ABS Plastic Big Flow Rate Chemical Resistant Black Pond Water Pump

Description

FEl swimming pool water pump is able to use in the salt water or chlorine filtered pools. Its built with a corrosion resistant marine grade cast iron motor housing and chemical resistant thermoplastic filter and engineer plastic pump body which allows the pump to be tough and durable. It provides high effective cleanin filtration basket which designed to capture and prevent fine debris from entering the pump,make the pump to supply a long time service.

Features:

• Beautiful New Look, Safe, Reliable and Super Quiet. Stainless Steel impeller shaft is resistant to corrosion. Low power consumption. Epoxy Sealed, High Grade ABS Pump Housing, No Sand. Stator Bobbin wound with Pure Copper Wiring, No Aluminum. UL-Certified Plug and Copper Enameled Power Cables.
• Easy to Install and Clean. No tools required to install, uninstall or disassemble. 5 ft long cord for easy power access. 3 strong suction cups keep it in place, so you can stick it on the side of the aquarium or other smooth flat surface, either vertically or horizontally.
• Adjustable flow rate. Max Flow Rate: 66 GPH, Max Lift Height: 1.9 ft. As flow is increased, lift is decreased and vice versa.
• This submersible pump is designed for small to medium size aquariums, tabletop fountains, water gardens and hydroponic systems. Backed by 12-month warranty and professional after-sale service within 24hrs
• Compact Size. Dimensions: 1 3/4 x 1 1/2 x 1 1/4 in. Fits 1/4 " ID tubing connector.

Outlook

At present, the efficiency of silicon solar panels is difficult to increase in a short period of time. Although the second-generation thin-film solar cells and the third-generation organic solar cells have obvious advantages in cost, they are currently mass-produced with silicon solar panels. Compared to not competitive. In the future, silicon panels will still occupy a large market share. Therefore, in the future, the research and development direction of solar pump systems should focus on the following three aspects:

(1) Research and development of high-efficiency pumps and motors to improve the range of high-efficiency zones of motors and pumps under a wide range of speeds and flow rates and to reduce the system's pumping threshold power. Develop low-cost, high-reliability intelligent controllers to improve performance matching between components and respond to changing weather conditions, thereby improving system dynamic quality and overall efficiency. At the same time, the development and promotion of comprehensive technologies for complementary energy utilization of small and medium-sized wind-light-heat;

(2) General methods for predicting long-term performance of solar pump systems under multi-factor changes such as climate, light, water level and water demand, and system design methods based on dynamic changes, establishing databases in different regions to gradually replace the method of estimating static averages ;

(3) With the reduction of the price of the panel and the development of small and medium-sized solar systems, in the future, on the basis of optimizing the power of the panel, the evaluation of the operational reliability of the system should be increased to improve the long-term reliability of the system and the stability of the water supply.