Beta Power Controls LLP

A solar water pump is an application of photovoltaic technology whichConverts Solar Energy Into Electricityto run the pumping system thereby, replacing Electrical supply and pollution-causing diesel-powered versions. The solar water pump is powered by solar modules that helps draw surface or ground water out for irrigation.

Betaoffers both DC and AC range of Solar Water Pumps in both Surface and Submersible categories. These pumps help reduce farmers’ dependency on expensive fuels and their maintenance costs as opposed to conventional irrigation systems.

A solar-powered pump is a pump running on electricity generated by photovoltaic panels or the radiated thermal energy available from collected sunlight as opposed to grid electricity or diesel run water pumps.[1] The operation of solar powered pumps is more economical mainly due to the lower operation and maintenance costs and has less environmental impact than pumps powered by an internal combustion engine (ICE). Solar pumps are useful where grid electricity is unavailable and alternative sources (in particular wind) do not provide sufficient energy.

Voltage of the solar pump motors can be AC (alternating current) or DC (direct current). Direct current motors are used for small to medium applications up to about 1 kW rating, and are suitable for applications such as garden fountains, landscaping, drinking water for livestock, or small irrigation projects. Since DC systems tend to have overall higher efficiency levels than AC pumps of a similar size, the costs are reduced as smaller solar panels can be used.
However, the panel and inverters must be sized accordingly to accommodate the inrush characteristic of an AC motor.Voltage of the solar pump motors can be AC (alternating current) or DC (direct current). Direct current motors are used for small to medium applications up to about 1 kW rating, and are suitable for applications such as garden fountains, landscaping, drinking water for livestock, or small irrigation projects. Since DC systems tend to have overall higher efficiency levels than AC pumps of a similar size, the costs are reduced as smaller solar panels can be used.

COST EFFECTIVE : The life cycle and the cost to ultimate beneficiary make the SPV systems cost effective as compared to conventional systems. IN addition the farmer is saved from the capital investment he has to make for drawing lines from the grid to his field/farms. The govt. may save huge resources which otherwise may be uneconomical to network every agriculture field under the state electricity grid.

RELIABLE : The SPV is more reliable, consistent and predictable power option as compared to conventional power system in rural areas. Free fuel: Sunlight, the fuel source of SPV system is a widely available, inexhaustible, and reliable and free energy source.Hence the SPV system has no monthly fuel bills.

BENEFITS TO FARMERS 
Farmer gets a high value, high discharge pumping system for a one time amount that is less than a third of the actual price and may be maintained at nominal cost annually.

1. No fuel costs & minimal maintenance costs. 
2. More economical than diesel pump sets in the long run. 
3. Where no pumping system exists at present SPV based pumping system, 
4. Enables cultivation of an extra crop 
5. Helps in providing the critical protective irrigation in water scarce areas. 
6. Saves time and labor 
7. Improves agriculture productivity 
8. Improves general quality of life with higher levels of income 
9. Incremental income enables easy repayment loan taken for installing

A solar water pump is an application of photovoltaic technology whichConverts Solar Energy Into Electricityto run the pumping system thereby, replacing Electrical supply and pollution-causing diesel-powered versions. The solar water pump is powered by solar modules that helps draw surface or ground water out for irrigation.

Betaoffers both DC and AC range of Solar Water Pumps in both Surface and Submersible categories. These pumps help reduce farmers’ dependency on expensive fuels and their maintenance costs as opposed to conventional irrigation systems.

A solar-powered pump is a pump running on electricity generated by photovoltaic panels or the radiated thermal energy available from collected sunlight as opposed to grid electricity or diesel run water pumps.[1] The operation of solar powered pumps is more economical mainly due to the lower operation and maintenance costs and has less environmental impact than pumps powered by an internal combustion engine (ICE). Solar pumps are useful where grid electricity is unavailable and alternative sources (in particular wind) do not provide sufficient energy.

Voltage of the solar pump motors can be AC (alternating current) or DC (direct current). Direct current motors are used for small to medium applications up to about 1 kW rating, and are suitable for applications such as garden fountains, landscaping, drinking water for livestock, or small irrigation projects. Since DC systems tend to have overall higher efficiency levels than AC pumps of a similar size, the costs are reduced as smaller solar panels can be used.
However, the panel and inverters must be sized accordingly to accommodate the inrush characteristic of an AC motor.Voltage of the solar pump motors can be AC (alternating current) or DC (direct current). Direct current motors are used for small to medium applications up to about 1 kW rating, and are suitable for applications such as garden fountains, landscaping, drinking water for livestock, or small irrigation projects. Since DC systems tend to have overall higher efficiency levels than AC pumps of a similar size, the costs are reduced as smaller solar panels can be used.

COST EFFECTIVE : The life cycle and the cost to ultimate beneficiary make the SPV systems cost effective as compared to conventional systems. IN addition the farmer is saved from the capital investment he has to make for drawing lines from the grid to his field/farms. The govt. may save huge resources which otherwise may be uneconomical to network every agriculture field under the state electricity grid.

RELIABLE : The SPV is more reliable, consistent and predictable power option as compared to conventional power system in rural areas. Free fuel: Sunlight, the fuel source of SPV system is a widely available, inexhaustible, and reliable and free energy source.Hence the SPV system has no monthly fuel bills.

BENEFITS TO FARMERS 
Farmer gets a high value, high discharge pumping system for a one time amount that is less than a third of the actual price and may be maintained at nominal cost annually.

1. No fuel costs & minimal maintenance costs. 
2. More economical than diesel pump sets in the long run. 
3. Where no pumping system exists at present SPV based pumping system, 
4. Enables cultivation of an extra crop 
5. Helps in providing the critical protective irrigation in water scarce areas. 
6. Saves time and labor 
7. Improves agriculture productivity 
8. Improves general quality of life with higher levels of income 
9. Incremental income enables easy repayment loan taken for installing

A solar water pump is an application of photovoltaic technology whichConverts Solar Energy Into Electricityto run the pumping system thereby, replacing Electrical supply and pollution-causing diesel-powered versions. The solar water pump is powered by solar modules that helps draw surface or ground water out for irrigation.

Betaoffers both DC and AC range of Solar Water Pumps in both Surface and Submersible categories. These pumps help reduce farmers’ dependency on expensive fuels and their maintenance costs as opposed to conventional irrigation systems.

A solar-powered pump is a pump running on electricity generated by photovoltaic panels or the radiated thermal energy available from collected sunlight as opposed to grid electricity or diesel run water pumps.[1] The operation of solar powered pumps is more economical mainly due to the lower operation and maintenance costs and has less environmental impact than pumps powered by an internal combustion engine (ICE). Solar pumps are useful where grid electricity is unavailable and alternative sources (in particular wind) do not provide sufficient energy.

Voltage of the solar pump motors can be AC (alternating current) or DC (direct current). Direct current motors are used for small to medium applications up to about 1 kW rating, and are suitable for applications such as garden fountains, landscaping, drinking water for livestock, or small irrigation projects. Since DC systems tend to have overall higher efficiency levels than AC pumps of a similar size, the costs are reduced as smaller solar panels can be used.
However, the panel and inverters must be sized accordingly to accommodate the inrush characteristic of an AC motor.Voltage of the solar pump motors can be AC (alternating current) or DC (direct current). Direct current motors are used for small to medium applications up to about 1 kW rating, and are suitable for applications such as garden fountains, landscaping, drinking water for livestock, or small irrigation projects. Since DC systems tend to have overall higher efficiency levels than AC pumps of a similar size, the costs are reduced as smaller solar panels can be used.

COST EFFECTIVE : The life cycle and the cost to ultimate beneficiary make the SPV systems cost effective as compared to conventional systems. IN addition the farmer is saved from the capital investment he has to make for drawing lines from the grid to his field/farms. The govt. may save huge resources which otherwise may be uneconomical to network every agriculture field under the state electricity grid.

RELIABLE : The SPV is more reliable, consistent and predictable power option as compared to conventional power system in rural areas. Free fuel: Sunlight, the fuel source of SPV system is a widely available, inexhaustible, and reliable and free energy source.Hence the SPV system has no monthly fuel bills.

BENEFITS TO FARMERS 
Farmer gets a high value, high discharge pumping system for a one time amount that is less than a third of the actual price and may be maintained at nominal cost annually.

1. No fuel costs & minimal maintenance costs. 
2. More economical than diesel pump sets in the long run. 
3. Where no pumping system exists at present SPV based pumping system, 
4. Enables cultivation of an extra crop 
5. Helps in providing the critical protective irrigation in water scarce areas. 
6. Saves time and labor 
7. Improves agriculture productivity 
8. Improves general quality of life with higher levels of income 
9. Incremental income enables easy repayment loan taken for installing

Solar pumping systems are made up of solar panels, pump controller, a pump and somewhere for the water to go to, like a tank or dam.

The pump may be driven by either a direct current, DC, or an alternating current, AC, motor. For DC powered pumps, the solar controller regulates the DC voltage and current from the solar panels to match the load of the pump to the available power.

For AC powered pumps, the controller or solar pumping inverter, converts the DC power from the solar panels to alternating current, AC, to drive the pump. To match the solar panel power to the pump load, the solar pumping inverter varies the output frequency of the AC delivered to the pump, much like a variable speed drive, up to the maximum pump running speed. AC pumps may be powered by either single phase or 3 phase supply depending upon the pump power required.

DC or AC Pump?

Why the difference? Commonly, DC powered pumps are small, generally speaking less than 1000W. Whereas AC powered pumps range in size from a 500W to 2.2kW for single phase and from 500W to 100kW or more for 3 phase pumps.

For low power applications, DC pumps may be more cost effective. For larger system AC systems offer advantages in cost, operating efficiency, grid connection or alternative AC sources and choice of system components.

Operation of the pumping system may be monitored through a adding sensors to detect low water in the bore, high water in tanks or troughs or by monitoring line pressures and operations may be controlled localized switches, radio, telephone or internet networks. For more details, talk through your particular requirements with one of our consultants.

 Solar systems may also be added to existing pump installations reducing costs whilst giving new to existing value in existing equipment.

They offer new opportunities to farm more efficiently and more sustainably where traditional infrastructure simply does not exist or is prohibitively expensive.

To discover more of what can be achieved contact us today.

Additional Information:

• Production Capacity: 100
• Delivery Time: 7 - 10 days

Solar pumping systems are made up of solar panels, pump controller, a pump and somewhere for the water to go to, like a tank or dam.

The pump may be driven by either a direct current, DC, or an alternating current, AC, motor. For DC powered pumps, the solar controller regulates the DC voltage and current from the solar panels to match the load of the pump to the available power.

For AC powered pumps, the controller or solar pumping inverter, converts the DC power from the solar panels to alternating current, AC, to drive the pump. To match the solar panel power to the pump load, the solar pumping inverter varies the output frequency of the AC delivered to the pump, much like a variable speed drive, up to the maximum pump running speed. AC pumps may be powered by either single phase or 3 phase supply depending upon the pump power required.

DC or AC Pump?

Why the difference? Commonly, DC powered pumps are small, generally speaking less than 1000W. Whereas AC powered pumps range in size from a 500W to 2.2kW for single phase and from 500W to 100kW or more for 3 phase pumps.

For low power applications, DC pumps may be more cost effective. For larger system AC systems offer advantages in cost, operating efficiency, grid connection or alternative AC sources and choice of system components.

Operation of the pumping system may be monitored through a adding sensors to detect low water in the bore, high water in tanks or troughs or by monitoring line pressures and operations may be controlled localized switches, radio, telephone or internet networks. For more details, talk through your particular requirements with one of our consultants.

 Solar systems may also be added to existing pump installations reducing costs whilst giving new to existing value in existing equipment.

They offer new opportunities to farm more efficiently and more sustainably where traditional infrastructure simply does not exist or is prohibitively expensive.

To discover more of what can be achieved contact us today.

Solar pumping systems are made up of solar panels, pump controller, a pump and somewhere for the water to go to, like a tank or dam.

The pump may be driven by either a direct current, DC, or an alternating current, AC, motor. For DC powered pumps, the solar controller regulates the DC voltage and current from the solar panels to match the load of the pump to the available power.

For AC powered pumps, the controller or solar pumping inverter, converts the DC power from the solar panels to alternating current, AC, to drive the pump. To match the solar panel power to the pump load, the solar pumping inverter varies the output frequency of the AC delivered to the pump, much like a variable speed drive, up to the maximum pump running speed. AC pumps may be powered by either single phase or 3 phase supply depending upon the pump power required.

DC or AC Pump?

Why the difference? Commonly, DC powered pumps are small, generally speaking less than 1000W. Whereas AC powered pumps range in size from a 500W to 2.2kW for single phase and from 500W to 100kW or more for 3 phase pumps.

For low power applications, DC pumps may be more cost effective. For larger system AC systems offer advantages in cost, operating efficiency, grid connection or alternative AC sources and choice of system components.

Operation of the pumping system may be monitored through a adding sensors to detect low water in the bore, high water in tanks or troughs or by monitoring line pressures and operations may be controlled localized switches, radio, telephone or internet networks. For more details, talk through your particular requirements with one of our consultants.

 Solar systems may also be added to existing pump installations reducing costs whilst giving new to existing value in existing equipment.

They offer new opportunities to farm more efficiently and more sustainably where traditional infrastructure simply does not exist or is prohibitively expensive.

To discover more of what can be achieved contact us today.