The Pocket Panda 35FT double-loop water misting fan hose represents a versatile and efficient cooling solution tailored for various settings. Crafted with durable, high-quality materials, the water misting fan hose boasts a double-loop design that ensures uniform water distribution along its 35-foot length, covering extensive areas for optimal cooling. Water misting fan hose integrates with various fan types, effortlessly enhancing their cooling potential. Beyond being a mere hose, it’s a conductor of comfort, transforming scorching heat into a soothing breeze, making every outdoor moment an escape to serenity amidst the sweltering days.
Its fine misting capability delicately cools the air without leaving surfaces overly wet, perfect for outdoor gatherings, patios, or larger spaces. Designed for easy attachment to most fan types, this hose guarantees simple installation and reliable performance, promising durability and a refreshing cooling experience in hot weather conditions.
|Good mist coverage at 35FT length
|Effective cooling, even mist distribution
|Slight decrease in mist intensity
|Still effective, but some nozzles showed wear
|Restored mist intensity
|Cleaning improved mist quality, back to optimal use
|Consistent misting even at high temps
|Reliable cooling, no issues observed
|End-of-Season Assessment & Storage Prep
|No degradation in hose quality
|Durable, ready for storage until next season
35FT Double-Loop Water Misting Fan Hose Product Features
The 35FT double-loop water misting fan hose is a versatile and efficient cooling solution for optimal misting performance. Crafted with durable and flexible materials, this hose features a double-loop design that ensures even water distribution along its length, covering a wide area for effective cooling.
The 35FT Double-Loop Water Misting Fan Hose embodies a synergy of functions and features, marking its prowess in outdoor cooling. Its primary part lies in delivering a refreshing mist across a vast 35-foot span, courtesy of its dual-loop design that ensures an even distribution of cooling mist. This design maximizes coverage, effectively transforming outdoor spaces into comfortable retreats. Hose mister attachment compatibility with most standard misting fans enhances its cooling potential.
- Misting Powerhouse: This creates a refreshing mist, transforming the air around your fan into a cooling haven.
- Coverage Expert: Extends up to 35 feet, enveloping a sizable area with its cooling mist.
- Adaptability Champion: Easily attaches to compatible fans, enhancing their cooling capabilities.
- Double-Loop Design: The unique dual-loop configuration ensures even mist distribution, covering a wide area efficiently.
- High-Quality Materials: Crafted from durable, high-grade materials for longevity and optimal performance.
- Adjustable Nozzles: Allows personalized mist settings, catering to different preferences for mist density and coverage.
- Compatibility Assurance: Designed to seamlessly integrate with various fan types, amplifying their cooling potential without hassle.
- Outdoor Entertaining: Ideal for outdoor parties, barbecues, or gatherings, creating a refreshing atmosphere.
- Patio Comfort: Turns your patio or garden into a calm oasis during hot days, making lounging outdoors more pleasant.
- Commercial Spaces: Perfect for cafes, restaurants, or event venues, ensuring guests stay relaxed and comfortable.
What Size Hose is Better for Low Pressure Misting System
A smaller hose diameter is often more effective for a low pressure misting system Smaller hoses typically allow for higher pressure because the water is confined to a narrower space, resulting in a finer mist when it exits the mister nozzles. A 1/4-inch diameter hose is commonly used for low-pressure misting system and can generate a fine mist even with lower water pressure.
A 3/8-inch diameter hose can also work well for low-pressure water misting systems. While it may offer slightly less flow compared to larger hoses, it can still generate a fine mist, especially when coupled with low-pressure misting nozzles. The advantage of a smaller diameter hose like this is that it can work efficiently with lower water pressure, allowing you to create a cooling mist even when the water pressure is not very high. Like any misting system, it’s essential to match the hose size with its requirements and ensure that the hose can handle the water flow needed for your specific setup.
|Cooling Area (sq. ft)
Limited coverage, fine mist but not
adequate for larger areas
|Slightly increased coverage area
|Substantial increase in coverage, excellent misting,
suitable for medium-sized areas
|Further coverage expansion, effective for larger areas,
cooling noticeable even in hot conditions
|Maximum coverage achieved,
excellent mist quality even in extreme heat
As the season progresses and temperatures rise, hose size and pressure adjustments are made, resulting in increased coverage and more effective cooling. This data aims to show the correlation between pressure and the system’s ability to cool larger areas during hotter periods.
What Size Water Hose is Better to Hook Up to Mister
The size of the water hose you use to hook up to a mister depends on several factors, including the mister’s specifications and your water supply. Generally, for most residential misting systems, a standard garden hose size of 5/8 inch or 1/4 inch is commonly used to connect to the water source.These sizes provide adequate water flow to the misting system without significant pressure loss.
However, it’s essential to consider the water pressure available at your location. If you have low water pressure, using a smaller diameter hose, like a 1/4 inch, might be more suitable to maintain enough pressure for effective misting.If you want a larger diameter hose it may provide a higher water flow, but will require more water pressure for optimal performance. Striking the right balance between water flow, compatibility, and coverage area ensures efficient misting without compromising performance or overtaxing the mister system
The larger diameter can accommodate more water flow, potentially covering a larger area or providing a slightly denser mist compared to a smaller diameter hose under similar pressure conditions. However, the most suitable hose size depends on your specific misting system, recommended specifications, and the coverage area you aim to cool effectively.
- Water Pressure
- Misters Requirements
- Water Flow
- Coverage Area
So, when selecting the ideal water hose to connect to a mister, considering water pressure and mister requirements, the key lies in finding a balance between water flow, compatibility, and coverage area. Opt for a hose with a diameter that matches the mister’s requirements, ensuring compatibility for optimal performance. The water flow rate should align with the mister’s specifications to ensure an adequate misting effect without overwhelming the system.
How to choose a Low Pressure Fan Hose Nozzle
When selecting a low-pressure fan hose nozzle, focus on finding one designed explicitly for lower-pressure systems to ensure optimal performance. Look for a fan hose nozzle with a comprehensive and consistent spray pattern, ideal for efficiently covering larger areas.Ensure it’s compatible with your low-pressure misting system, as not all fan hose nozzle work effectively with lower PSI setups. Seek a fan hose nozzle with adjustable settings, allowing you to control the mist’s intensity and direction, providing versatility for various cooling needs. Opt for durable materials such as brass or stainless steel to withstand continuous use while being mindful of ease of maintenance to prevent clogging and ensure a longer lifespan for your cooling equipment.
Brass Nozzle 0.016” Orifice/0.4 mm is particularly suitable for low-pressure operations due to its unique design and characteristics. The smaller orifice size enables the nozzle to function efficiently at lower pressures, ensuring a consistent and fine mist output even with reduced water pressure.
Brass, as a material, offers durability and resilience, making these nozzles less prone to wear and tear caused by lower-pressure systems. Their construction and size facilitate the creation of a well-dispersed mist pattern that covers a larger area despite the lower pressure, providing adequate cooling without requiring high water pressure levels. These Brass Nozzles with smaller orifice sizes are optimized to deliver efficient misting performance in low-pressure conditions, making them an ideal choice for such operations.
- Pressure Compatibility:
- Flow Control:
- Spray Pattern
- Materials and Durability:
- Compatibility with Your Fan and Hose
Therefore, Selecting a low-pressure fan hose nozzle involves assessing critical performance aspects for optimal functionality. Begin by ensuring pressure compatibility, as the nozzle should match your fan’s low-pressure specifications to avoid inefficiencies or damage. Seek a nozzle with efficient flow control mechanisms, enabling precise regulation of water release to achieve the desired misting effect without straining the system. Look for adjustable spray patterns to tailor the mist dispersion—options like mist, stream, or spray can enhance versatility.
how does water mist fan work
A water mist fan utilizes a specialized pump system with lower water pressure levels. Connected to a regular water supply, this system employs a pump explicitly designed for lower pressure, increasing water flow without requiring high-pressure mechanisms. Water is then channeled through specialized nozzles strategically positioned near the fan blades. Despite the downward pressure, these nozzles atomize the water into fine droplets.
As the fan operates, it draws in this fine mist, which evaporates quickly upon contact with the surrounding air, absorbing heat and creating a refreshing cooling effect. The fan’s blades then circulate the cooled air, dispersing the mist for widespread cooling, making it an efficient and comfortable solution for outdoor spaces during warm weather.
- Water Supply: These systems typically connect to a regular water supply, like a garden hose or a low-pressure water line.
- Pump: Unlike high-pressure misting systems, low-pressure mist fans use pumps designed for lower pressure levels. These pumps increase the water pressure slightly to ensure an adequate flow rate for misting without requiring high pressure.
- Misting Nozzles: The low-pressure pump sends water through specialized nozzles designed to atomize water into fine droplets despite the lower pressure. These nozzles are strategically placed around the fan blades or within the housing.
- Fan Operation: The misting nozzles are positioned near the fan blades. As the fan operates, it draws in the mist created by the low-pressure nozzles.
- Evaporative Cooling: Similar to high-pressure misting systems, the mist generated by the nozzles evaporates quickly upon contact with the surrounding air. This rapid evaporation absorbs heat from the air, causing a cooling effect.
- Air Circulation: The fan’s blades circulate the cooled air throughout the area, providing a refreshing breeze and dispersing the cool mist for a broader cooling effect.
Suitable for Your Fan Hose Mister Attachment
Selecting the right size mister attachment for your fan involves considering both the fan’s capacity and the area you aim to cool. Opting for a medium-sized attachment, roughly 12 to 18 inches in length, typically offers a balanced approach for most standard fans. This size strikes a good equilibrium, providing adequate mist coverage without overpowering the fan or creating excessive moisture.
However, The key to this selection lies in the harmony of compatibility and coverage. It’s crucial to ensure the attachment’s hose diameter aligns snugly with your fan’s fittings, guaranteeing optimal performance and effortless setup. Consider the expanse you wish to cover; a larger attachment might blanket a broader area but could necessitate higher water pressure.
Conversely, a smaller attachment might offer concentrated mist but cover less ground. Your preference for mist density and your fan’s water pressure capacity are pivotal in determining the ideal size. It’s a delicate balance between coverage, mist density, and compatibility, all geared toward unveiling the cooling paradise your space deserves!
How to Assess the Water Flow Required for Your Misting System
Assessing the water flow needed for your misting system involves a systematic approach to ensure efficient and effective cooling. Begin by considering the coverage area and the number of misting nozzles in your system. Calculate the flow rate per nozzle based on their specifications, usually measured in gallons per hour (GPH) or liters per hour (LPH). Multiply this flow rate by the total number of nozzles to determine the required system flow rate.
For example, if the misting system has a maximum flow rate of 100 liters per hour and runs for one hour, 100 liters of water will be used.
You can also use this information to estimate water usage during a specific period. For example, if you run the misting system for two hours a day for a week, 1,400 liters of water will be used (100 liters x 7 days)
Check the spray pattern of the misting system. The narrower the spray pattern, the more water the system uses. Place a piece of paper in front of the nozzle to find the spray pattern and turn on the system. The shape of the wet spot on the form can give you an idea of the spray pattern. Your spray pattern means that a 6-meter spray kit for your yard will sometimes use less water than a 12-meter spray kit, especially if the water pressure is different.
Determine the misting density you prefer
The appropriate misting density largely depends on personal preference, environmental factors, and the intended cooling effect. Generally, a fine mist with smaller droplets creates a higher-density fog, offering more effective cooling as the smaller droplets evaporate quickly, absorbing more heat from the air. This type of mist is suitable for intense heat and dry climates.
However, in more humid conditions, a lower misting density might be preferable to avoid excessive moisture accumulation. It’s essential to strike a balance; too high a misting density might lead to water wastage or create excessive moisture, while too low a density may not provide sufficient cooling. Adjusting misting density based on weather conditions, humidity levels, and personal comfort preferences ensures an optimal and enjoyable cooling experience.
Ensure misting nozzle sizes pressure Compatibility
|Nozzle Size (mm)
|Recommended Pressure Range (PSI)
Ensuring misting nozzle sizes pressure compatibility is crucial for optimal misting performance. Start by checking the nozzle specifications to understand their recommended pressure range. Match this information with your misting system’s pressure capabilities; some systems operate at low pressure (e.g., 40-60 PSI), while others function at high pressure (e.g., 800-1000 PSI).
Select nozzles that align with your system’s pressure range to prevent issues like inefficient mist production, clogging, or nozzle damage. Additionally, consider the nozzle’s flow rate and its correlation to pressure for effective misting without straining the system. Matching the misting nozzle sizes and pressure compatibility ensures a harmonious interaction, maximizing misting efficiency while prolonging the lifespan of your misting system.
Consider the area you intend to cover
Choosing the coverage area for your misting system involves several considerations to ensure efficient and effective cooling. Begin by assessing the size of the space you want to cool, whether it’s a patio, garden, or outdoor area. Measure the dimensions to determine the total square footage or square meters. Consider the misting system’s specifications, including the number of misting nozzles and their coverage range per nozzle.
Calculate the total coverage area based on the nozzle’s individual coverage and the number of nozzles in use. Opt for a system that adequately covers the intended area without over or under-saturating. Additionally, take into account factors like the layout, wind direction, and any obstacles that might affect the mist’s reach. Choosing the coverage area involves balancing mist distribution and density to ensure even and effective cooling across the designated space.