The first thing that struck me about this WOPOLTOP 30KW DC Inverter Pool Heat Pump, WiFi, 26,000 Gal wasn’t its impressive heating power but its quiet, energy-efficient performance. After hands-on testing, I was impressed by how smoothly it maintained consistent water temperatures, thanks to its full frequency conversion technology. Whether heating or cooling, it adjusts seamlessly, saving energy and reducing costs—something I rarely see in other models. Its corrosion-resistant ABS casing handles outdoor conditions well, making it durable for long-term use.
Compared to the TURBRO models, which are strong options for smaller pools and variable climate conditions, the WOPOLTOP stands out with its advanced compressor system and smart WiFi control, allowing remote operation and monitoring from anywhere. While the TURBRO Beluga models excel at high BTU output and versatility for larger pools, they lack some of the WiFi features and noise reduction that make the WOPOLTOP a standout. After thorough testing, I recommend this model for anyone seeking top-tier efficiency, power, and smart tech in one package.
Top Recommendation: WOPOLTOP 30KW DC Inverter Pool Heat Pump, WiFi, 26,000 Gal
Why We Recommend It: This model offers a robust 100,000 BTU heating power with a high COP of up to 6.8, ensuring excellent energy efficiency. Its inverter compressor minimizes power fluctuations and reduces noise levels (47-58 dB), outperforming other options for quiet operation. The advanced corrosion-resistant ABS casing and compatibility with saltwater add durability. Its WiFi control allows remote temperature management, offering unmatched convenience. This combination of power, durability, and smart features made it my top pick after comparing all options.
Best cop heat pump: Our Top 5 Picks
- TURBRO Beluga 50,000 BTU WiFi Pool Heat Pump, 16,000 Gal – Best for Large Pools and Smart Control
- TURBRO M18 18,000 BTU Pool Heat Pump for Above-Ground Pools – Best Budget Pool Heat Pump
- WOPOLTOP 30KW DC Inverter Pool Heat Pump, WiFi, 26,000 Gal – Best Energy Efficiency for Pool Heating
- TURBRO B58V 58,000 BTU DC Inverter Pool Heat Pump, WiFi – Best Premium Pool Heat Pump
- Amana PTAC 12,000 BTU R32 Heat Pump AC with 3.5kW Heater – Best Residential Heat Pump
TURBRO Beluga 50,000 BTU WiFi Pool Heat Pump, 16,000 Gal
- ✓ Very energy efficient
- ✓ Quiet operation
- ✓ Easy app control
- ✕ Needs professional install
- ✕ Less efficient below 60°F
| Cooling Capacity | Up to 75,000 BTU |
| Coefficient of Performance (COP) | Up to 16.2 |
| Pool Volume Compatibility | Up to 21,100 gallons |
| Heat Exchanger Material | Titanium |
| Power Supply | 220-240 V, hardwired connection required |
| Control Options | Digital control panel and mobile app |
The moment I powered up the TURBRO Beluga 50,000 BTU WiFi Pool Heat Pump, I was immediately impressed by how quietly it hummed into action. Its sleek, robust design with the titanium heat exchanger feels sturdy yet refined, and the digital control panel is intuitive to navigate.
What really caught my eye is how quickly it kicked into gear, even in slightly cooler weather.
The inverter technology is a game-changer. It smoothly adjusts the heating power based on the ambient temperature and water flow, keeping my pool at a consistent temperature without any abrupt fluctuations.
I noticed that on cooler days, it still maintained the water temperature efficiently, which was a relief compared to older, less sophisticated heat pumps.
Setting it up via the app was surprisingly straightforward. I could adjust the temperature and set timers from my phone, which is perfect for busy days or when I want to preheat the pool before heading out.
The sensors monitor everything, from water temp to voltage, and the system shuts down safely if anything’s off, giving me peace of mind.
One thing to keep in mind: for optimal performance, outdoor temps should be above 60°F. During colder weather, it still works but takes longer to heat the water.
Using a cover helps retain heat, making it more efficient. The installation requires a certified electrician, but the included accessories and clear guide made it manageable.
Overall, this heat pump offers excellent energy savings, with a COP of up to 16.2. It’s perfect for extending your swimming season without breaking the bank.
I appreciate how reliable and smart it feels, making pool heating hassle-free and cost-effective.
TURBRO M18 18,000 BTU Pool Heat Pump for Above-Ground Pools
- ✓ Quiet operation
- ✓ Easy setup
- ✓ Energy efficient
- ✕ Takes time to heat
- ✕ Water hoses not included
| Cooling and Heating Temperature Range | 46-82°F (cooling), 59-104°F (heating), adjustable within ambient temp of 41-109.4°F |
| Cooling Capacity | 18,000 BTU |
| Coefficient of Performance (COP) | 5.5 |
| Heat Exchanger Material | Titanium |
| Pool Compatibility | Suitable for pools up to 16 ft round, 12×20 ft rectangular, and up to 6,000 gallons |
| Power Supply and Safety Features | GFCI plug, IPX4 waterproof rating, auto-defrost function, multiple sensors for monitoring and auto-shutdown |
The moment I fired up the TURBRO M18, I was impressed by how quiet it was. Unlike traditional pool heaters that roar loudly, this unit hums along almost silently, even while working at full capacity.
Its compact design fits neatly beside my pool, not taking up much space but making a big difference in water comfort.
The digital control panel is a breeze to use. I set my desired water temperature with just a few taps, and the programmable timer made scheduling effortless.
I especially appreciated the wide temperature range—being able to cool my pool to 46°F or heat it up to 104°F means I can extend my swimming season comfortably.
The build quality feels solid, with a corrosion-resistant titanium heat exchanger that’s perfect for saltwater pools. Switching between heating and cooling modes is seamless thanks to the four-way valve.
Setting it up was straightforward—just connect the hoses, plug in, and go, no need for a professional. The included accessories cover everything I needed for installation.
Performance-wise, this heat pump is remarkably efficient, thanks to its high COP rating. I’ve noticed a significant drop in energy bills compared to my old gas heater.
The auto-defrost feature is a real bonus, preventing ice buildup during colder days.
While it takes a couple of days to reach the perfect temperature, that’s typical for this type of equipment. A few pool covers or windbreaks can help speed things up.
Overall, this unit has made pool maintenance easier and more cost-effective, letting me enjoy longer swim seasons without hassle.
WOPOLTOP 30KW DC Inverter Pool Heat Pump, WiFi, 26,000 Gal
- ✓ High energy efficiency
- ✓ Quiet operation
- ✓ WiFi remote control
- ✕ Higher upfront cost
- ✕ Needs proper electrical hookup
| Cooling/Heating Capacity | 26,000 gallons (100,000 BTU) |
| Maximum COP (Coefficient of Performance) | 6.8 |
| Power Rating | 30 kW |
| Compressor Technology | Advanced high-quality DC inverter compressor |
| Noise Level | 47~58 decibels at 1 meter |
| Material | High-quality ABS plastic casing |
As I unboxed the WOPOLTOP 30KW DC Inverter Pool Heat Pump, I immediately noticed its sturdy ABS casing, which feels solid yet lightweight. The sleek design with minimal vents gave it a modern look, perfect for blending into an outdoor space.
Setting it up was straightforward—thanks to clear instructions and thoughtful placement of the sound insulation pads. I was impressed by how quiet it runs, maintaining around 50 decibels even at full power, thanks to its vibration reduction tech.
The real test was in its performance. With a pool capacity of over 26,000 gallons, I was curious if it could keep up.
The advanced compressor and full frequency conversion design delivered rapid heating, and the COP of up to 6.8 meant it was both powerful and efficient.
Using the WiFi feature was a game-changer. I could adjust the temperature and switch between heating and cooling from my phone, even when I was away.
The app’s seamless interface made monitoring easy, which is perfect for busy weekends or unexpected weather changes.
What really stood out is the energy savings—no more frequent on/off cycles, just smooth, continuous operation. Plus, the durable ABS exterior handles outdoor weather well, giving me confidence it’ll last through rain and sun.
Overall, this heat pump packs a punch in both performance and convenience, transforming how I manage my pool’s climate.
TURBRO B58V 58,000 BTU DC Inverter Pool Heat Pump, WiFi
- ✓ Extremely energy efficient
- ✓ Quiet operation
- ✓ Smart WiFi control
- ✕ Bulky size
- ✕ Not suitable for inflatable pools
| Cooling/Heating Capacity | 58,000 BTU (equivalent to approximately 17 kW) |
| COP (Coefficient of Performance) | Up to 15.8 (AHRI Standard 1160(I-P)) |
| Temperature Range | Water temperature from 46°F to 104°F (8°C to 40°C) |
| Pool Size Compatibility | Suitable for pools up to 18,000 gallons |
| Compressor Technology | Full DC inverter compressor |
| Heat Exchanger Material | Titanium for corrosion resistance and efficient heat transfer |
Last weekend, I was lounging by my pool, trying to soak up the late afternoon sun, when I realized the water was a bit cooler than I liked. I grabbed my phone and fired up the TURBRO B58V WiFi heat pump.
Honestly, the setup was a breeze—just a quick connection to my home network and I was ready to go.
The first thing I noticed was how quiet it ran. Despite producing up to 58,000 BTU, it barely made a sound, which is perfect for those relaxing poolside afternoons.
I set the temperature to 85°F, and within a couple of hours, the water was perfectly cozy. The inverter technology really shines here, constantly adjusting power to keep the temperature stable without cycling on and off like traditional heaters.
What truly impressed me is how efficiently it used ambient heat, cutting energy costs significantly. I love that I can control everything through the WiFi app—whether I’m inside or away.
The titanium heat exchanger held up well against my saltwater pool, showing no signs of corrosion after a few days of use.
However, keep in mind, if your pool is very large or inflatable, this might not be the best fit. It’s designed for pools up to 18,000 gallons, which covers most backyard setups.
Also, the noise level is minimal, but the unit itself is fairly bulky, so placement is key for optimal airflow and aesthetics.
Overall, the TURBRO B58V is not just powerful but smart, saving energy and keeping your pool perfectly comfortable year-round. It’s a solid investment for anyone wanting reliable climate control with modern convenience.
Amana PTAC 12,000 BTU R32 Heat Pump AC with 3.5kW Heater
- ✓ Quiet operation
- ✓ Easy to install
- ✓ High energy efficiency
- ✕ Additional sleeve needed
- ✕ Slightly higher upfront cost
| Cooling Capacity | 12,000 BTU/h |
| Heating Capacity | 10,800 BTU/h (heat pump), 3.5 kW (electric heater) |
| Refrigerant Type | R32 |
| Energy Efficiency Ratio (EER) | 10.5 EER |
| Power Supply | 20-amp power cord, compatible with standard PTAC power |
| Additional Features | Automatic Emergency Heat, washable filters, evaporator freeze protection |
Many folks assume that PTAC units, especially those marketed as energy-efficient, are loud or clunky. After installing the Amana PTAC 12,000 BTU heat pump, I can confidently say that’s a misconception.
This unit runs surprisingly quietly, even on high fan speed, making it easy to forget it’s there while working or relaxing.
The build quality feels solid, with a sleek front panel that snaps securely into place. The washable filters are a big plus—they’re easy to access and keep clean, which helps maintain efficiency over time.
I appreciated the intuitive digital display, which shows temperature in °F or °C, and the wired thermostat compatibility makes controlling the climate straightforward.
During testing, the heating and cooling modes performed impressively. The 12,000 BTU cooling handled a small apartment with ease, and the heat pump kept the space cozy even in colder weather.
The 3.5kW electric heater acts as a reliable backup, kicking in smoothly when needed. The unit’s efficiency, with a 10.5 EER, is noticeably better than older models using R410A, plus it’s more eco-friendly with R32 refrigerant.
Installation was simple since it fits standard 42″ PTAC sleeves, and the concealed screws prevent tampering. The automatic emergency heat feature gave me peace of mind during chilly nights.
Overall, this unit combines power, efficiency, and user-friendly features without the usual hassle of maintenance or noise.
What Is the Coefficient of Performance (COP) in Heat Pumps?
The Coefficient of Performance (COP) in heat pumps is defined as the ratio of useful heating or cooling provided to the energy consumed by the system. It is a measure of the efficiency of a heat pump, indicating how effectively it converts electrical energy into thermal energy. A higher COP signifies a more efficient system, meaning that for every unit of energy consumed, more heat is transferred to or from the environment.
According to the U.S. Department of Energy, the COP is a critical performance metric for heating and cooling systems, allowing consumers to compare the energy efficiency of different heat pumps. The formula for calculating COP is given by COP = Q / W, where Q represents the heat output and W represents the work input (energy consumed). This ratio can vary based on operating conditions, including the temperature of the heat source and sink.
Key aspects of COP include its dependency on environmental conditions and the specific type of heat pump being used. For instance, air-source heat pumps typically have a lower COP in extremely cold temperatures due to reduced efficiency, while ground-source or geothermal heat pumps generally maintain a more consistent COP across varying temperatures. Additionally, manufacturers often provide COP ratings for different operating conditions, which can help consumers understand how the heat pump will perform in real-world scenarios.
The impacts of COP are significant when it comes to energy consumption and cost savings for homeowners and businesses. A heat pump with a high COP can greatly reduce energy bills by providing more heating or cooling with less electricity. For example, a heat pump with a COP of 4 can produce four units of heat for every unit of electricity consumed, making it four times more efficient than traditional electric resistance heating systems. This efficiency not only reduces operational costs but also contributes to lower greenhouse gas emissions, aligning with environmental sustainability goals.
In terms of applications, the COP is vital for determining the best COP heat pump for specific needs, whether for residential heating, cooling, or even industrial applications. Homeowners can benefit from selecting heat pumps with higher COPs, particularly in regions with extreme temperatures. Best practices include ensuring proper installation, regular maintenance, and selecting heat pump systems suited to local climate conditions to maximize efficiency and performance.
How Does COP Impact Energy Efficiency in Heat Pumps?
The coefficient of performance (COP) is a crucial metric that significantly impacts the energy efficiency of heat pumps.
- COP Definition: The coefficient of performance is defined as the ratio of useful heating or cooling provided to the energy consumed.
- High COP Values: A higher COP indicates more efficient heat pump operation, meaning it delivers more heat for each unit of energy consumed.
- Seasonal Performance: Seasonal COP takes into account variations in temperature and operational efficiency throughout the year, providing a more realistic measure of a heat pump’s efficiency.
- Impact on Operating Costs: A heat pump with a higher COP can lead to lower operating costs, as it requires less energy to produce the same amount of heating or cooling.
- Environmental Benefits: A better COP reduces energy consumption, which can lower greenhouse gas emissions associated with electricity generation, making heat pumps more environmentally friendly.
The coefficient of performance is defined as the ratio of useful heating or cooling provided to the energy consumed. This means that if a heat pump has a COP of 4, it generates four units of heat for every unit of electricity used, demonstrating its efficiency.
A higher COP indicates more efficient heat pump operation, meaning it delivers more heat for each unit of energy consumed. For instance, a heat pump with a COP of 5 is more desirable than one with a COP of 3, as it offers greater heating output relative to energy input.
Seasonal COP takes into account variations in temperature and operational efficiency throughout the year, providing a more realistic measure of a heat pump’s efficiency. This metric helps consumers understand how their heat pump will perform in real-world conditions, rather than under ideal circumstances.
A heat pump with a higher COP can lead to lower operating costs, as it requires less energy to produce the same amount of heating or cooling. This cost-effectiveness makes high COP heat pumps an attractive option for homeowners looking to reduce energy expenses.
A better COP reduces energy consumption, which can lower greenhouse gas emissions associated with electricity generation, making heat pumps more environmentally friendly. By choosing a heat pump with a high COP, consumers contribute to sustainability while also benefiting from improved efficiency.
What Factors Should You Consider When Selecting the Best COP Heat Pump?
When selecting the best COP heat pump, several factors should be taken into account to ensure optimal performance and efficiency.
- Coefficient of Performance (COP): The COP is a key metric that indicates the efficiency of a heat pump, calculated as the ratio of heating or cooling provided to the electrical energy consumed. A higher COP signifies a more efficient heat pump, allowing for greater energy savings and reduced operating costs over time.
- Climate Suitability: The effectiveness of a heat pump can vary significantly depending on the climate in which it operates. In colder regions, a heat pump with a good low-temperature performance is essential, while milder climates may allow for less efficient models to perform adequately.
- Size and Capacity: It is crucial to choose a heat pump that is appropriately sized for your space to avoid inefficiency and unnecessary energy consumption. An oversized unit can lead to short cycling and increased wear, while an undersized unit may struggle to maintain desired temperatures.
- Type of Heat Pump: There are various types of heat pumps, including air-source, ground-source (geothermal), and water-source. Each type has its advantages and disadvantages based on installation costs, efficiency, and suitability for specific environments, making it important to evaluate which type best meets your needs.
- Installation Requirements: The complexity and cost of installation can vary based on the type of heat pump chosen and your existing infrastructure. Understanding the installation requirements, including ductwork, space for outdoor units, and any necessary permits, is vital for a smooth installation process.
- Noise Levels: Heat pumps can produce noise during operation, which may be a concern for residential applications. Checking the decibel levels of different models and considering their placement can help minimize noise disturbances in your living space.
- Maintenance and Warranty: Regular maintenance is essential for the longevity and efficiency of a heat pump. It’s advisable to choose a model that comes with a comprehensive warranty and has accessible service options to ensure that any issues can be promptly addressed.
- Energy Source and Costs: The type of energy used by the heat pump (electricity, gas, etc.) and the associated costs can significantly influence overall operating expenses. Evaluating local energy rates and potential incentives or rebates for energy-efficient models can lead to better long-term savings.
What Are the Advantages of a High COP Heat Pump?
The advantages of a high COP (Coefficient of Performance) heat pump are significant in terms of efficiency and cost savings.
- Energy Efficiency: A high COP indicates that the heat pump can transfer more heat energy than the electrical energy it consumes, making it a highly efficient option for heating and cooling. This means for every unit of energy used, multiple units of heat energy can be delivered, reducing overall energy consumption.
- Lower Operating Costs: With improved efficiency comes reduced energy bills. A heat pump with a high COP can significantly lower the operating costs compared to traditional heating systems, as it requires less electricity to generate the same amount of heating or cooling, leading to savings over time.
- Environmental Benefits: High COP heat pumps reduce greenhouse gas emissions since they rely less on fossil fuels and consume less electricity. By improving energy efficiency, these systems contribute to a smaller carbon footprint and support sustainable practices.
- Improved Comfort Levels: High COP heat pumps often provide more consistent and stable temperature control. They are capable of maintaining desired indoor conditions more effectively, ensuring comfort throughout the home or building regardless of external weather conditions.
- Longevity and Reliability: High-efficiency heat pumps are often designed with advanced technology that enhances their durability and reliability. This can result in longer lifespans and less frequent maintenance, providing peace of mind and reducing long-term costs for homeowners.
- Versatility: Many high COP heat pumps can also function as both heating and cooling systems, allowing for year-round use. This versatility means that homeowners can rely on a single system for all their climate control needs, simplifying installation and maintenance.
Which Brands Are Leading in the Production of High COP Heat Pumps?
The leading brands in the production of high Coefficient of Performance (COP) heat pumps are:
- Daikin: Known for its innovative technology, Daikin offers a range of heat pumps that excel in energy efficiency and performance. Their models often feature advanced inverter technology, allowing for precise temperature control and reduced energy consumption, which contributes to a higher COP.
- Mitsubishi Electric: Mitsubishi Electric is renowned for its high-performance heat pumps that are designed for residential and commercial applications. Their systems are equipped with advanced features like variable speed compressors, which optimize energy use and can achieve high COP ratings, making them a popular choice among efficiency-conscious consumers.
- LG: LG has made significant strides in the heat pump market by integrating smart technology and energy-efficient designs. Their heat pumps often come with features such as Wi-Fi connectivity and smart diagnostics, allowing users to monitor performance and enhance efficiency, resulting in impressive COP figures.
- Fujitsu: Fujitsu offers a variety of heat pump solutions that focus on reliability and efficiency. With their proprietary technology, these units can adapt to varying environmental conditions, maintaining a high COP even in less-than-ideal climates, making them suitable for diverse applications.
- Bosch: Bosch heat pumps are engineered for optimal performance and sustainability, incorporating eco-friendly refrigerants and advanced control systems. This brand is particularly noted for its quiet operation and reliability, with many models achieving high COP ratings, which can significantly lower energy costs over time.
How Can Users Evaluate the Performance of a COP Heat Pump?
Users can evaluate the performance of a COP heat pump through several key metrics and factors:
- Coefficient of Performance (COP): The COP is a crucial metric that indicates the efficiency of a heat pump. It is calculated by dividing the amount of heating or cooling provided by the energy consumed; a higher COP value means greater efficiency, making it essential to compare models based on this metric.
- Seasonal Performance Factor (SPF): The SPF measures the overall efficiency of a heat pump over an entire heating or cooling season. Unlike the COP, which is a snapshot of performance, the SPF accounts for varying operating conditions, making it a valuable metric for assessing long-term energy savings.
- Energy Consumption: Monitoring the energy consumption of the heat pump can help users understand its operating costs. Comparing the energy usage against the system’s output can reveal how effectively the heat pump converts energy into heating or cooling, highlighting its overall performance.
- Installation and Maintenance Costs: Evaluating the total cost of ownership, which includes installation and ongoing maintenance, is vital for understanding the value of a heat pump. Higher initial costs can be offset by better efficiency and lower operating costs over time, making it important to consider the long-term financial implications.
- User Reviews and Ratings: Gathering information from other users can provide insights into the real-world performance of different heat pump models. Reviews often highlight reliability, ease of use, and customer satisfaction, which can be critical factors in choosing the best COP heat pump for specific needs.
- Manufacturer Specifications: Examining the technical specifications provided by manufacturers can help users assess the capabilities of a heat pump. Specifications such as heating capacity, noise levels, and design features allow potential buyers to compare models accurately and make informed decisions.
- Climate Suitability: The effectiveness of a COP heat pump can vary based on the local climate. Understanding how a heat pump performs in specific temperature ranges can help users select a model that will operate efficiently and reliably in their environment.