The global AC and DC solar water pumps market size was USD 822 million in 2017 and will touch USD 1892 million by 2025, exhibiting a CAGR of 11.0% during the forecast period.
AC and DC solar water pumps are two types of pumps generally used in solar-powered irrigation systems. AC pumps are designed to use on the standard electrical grid and need an inverter to convert the DC power generated by solar panels into AC power. They are suitable for larger-scale irrigation applications and can pump water over longer distances with higher flow rates. On the other hand, DC pumps directly use the DC power produced by solar panels, making them more effective and applicable for smaller-scale applications, such as drip irrigation or livestock watering. DC pumps are typically simpler in design, easier to install, and need less maintenance compared to AC pumps.
The market for both AC and DC solar water pumps has been experiencing significant growth in recent years, due to the increasing demand for sustainable and off-grid water pumping solutions. AC solar water pumps, which are generally used in larger-scale applications and grid-connected systems. DC solar water pumps are opted for smaller-scale and remote off-grid applications due to their compatibility with low-voltage solar panels and energy-efficient operation. Factors such as technological advancements, government incentives promoting renewable energy adoption, and increasing awareness of environmental sustainability are expected to further propel the expansion of this solar water pump markets globally.
COVID-19 IMPACT: MARKET GROWTH DECREASED BY PANDEMIC DUE TO DISRUPTION IN SUPPLY CHAIN
The global COVID-19 pandemic has been unprecedented and staggering, with the market experiencing lower-than-anticipated demand across all regions compared to pre-pandemic levels. The sudden market growth reflected by the rise in CAGR is attributable to market’s growth and demand returning to pre-pandemic levels.
The market for AC and DC solar water pumps faced major challenges because of the COVID-19 pandemic. Major challenges were initially caused by problems with the supply chain, mobility restrictions, and lockdown-induced project delays. Manufacturers encountered challenges locating raw materials and components, while shortages on workers and limitations on mobility caused installation projects to halt. Though, the market started to rebound as economies slowly reopened and adjusted to new safety regulations. Demand increased in places where there was still a severe lack of access to a steady supply of water, underscoring the importance of solar-powered solutions in resolving such issues.
LATEST TRENDS
“Increasing Efficiency Leads to Market Growth“
Advancements in efficiency, durability, and affordability are the latest trend in this particular market. In AC pumps, there was a notable transition towards high-efficiency motors and controllers, improving overall performance and reducing energy consumption. At the same time, in DC pumps, the focus was on improving reliability and incorporating smart technologies for remote monitoring and control, catering to off-grid and remote locations. These trends lead to growth for the solar water pump market, with a continued emphasis on innovation and accessibility driving further growth.
AC AND DC SOLAR WATER PUMPS MARKET SEGMENTATION
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By Type
Based on type the global market can be categorized into DC Surface Suction, AC Submersible, DC Submersible, AC Surface Pumps.
- DC Surface Suction: Utilize direct current (DC) power to pump water from shallow sources such as ponds or rivers for irrigation or livestock watering.
- AC Submersible: Operate on alternating current (AC) and are designed to be submerged in wells or reservoirs, efficiently lifting water to the surface for agricultural or domestic use.
- DC Submersible: DC Submersible pumps, powered by direct current, are submerged in water sources like wells or boreholes, effectively lifting water to the surface for irrigation or household consumption.
- AC Surface Pumps: Operating on alternating current, are installed above ground level and are suitable for pumping water from rivers, lakes, or reservoirs for agricultural or municipal applications.
By Application
Based on application the market is classified into Agriculture, Drinking Water, and Others.
- Agriculture: In agriculture, AC and DC solar water pumps are generally used for irrigation purposes, facilitating sustainable and effective water delivery to crops to enhance agricultural productivity.
- Drinking Water: In the drinking water sector, these pumps are used to provide clean and safe water sources in remote or off-grid locations to improve community health and livelihoods.
DRIVING FACTORS
“Increasing Usage of Renewable Energy leads to the Market Growth“
The market is affected by several driving factors that influence its growth and adoption globally. The increasing focus on sustainability and renewable energy solutions has accelerated the need for solar-powered water pumps. Governments, businesses, and individuals are identifying the benefits of solar energy in reducing carbon emissions and dependency on fossil fuels, thus driving the adoption of AC and DC solar water pumps. Additionally, the growing demand for reliable and cost-effective water pumping solutions in remote and off-grid areas where access to electricity grid infrastructure is limited or unreliable is another important driving factor.
“Implementation of Advanced Technology Accelerate the Market Growth“
Technological advancements and declining costs of solar photovoltaic (PV) panels and associated components have contributed to the expansion of the market. Also, favourable government policies and incentives, such as subsidies, tax credits, and feed-in tariffs, play an important role in driving AC and DC solar water pumps market growth by reducing upfront costs and encouraging investment in solar water pumping systems. The merging of environmental awareness, technological innovation, and supportive policies is driving the expansion of the market, offering sustainable water pumping solutions for various applications worldwide.
RESTRAINING FACTORS
“High Initial Cost Slow Down the Market Growth“
High initial investment costs are a barrier for many potential buyers, decreasing widespread adoption, especially in regions with limited financial resources. Additionally, the intermittent nature of solar power generation introduces reliability concerns, as the pumps’ efficacy heavily depends on consistent sunlight availability. This intermittency also necessitates backup systems or energy storage solutions, further increasing costs. These factors collectively hinder the broad adoption and growth of both AC and DC solar water pump systems.
AC AND DC SOLAR WATER PUMPS MARKET REGIONAL INSIGHTS
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“North America is Dominating the Market due to the Increasing Number of Players in the Region“
The market is primarily segregated into Europe, Latin America, Asia Pacific, North America, and Middle East & Africa.
The dominant region in these solar pumps market is Asia-Pacific (APAC). This is mainly due to various factors, including the quick adoption of solar technology, the increasing focus on renewable energy solutions, and the significant agricultural sector in countries like India and China, where solar water pumps are widely used for irrigation purposes. Additionally, government initiatives and subsidies promoting solar energy adoption further help the market in this region. The vast potential for solar energy generation combined with the need for efficient water management systems contributes to the dominance of APAC in the AC and DC solar water pumps market share.
KEY INDUSTRY PLAYERS
“Key Industry Players Shaping the Market through Innovation and Market Expansion“
In this market, key players typically include manufacturers and suppliers of solar panels, inverters, and pump systems, and engineering firms specializing in solar-powered solutions. These players usually collaborate with governmental agencies, non-profit organizations, and research institutions to develop and implement innovative technologies and solutions for efficient water pumping in various applications such as agriculture, irrigation, and rural water supply. Additionally, distribution networks and installation service providers play a critical role in expanding market reach and ensuring dependable operation and maintenance of solar water pump systems.
