Sanas Engineering in Pune India, a reputable provider of sustainable energy solutions offers cutting-edge solar water pump systems that cater to the region's agricultural and irrigation needs. With a strong commitment to eco-friendly practices, Sanas Engineering harnesses the power of solar energy to provide cost-effective and efficient water pumping solutions.
Atmospheric-Water-Generator ppt final 1.pptx210002002
Atmospheric water generators extract moisture from the air and convert it into clean drinking water. They provide a sustainable solution to water scarcity by producing potable water, especially in areas with limited access to traditional sources. While initial costs can be high, atmospheric water generators save money over time by reducing reliance on bottled water and deliveries. As the technology advances with improvements in efficiency and capacity, atmospheric water generation promises to improve access to clean water globally in a sustainable manner.
1. Solar water pumps can provide water in remote locations without access to power lines and are more economically and environmentally friendly than diesel pumps.
2. A solar water pump system uses photovoltaic panels to generate electricity to power an electric pump. The water is pumped into a storage tank for gravity feed.
3. While initial costs may be higher, solar pumps have lower long term costs than diesel pumps due to no fuel costs and require little maintenance. They provide environmental benefits by reducing greenhouse gas emissions.
Access to a reliable and sustainable water source is another challenge one would come across in the broader countryside or off-the-grid homesteads. This is the point where solar well water pump brilliance comes into action to define a new pattern for providing people with access to well water. Let us dive into the domain of solar well pumps, focusing on their environmental benefits and the reasons they are considered one huge investment in sustainability.
Design and Fabrication of Solar Water PumpIRJET Journal
This document describes the design and fabrication of a solar water pump system for agricultural use in India. The system aims to provide a cheaper, more sustainable alternative to electric or diesel pumps currently used on farms. It involves using a 150W solar panel to generate electricity that powers a 0.1HP submersible pump via an inverter. This is sufficient to lift water from underground or a nearby source up to 45 feet. The system's components include the solar panel, inverter, pump, wiring and PVC piping. It is concluded that solar water pumps provide environmental and economic benefits for irrigation over conventional pumps, particularly for small-to-medium farms in rural areas without grid access.
Sanas Engineering in Pune India, a reputable provider of sustainable energy solutions offers cutting-edge solar water pump systems that cater to the region's agricultural and irrigation needs. With a strong commitment to eco-friendly practices, Sanas Engineering harnesses the power of solar energy to provide cost-effective and efficient water pumping solutions.
Atmospheric-Water-Generator ppt final 1.pptx210002002
Atmospheric water generators extract moisture from the air and convert it into clean drinking water. They provide a sustainable solution to water scarcity by producing potable water, especially in areas with limited access to traditional sources. While initial costs can be high, atmospheric water generators save money over time by reducing reliance on bottled water and deliveries. As the technology advances with improvements in efficiency and capacity, atmospheric water generation promises to improve access to clean water globally in a sustainable manner.
1. Solar water pumps can provide water in remote locations without access to power lines and are more economically and environmentally friendly than diesel pumps.
2. A solar water pump system uses photovoltaic panels to generate electricity to power an electric pump. The water is pumped into a storage tank for gravity feed.
3. While initial costs may be higher, solar pumps have lower long term costs than diesel pumps due to no fuel costs and require little maintenance. They provide environmental benefits by reducing greenhouse gas emissions.
Access to a reliable and sustainable water source is another challenge one would come across in the broader countryside or off-the-grid homesteads. This is the point where solar well water pump brilliance comes into action to define a new pattern for providing people with access to well water. Let us dive into the domain of solar well pumps, focusing on their environmental benefits and the reasons they are considered one huge investment in sustainability.
Design and Fabrication of Solar Water PumpIRJET Journal
This document describes the design and fabrication of a solar water pump system for agricultural use in India. The system aims to provide a cheaper, more sustainable alternative to electric or diesel pumps currently used on farms. It involves using a 150W solar panel to generate electricity that powers a 0.1HP submersible pump via an inverter. This is sufficient to lift water from underground or a nearby source up to 45 feet. The system's components include the solar panel, inverter, pump, wiring and PVC piping. It is concluded that solar water pumps provide environmental and economic benefits for irrigation over conventional pumps, particularly for small-to-medium farms in rural areas without grid access.
Manual operated centrifugal pump research paperNavneet Shukla
This document describes the fabrication of a pedal-operated water pump. The pump uses a centrifugal pump operated by a drive shaft connected to bicycle pedals. It works by creating a vacuum that draws water from a sump. The pump is intended for small irrigation and garden irrigation where electricity is not available. It is constructed from locally available materials and can pump 2-3 gallons of water per minute from wells up to 23 feet deep. The document provides details on the construction, working, and calculations for the pump's performance including flow rate and power requirements. It concludes that the pedal-powered pump provides a simple and efficient way to pump water in isolated communities without electricity.
The document introduces solar-powered irrigation systems as an important innovation for boosting food production in Africa. It discusses how water is essential for crop growth but many African farmers rely on unpredictable rainfall. Solar irrigation can enable year-round farming. The key components of solar irrigation systems are solar panels, water pumps, controllers, and irrigation equipment. Solar power avoids the challenges of fuel-powered pumps and allows more reliable irrigation.
Solar Pedalflo Pumps: Harnessing the Power of the Sun for Efficient Water Tra...Flowmore Pumps
Solar Pedalflo pumps are innovative devices that combine the power of the sun with the efficiency of pedal power to provide sustainable and eco-friendly water transportation solutions.
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The document discusses water management strategies for the SMU-in-Taos campus to achieve net zero water use. It identifies current inefficiencies like lack of metering and outdated fixtures. The goals are to maximize water reduction by installing low-flow fixtures and implementing conservation, and to increase water recovery and reuse through rainwater harvesting, greywater capture and treatment. Strategies proposed include smart metering, xeriscaping, efficient irrigation, and installing water efficient appliances and fixtures. Capturing rainwater and greywater for non-potable reuse like irrigation and toilet flushing could significantly reduce potable water demand. Careful species selection and native landscaping can also greatly decrease water needs.
The document discusses the components, configurations, and design of solar PV pumping systems. It describes three main configurations that vary based on whether the pump is DC or AC powered and whether batteries are included. The key components are the PV array, pump, controller, and storage tank. Design considerations include determining water needs, available solar radiation, and selecting appropriately sized PV panels and motors. A 10-step process is provided for sizing a system to pump 25,000 liters of water per day to a 12 meter height, requiring 10 solar panels rated at 75W each and a 1HP AC motor.
Role of Energy Passive Groundwater Solutions in Environmental SustainabilityParjanaEngineering
Parjana Engineering's groundwater recharge product is a groundbreaking solution to the global water crisis. Our product is designed to use energy-efficient methods to naturally recharge groundwater reserves, allowing for sustainable access to clean water. This energy passive groundwater recharge product can be used in both residential and commercial properties.
Visit here for more details: https://parjanaengineering.com/
Demo Deck for the Tidal Pump - a new method of converting tidal action to energy. Presentation done for Stanford Technology Entrepreneurship course providing prototype for Business Model Canvas.
A propeller pump is a pump where fluid streams pivotally to the transformation of the propeller. In the Axial stream, the fluid streams compared to the turn of turn.
This document summarizes solar photovoltaic water pumping systems. It describes the key components of solar PV pumping systems including the solar panels, motor, pump, and storage. The main applications are listed as village water supply, livestock watering, and irrigation. Pros and cons are provided for different pump types including submersible pumps, surface pumps, and floating pumps. Guidelines are given for properly sizing a solar pumping system to match the water demand and availability. The performance and efficiency of solar pumping technology is discussed.
This document summarizes solar photovoltaic water pumping systems. It describes the key components of solar PV pumping systems including the solar panels, motor, pump, and controller. It discusses common pump types like submersible pumps. It also outlines applications for village water supply, livestock watering, and irrigation. It provides guidance on properly sizing a solar PV pumping system to match the water demand and supply.
Hydropower is a renewable energy source that generates electricity from water power. It works by channeling flowing water through turbines to produce kinetic energy. There are four main types of hydropower systems: run-of-river, which uses a canal to divert river water to turbines; storage systems, which use dams to store water in reservoirs and release it to drive turbines; pumped storage, which pumps water between reservoirs to produce energy during peak demand; and offshore systems that harness tidal currents or waves. Hydropower provides clean, flexible energy but can impact habitats and organisms and production depends on water availability.
The document describes a pendulum-operated piston pump designed to alleviate the work required to pump water. The pump uses the oscillating motion of a pendulum connected to a two-armed lever to power the up-and-down motion of a piston inside a cylinder. With each swing of the pendulum, the lever moves the piston to pump water with minimal human effort. The pendulum's motion can be maintained by occasional finger movements, requiring less fatigue than traditional hand pumps. The device aims to create free energy through the difference between the work of oscillating forces on the lever and damping forces on the pendulum.
The document discusses the use of rainwater tanks to supplement water supplies in Malaysia. It notes that Malaysia receives high amounts of rainfall annually but faces challenges in water supply. Rainwater tanks collect rainwater runoff from rooftops to store for later use and supplement conventional water sources. The document outlines benefits like reducing water bills and demand on supplies. It also discusses advantages such as low maintenance and costs. However, high initial investment costs, need for regular maintenance, and uncertain water quality are disadvantages to consider.
Renewable energy sources include solar, wind, hydro, tidal, geothermal, and wave energy. They generate pollution-free power and help reduce carbon emissions. Water conservation techniques either improve water quality or reduce usage through restricting flow or recycling water. Examples include waterless urinals, low-flow showerheads and faucets, front-loading washing machines, rainwater harvesting, and greywater recycling systems. These technologies save water, energy, and costs while helping the environment.
Rainwater harvesting provides several key advantages. It is a sustainable solution that can be implemented on various scales, from simple rain barrels to more complex systems. Harvested rainwater is suitable for irrigation and can reduce dependence on treated municipal water. Implementing rainwater harvesting systems can help conserve water resources and reduce stormwater runoff and pollution while lowering costs for utilities and consumers. Case studies in India demonstrate how rainwater harvesting increased local groundwater levels and quality in areas like Tamil Nadu and supported communities' water needs as seen in Haryana.
The document describes a pendulum pump project created by four students - Manas Dilip Parab, Anson Clickson Pereira, Raees Shafiq Shaikh, and Kailas Vikram Tambe - and their professor Vinit Raut. The pendulum pump was designed to address the problem of water scarcity in rural areas by providing a pump that requires less human effort and electricity to operate compared to traditional pumps. The document reviews previous literature on pendulum pumps, describes the objectives and methodology of the project, which was to develop a pump structure that uses pendulum motion to pump water with less manual labor. It concludes that the concept has potential to save energy but requires further modification to be successful.
Hydroelectric power plants generate electricity by harnessing the kinetic energy of flowing water. Dams are constructed to store water in reservoirs, increasing its potential energy. The water is then released through turbines, converting the kinetic energy to mechanical energy that spins generators to produce electricity. Hydroelectric power plants are classified based on factors like water flow availability, water head, and the type of load supplied. They have advantages like being renewable, low-cost to operate, and providing flood control and irrigation benefits. However, their construction is expensive and can negatively impact local communities and ecosystems.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
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Manual operated centrifugal pump research paperNavneet Shukla
This document describes the fabrication of a pedal-operated water pump. The pump uses a centrifugal pump operated by a drive shaft connected to bicycle pedals. It works by creating a vacuum that draws water from a sump. The pump is intended for small irrigation and garden irrigation where electricity is not available. It is constructed from locally available materials and can pump 2-3 gallons of water per minute from wells up to 23 feet deep. The document provides details on the construction, working, and calculations for the pump's performance including flow rate and power requirements. It concludes that the pedal-powered pump provides a simple and efficient way to pump water in isolated communities without electricity.
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The document discusses the components, configurations, and design of solar PV pumping systems. It describes three main configurations that vary based on whether the pump is DC or AC powered and whether batteries are included. The key components are the PV array, pump, controller, and storage tank. Design considerations include determining water needs, available solar radiation, and selecting appropriately sized PV panels and motors. A 10-step process is provided for sizing a system to pump 25,000 liters of water per day to a 12 meter height, requiring 10 solar panels rated at 75W each and a 1HP AC motor.
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Visit here for more details: https://parjanaengineering.com/
Demo Deck for the Tidal Pump - a new method of converting tidal action to energy. Presentation done for Stanford Technology Entrepreneurship course providing prototype for Business Model Canvas.
A propeller pump is a pump where fluid streams pivotally to the transformation of the propeller. In the Axial stream, the fluid streams compared to the turn of turn.
This document summarizes solar photovoltaic water pumping systems. It describes the key components of solar PV pumping systems including the solar panels, motor, pump, and storage. The main applications are listed as village water supply, livestock watering, and irrigation. Pros and cons are provided for different pump types including submersible pumps, surface pumps, and floating pumps. Guidelines are given for properly sizing a solar pumping system to match the water demand and availability. The performance and efficiency of solar pumping technology is discussed.
This document summarizes solar photovoltaic water pumping systems. It describes the key components of solar PV pumping systems including the solar panels, motor, pump, and controller. It discusses common pump types like submersible pumps. It also outlines applications for village water supply, livestock watering, and irrigation. It provides guidance on properly sizing a solar PV pumping system to match the water demand and supply.
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The document describes a pendulum-operated piston pump designed to alleviate the work required to pump water. The pump uses the oscillating motion of a pendulum connected to a two-armed lever to power the up-and-down motion of a piston inside a cylinder. With each swing of the pendulum, the lever moves the piston to pump water with minimal human effort. The pendulum's motion can be maintained by occasional finger movements, requiring less fatigue than traditional hand pumps. The device aims to create free energy through the difference between the work of oscillating forces on the lever and damping forces on the pendulum.
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Renewable energy sources include solar, wind, hydro, tidal, geothermal, and wave energy. They generate pollution-free power and help reduce carbon emissions. Water conservation techniques either improve water quality or reduce usage through restricting flow or recycling water. Examples include waterless urinals, low-flow showerheads and faucets, front-loading washing machines, rainwater harvesting, and greywater recycling systems. These technologies save water, energy, and costs while helping the environment.
Rainwater harvesting provides several key advantages. It is a sustainable solution that can be implemented on various scales, from simple rain barrels to more complex systems. Harvested rainwater is suitable for irrigation and can reduce dependence on treated municipal water. Implementing rainwater harvesting systems can help conserve water resources and reduce stormwater runoff and pollution while lowering costs for utilities and consumers. Case studies in India demonstrate how rainwater harvesting increased local groundwater levels and quality in areas like Tamil Nadu and supported communities' water needs as seen in Haryana.
The document describes a pendulum pump project created by four students - Manas Dilip Parab, Anson Clickson Pereira, Raees Shafiq Shaikh, and Kailas Vikram Tambe - and their professor Vinit Raut. The pendulum pump was designed to address the problem of water scarcity in rural areas by providing a pump that requires less human effort and electricity to operate compared to traditional pumps. The document reviews previous literature on pendulum pumps, describes the objectives and methodology of the project, which was to develop a pump structure that uses pendulum motion to pump water with less manual labor. It concludes that the concept has potential to save energy but requires further modification to be successful.
Hydroelectric power plants generate electricity by harnessing the kinetic energy of flowing water. Dams are constructed to store water in reservoirs, increasing its potential energy. The water is then released through turbines, converting the kinetic energy to mechanical energy that spins generators to produce electricity. Hydroelectric power plants are classified based on factors like water flow availability, water head, and the type of load supplied. They have advantages like being renewable, low-cost to operate, and providing flood control and irrigation benefits. However, their construction is expensive and can negatively impact local communities and ecosystems.
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2. Water Pumping Methods
Submersible Pumps Centrifugal Pumps Hand Pumps
Submersible pumps are efficient
for deep water sources. They are
submerged in the water and
push it to the surface.
Centrifugal pumps are widely
used for surface water sources.
They work by creating
centrifugal force to push water.
Hand pumps are manually
operated and suitable for
remote areas or emergency
situations.
3. Challenges in Water
Pumping
Power Supply
Inadequate or unreliable power
supply can disrupt water
pumping operations, leading to
water shortages.
Regular maintenance is crucial
for preventing breakdowns and
ensuring the longevity of
pumping systems.
Photos provided by Pexels
Maintenance
4. Pump Selection Criteria
Flow Rate and Pressure
Environmental
Considerations
Select a pump that can provide
the required flow rate and
pressure for the specific water
distribution system.
Consider factors such as water
source, environmental
conditions, and energy efficiency
when choosing a pump.
Photos provided by Pexels
5. Energy Efficiency
Renewable Energy
Options
Efficient Pumping
Technology
Explore the use of solar or wind
energy to power water pumping
systems, reducing reliance on
grid electricity.
Invest in modern, energy-
efficient pump technology to
minimize operational costs and
environmental impact.
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6. Maintenance Best Practices
Regular Inspections Part Replacement
Scheduled inspections help
identify potential issues early
and prevent major breakdowns.
Replace wearing parts, such as
seals and bearings, on time to
avoid extensive damage and
downtime.
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7. Conclusion and Q&A
Summary
Water pumping is pivotal for providing access to clean
water. Proper selection, maintenance, and energy
efficiency are critical for sustainable water supply.
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