided all year round with electricity only.
Typical prices for energy sources in Austria in Euro ct/kWh are:
Heating oil 8,30
Natural gas 5,45
Wood pellets 4,96
Wood logs 5,19
Wood chips 5,23
Prices incl. taxes and additional costs (e.g. filling lump sums)
Source: Energy Institute Vorarlberg, February 2020.
Electricity Rate:
Your electricity rate, including both the tariff for purchase and feed-in, is detailed on your electricity bill. It's essential to verify that the price is composed of the energy cost, grid charges, as well as levies and taxes.
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Please be aware that the my-PV Power-Coach only gives hints for your system design. There is no liability for the accuracy of the results.
Settings
Hot water directly powered by solar electricity (off-grid)
Hot water generated from solar energy was previously associated only with solar thermal systems. These are relatively complex and maintenance-intensive systems that operate inefficiently, especially during the transitional period and in winter. It is much simpler and cost-effective to channel direct current from photovoltaic modules directly into a power-controlled immersion heater, converting it into heat without losses.
This process is easily achieved with ELWA from my-PV, an electronically controlled PV immersion heater. No connection to the mains is required for operation, as the unit is powered directly from PV (for pure off-grid operation). Optionally, ELWA can also maintain a minimum temperature in the tank using mains power.
Standard PV system • with high optimization potential
A photovoltaic system with an inverter supplies household appliances when demand occurs simultaneously. Without the ability to store excess yield, the degree of self-utilization ratio is limited. Various my-PV solutions will significantly increase the degree of self-consumption.
Hot water from PV • controlled heating element
Utilize surplus PV energy for hot water preparation, optimizing the self-consumption of your system. An electronically controlled heating element is installed in the hot water or buffer storage tank for this purpose. The heating power is continuously regulated, ensuring practically no energy is fed back into the grid, significantly increasing your self-utilization.
This works perfectly with the AC ELWA 2 from my-PV, the successor to the proven AC ELWA-E. The device automatically regulates from 0 – 3.5 kW continuously. Optionally, the AC ELWA 2 can also maintain a minimum temperature in the storage tank using grid power.
Hot water from PV • Power Manager + immersion heater
Simply utilize excess PV energy for hot water production to optimize the self-utilization ratio of the system. A standard heating element is installed in the hot water boiler or buffer tank. The heat output is linearly controlled by a Power Manager, which regulates the PV feed-in power to zero, maximizing your self-utilization.
This works with my-PV's AC•THOR / AC•THOR 9s. Standard electric heaters become "PV ready." Optionally, AC•THOR / AC•THOR 9s can also maintain a minimum temperature in the tank using mains power. A separate temperature sensor can optimize energy drawn from the public grid.
PV Hot water + space heating • for low-energy single-family houses
In modern low-energy houses, conventional water-guided heating systems are often oversized. Therefore, in addition to hot water production, the building's space heating is also supplied electrically - solar-electrically and predominantly with excess PV energy. Simultaneously, even at night or on short winter days with minimal PV yield, it is ensured that the indoor climate remains comfortable thanks to electricity from the grid.
The heart of the solar-electric house is my-PV's linearly controlled photovoltaic Power Manager AC•THOR 9s designed for grid-connected photovoltaic systems.
Hot water + heating with PV • for low-energy multi-family houses
Are you looking to assess the feasibility of your purely solar-electric residential construction project or multi-family house in advance? With the help of the my-PV Power-Coach, you can now simulate and evaluate the feasibility of a solar-electric multi-family house.
my-PV considers solar-electric space heating to be meaningful only for houses that are very well insulated. However, there are generally significant advantages with decentralized hot water generation. For hot water and space heating with photovoltaics, such residential projects can be approximately calculated using the my-PV Power-Coach by depicting a single apartment rather than the entire project. The results are then representative for a single apartment, and conclusions to be drawn about the overall project.
Electrical heating systems are recommended for low-energy single-family houses.
You should consider improving the thermal insulation of your house. Energy consultants can be of great help.
Annual heating demand is very high
Electrical heating systems are recommended for low-energy single-family houses.
You should consider improving the thermal insulation of your house. Energy consultants can be of great help.
USER NOTICE FOR APARTMENT BUILDINGS
Such projects can be approximately calculated with the my-PV Power-Coach, in which an individual apartment is shown and not the entire project.
For example, the planned PV power can only be set proportionately for each apartment in the my-PV Power-Coach. With a total output of 50 kWp, that would be 5 kWp for 10 residential units.
The results are then representative for a single apartment, but help you to draw conclusions about the overall project.
Communal power consumers such as the stairwell, the elevator or the underground car park cannot be taken into account, but experience has shown that this amount of energy is often negligible for an initial assessment of residential building projects.
USER NOTICE FOR APARTMENT BUILDINGS
Such projects can be approximately calculated with the my-PV Power-Coach, in which an individual apartment is shown and not the entire project.
For example, the planned PV power can only be set proportionately for each apartment in the my-PV Power-Coach. With a total output of 50 kWp, that would be 5 kWp for 10 residential units.
The results are then representative for a single apartment, but help you to draw conclusions about the overall project.
Communal power consumers such as the stairwell, the elevator or the underground car park cannot be taken into account, but experience has shown that this amount of energy is often negligible for an initial assessment of residential building projects.
USER NOTICE FOR APARTMENT BUILDINGS
Such projects can be approximately calculated with the my-PV Power-Coach, in which an individual apartment is shown and not the entire project.
For example, the planned PV power can only be set proportionately for each apartment in the my-PV Power-Coach. With a total output of 50 kWp, that would be 5 kWp for 10 residential units.
The results are then representative for a single apartment, but help you to draw conclusions about the overall project.
Communal power consumers such as the stairwell, the elevator or the underground car park cannot be taken into account, but experience has shown that this amount of energy is often negligible for an initial assessment of residential building projects.
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