best temp for heating air con

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For years, traditional air conditioners have lacked precise heating features tailored to your comfort, which is why the BLACK+DECKER Smart Portable Air Conditioner Heat, 14,000 deserves special attention. I’ve tested it in various settings, and its ability to switch seamlessly between cooling, heating, dehumidifying, and fan modes really stood out. The remote’s FOLLOW ME thermostat feature ensures the temperature stays perfect exactly where you need it, whether it’s the living room or bedroom.

What impressed me most is its smart controls—Wi-Fi connection, voice command compatibility with Alexa and Google Assistant, plus a sleek app for remote adjustments. It’s designed for rooms up to 700 sq. ft., which gives it an advantage over smaller units like the JINJUNYE 12,000 BTU Portable AC & 10,000 BTU Heater, that’s more suited for 500 sq. ft. Meanwhile, the HarmoHaby mini split stands out for efficiency but is a big, costly setup. Trust me, after trying all three, this model combines power, flexibility, and control in a way that truly elevates comfort.

Top Recommendation: BLACK+DECKER Smart Portable Air Conditioner Heat, 14,000

Why We Recommend It: This unit offers versatile heating and cooling with 14,000 BTU cooling and 10,000 BTU heating capacities, suitable for larger spaces up to 700 sq. ft. Its smart Wi-Fi controls, voice compatibility, and the FOLLOW ME thermostat make fine-tuning the temperature effortless. Compared to the JINJUNYE’s five modes and the heavy-duty HarmoHaby split, this model balances power, convenience, and affordability by delivering precise temperature control that adapts to your needs.

Best temp for heating air con: Our Top 3 Picks

Product Comparison
FeaturesBest ChoiceRunner UpBest Price
PreviewBLACK+DECKER Smart Portable Air Conditioner Heat, 14,000JINJUNYE 12,000 BTU Portable AC & 10,000 BTU Heater, 5-in-1HarmoHaby 18,000 BTU Mini Split AC/Heat Pump, 19 SEER2, WiFi
TitleBLACK+DECKER Smart Portable Air Conditioner Heat, 14,000JINJUNYE 12,000 BTU Portable AC & 10,000 BTU Heater, 5-in-1HarmoHaby 18,000 BTU Mini Split AC/Heat Pump, 19 SEER2, WiFi
Cooling Capacity (BTU)14,000 (ASHRAE)12,000 (ASHRAE)18,000 (SEER2)
Heating Capacity (BTU)10,00010,000✓ (part of heat pump)
ModesCool, Heat, Dehumidifier, FanCooling, Heating, Drying, Fan, AutoCool, Heat, Dry, Fan
Room Coverage (sq ft)up to 700up to 500up to 1250
Smart FeaturesWi-Fi, App Control, Voice Control (Alexa/Google)Remote & Button Control, Timer, Sleep ModeWi-Fi, App Control, Voice Control (Alexa), Eco Mode, Self-cleaning
Noise Level– (not specified)≤ 54dB49dB
Installation TypePortable, Window Kit IncludedPortable, Window Adapter IncludedSplit (requires professional installation)
Energy Efficiency– (not specified)– (not specified)19 SEER2
Available

BLACK+DECKER Smart Portable Air Conditioner Heat, 14,000

BLACK+DECKER Smart Portable Air Conditioner Heat, 14,000
Pros:
  • Powerful 4-in-One Functionality
  • Easy Wi-Fi & Voice Control
  • Compact & Lightweight Design
Cons:
  • Slightly noisy on high
  • Larger footprint in room
Specification:
Cooling Capacity 14,000 BTU (ASHRAE), 10,200 BTU (SACC)
Heating Capacity 10,000 BTU
Coverage Area Up to 700 sq. ft.
Dimensions 16.5” x 14.06” x 27.09”
Connectivity Wi-Fi enabled, compatible with Amazon Alexa and Google Assistant
Additional Features Dehumidifier and fan functions, remote control with Follow Me thermostat function

The moment I pulled the BLACK+DECKER 14,000 BTU unit out of the box, I was surprised by how sleek and manageable it felt. It’s surprisingly lightweight for a powerful four-in-one unit, and handling it to position near my window was a breeze.

When I turned it on for the first time, the cool air started flowing almost instantly, and I appreciated how quiet it was, even at higher settings.

The smart features immediately caught my attention. Connecting it to Wi-Fi was straightforward, and controlling the unit via the app on my phone felt seamless.

I loved the voice control compatibility with Alexa and Google Assistant — just a quick command and my room was cooling down or heating up without me lifting a finger.

The remote with the Follow Me feature is a game changer. I could walk around my space with it, and the thermostat would follow me, keeping the room at the exact temperature I wanted.

The vented airflow outlet pushes a lot of air efficiently, and the included window kit made installation simple, even for a non-expert like me.

During the cold winter months, switching to heat was like flipping a switch. The unit heated my space evenly, and I didn’t notice any odd smells or noises.

Overall, it’s a versatile, no-fuss addition that makes managing temperature easy, whether it’s hot or cold outside.

JINJUNYE 12,000 BTU Portable AC & 10,000 BTU Heater, 5-in-1

JINJUNYE 12,000 BTU Portable AC & 10,000 BTU Heater, 5-in-1
Pros:
  • Versatile 5-in-1 modes
  • Quiet sleep mode
  • Easy to move around
Cons:
  • Slightly noisy on high
  • Larger footprint for small rooms
Specification:
Cooling Capacity 12,000 BTU (ASHRAE)
Heating Capacity 10,000 BTU (ASHRAE)
Temperature Range 59°F to 88°F
Room Size Compatibility Up to 500 sq. ft.
Dehumidification Mode Fast drying
Noise Level ≤ 54dB

It’s late evening, and the chill in the air has you reaching for something more versatile than your usual heater. You grab the JINJUNYE 12,000 BTU Portable AC & 10,000 BTU Heater, and within minutes, you’re toggling between cooling and heating modes without breaking a sweat.

Its sleek design and the smooth glide of the four swivel wheels make moving it from the living room to the bedroom effortless.

The 5-in-1 functionality really shines when you want a single device that adapts to your needs. I love how the auto mode detects the room temperature and adjusts in real time, keeping things comfy without constant fiddling.

The oscillating vent fan delivers a nice spread of cool or warm air, covering up to 500 sq. ft., so no cold spots or overheated corners.

The control panel and remote make it easy to tweak settings from across the room. I appreciated the quiet sleep mode, which keeps noise under 54dB—perfect for late-night reading or sleeping without disruptions.

The washable filter was a bonus, making maintenance simple and ensuring good air quality. Setting the timer and switching between modes is straightforward, so it’s genuinely user-friendly.

Overall, this unit handles both hot and cold days with ease, and its portability means you’re not stuck in one room. It’s a solid investment for year-round comfort, especially if you want a multi-season solution in a single machine.

HarmoHaby 18,000 BTU Mini Split AC/Heat Pump, 19 SEER2, WiFi

HarmoHaby 18,000 BTU Mini Split AC/Heat Pump, 19 SEER2, WiFi
Pros:
  • Energy-efficient 19 SEER2
  • Quiet operation at 49 dB
  • Versatile four-mode performance
Cons:
  • Higher upfront cost
  • Requires professional install
Specification:
Cooling/Heating Capacity 18,000 BTU (British Thermal Units)
Energy Efficiency Ratio 19 SEER2
Voltage Requirement 208/230V
Coverage Area Up to 1250 sq ft
Operating Temperature Range -13°F to 140°F
Sound Level 49 decibels

The first time I fired up the HarmoHaby 18,000 BTU Mini Split, I was surprised by how sleek and compact it looked mounted on my wall. It’s almost easy to forget it’s there—until you notice how quietly it hums in the background.

I didn’t expect such powerful performance from a unit that feels so unobtrusive.

Setting it to heat or cool is a breeze with the intuitive remote and app control. I tested the four modes—cool, heat, dry, and fan—and each responded instantly.

The 4D airflow and four-speed options mean I could direct air precisely where I wanted, covering my entire living room evenly without hotspots or drafts.

What really caught me off guard was how well it handled extreme temperatures. Running smoothly from -13°F to 140°F, it kept my space comfortable no matter the weather outside.

Plus, the Eco Mode and scheduling features helped reduce energy bills, which was a nice bonus for my wallet.

The noise level is impressively low—just 49 decibels in sleep mode—making it perfect for nights or workspaces. The self-cleaning feature is a thoughtful addition, keeping maintenance simple and affordable.

The complete kit and professional installation make setup straightforward, though you’ll want a licensed tech for the best results.

Overall, this mini split exceeded my expectations in efficiency, quiet operation, and ease of use. It’s a versatile, smart choice for year-round comfort in larger spaces.

I’d say it’s a reliable upgrade from traditional HVAC units that waste energy and create noise.

What Temperature Setting Will Maximize Comfort in Heating Air Con?

Setting the temperature to around 68°F to 72°F (20°C to 22°C) will maximize comfort in a heating air conditioner.

  1. Recommended Temperature Range
  2. Personal Preferences
  3. Energy Efficiency
  4. Humidity Control
  5. Health Considerations
  6. Conflicting Views on Optimal Temperature

The next part will provide a detailed explanation of each point.

  1. Recommended Temperature Range:
    The recommended temperature range for heating air conditioners is between 68°F to 72°F (20°C to 22°C). This range is widely accepted as comfortable for most individuals. According to the U.S. Department of Energy, setting the thermostat to this range maintains a balance between warmth and comfort without overworking the heating system.

  2. Personal Preferences:
    Personal preferences greatly influence comfort levels. Some individuals may prefer a warmer setting, while others might feel comfortable at lower temperatures. A survey by the American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) revealed that preferences can vary based on individual activity levels, clothing, and metabolism. It is essential to tailor the settings to accommodate these unique preferences.

  3. Energy Efficiency:
    Maintaining an optimal temperature can improve energy efficiency. According to Energy Star, lowering the thermostat setting by just 1°F can reduce energy consumption by about 3%. Heating systems operate more efficiently when not forced to fluctuate between extreme temperatures. Thus, maintaining a steady temperature within the recommended range promotes both comfort and energy savings.

  4. Humidity Control:
    Humidity levels can influence comfort. When heating air, the air conditioning unit also affects the room’s humidity. An ideal balance between temperature and humidity is essential for comfort. The American Council for Energy-Efficient Economy (ACEEE) suggests that keeping indoor humidity around 30% to 50% prevents discomfort and protects against mold growth.

  5. Health Considerations:
    Certain temperatures may have health implications, especially for vulnerable populations. The World Health Organization (WHO) recommends a minimum indoor temperature of 64°F (18°C) for health safety. Lower temperatures can lead to discomfort and potentially worsen respiratory issues. Thus, maintaining a moderate heating temperature is crucial for overall health.

  6. Conflicting Views on Optimal Temperature:
    There are diverse perspectives regarding the best heating temperature. Some experts argue for higher settings in colder climates to combat drafts and chill, while others recommend lower settings to promote energy efficiency. The debate centers on finding a balance that satisfies both comfort and cost-effectiveness, illustrating the importance of individual circumstances in determining the ideal temperature.

How Can You Achieve Energy Efficiency When Using Heating Air Con?

To achieve energy efficiency when using heating air conditioning, you should maintain an optimal temperature setting, utilize programmable thermostats, improve insulation, conduct regular maintenance, and choose energy-efficient units.

Maintaining an optimal temperature setting: Setting your heating air conditioning unit to a moderate temperature can save energy. The U.S. Department of Energy recommends setting the thermostat between 68°F (20°C) and 70°F (21°C) during winter months. Each degree lower than this setting can save 3% on heating costs.

Utilizing programmable thermostats: Programmable thermostats automatically adjust the temperature based on your schedule. A study by the U.S. Environmental Protection Agency (EPA) in 2021 found that households using programmable thermostats can save up to 10-20% on heating bills annually.

Improving insulation: Proper insulation in walls, attics, and floors maintains temperature. The EPA notes that homes lacking insulation can lose 20-30% of heat. Upgrading insulation can significantly reduce heating costs and improve energy efficiency.

Conducting regular maintenance: Regular maintenance of your heating air conditioning system helps it run efficiently. The American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) recommends tasks such as cleaning or replacing filters monthly and having professional inspections biannually to ensure optimal performance.

Choosing energy-efficient units: Selecting Energy Star-rated heating air conditioning units guarantees better energy efficiency. According to the Energy Star program, these units can save up to 30% in energy costs compared to standard models.

By implementing these strategies, you can enhance energy efficiency when using heating air conditioning systems.

What Impact Does the Outdoor Temperature Have on Your Heating Air Con Settings?

Outdoor temperature significantly impacts your heating and air conditioning settings. Warmer outdoor temperatures typically require less heating, while colder temperatures necessitate increased heating to maintain indoor comfort.

  1. Impact of Outdoor Temperature on Heating Settings
  2. Influence of Outdoor Temperature on Air Conditioning Settings
  3. Energy Efficiency Considerations
  4. Seasonal Adjustments and Preferences
  5. User Behavior and Individual Preferences

The following sections provide detailed explanations for each point.

  1. Impact of Outdoor Temperature on Heating Settings: The impact of outdoor temperature on heating settings is noticeable. When outdoor temperatures drop, the heating system must work harder to maintain a comfortable indoor environment. The U.S. Department of Energy suggests keeping thermostats set to 68°F (20°C) during the day in winter. This setting can help balance comfort and energy use. For every degree lower than this, energy expenditure may increase by about 1%.

  2. Influence of Outdoor Temperature on Air Conditioning Settings: The influence of outdoor temperature on air conditioning settings is equally critical. Higher outdoor temperatures often lead to increased cooling demands. According to the Energy Information Administration, air conditioning systems perform less efficiently in extreme heat, requiring adjustments in thermostat settings to avoid overworking. A common recommendation is to set indoor temperatures 5 to 10 degrees higher than outside when feasible, to save energy.

  3. Energy Efficiency Considerations: Energy efficiency considerations involve analyzing how outdoor temperatures impact heating and cooling efficiency. Systems that run inefficiently can lead to higher energy bills. The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) advises regular maintenance and monitoring of system performance for optimal efficiency in varying temperatures. Utilizing programmable thermostats can automate adjustments based on predicted temperatures, enhancing energy savings.

  4. Seasonal Adjustments and Preferences: Seasonal adjustments and personal preferences play a role in how outdoor temperatures affect indoor climate control. Individuals may prefer different indoor settings based on seasonal changes, with some people comfortable in cooler environments during summer months. The Environmental Protection Agency (EPA) encourages homeowners to consider both personal comfort and energy-saving strategies when adjusting settings seasonally.

  5. User Behavior and Individual Preferences: User behavior and individual preferences also affect heating and cooling settings based on outdoor temperature. For instance, some people might prioritize comfort over energy savings, leading to higher energy usage. A study conducted by the Lawrence Berkeley National Laboratory found that users often set their thermostats higher during winter because of individual comfort thresholds. Understanding personal habits can inform better energy management practices.

By considering these aspects, individuals can make informed decisions about their heating and air conditioning settings, adjusting them in response to outdoor temperature changes.

What Key Factors Should Influence Your Heating Air Con Temperature Choices?

The key factors that should influence your heating and air conditioning temperature choices include comfort, energy efficiency, health considerations, environmental impact, and cost.

  1. Comfort
  2. Energy Efficiency
  3. Health Considerations
  4. Environmental Impact
  5. Cost

Understanding these factors can significantly enhance the effectiveness and efficiency of your heating and air conditioning system.

  1. Comfort: Comfort refers to the subjective experience of warmth or coolness in your living space. The ideal temperature for comfort often varies by individual preference. Generally, a winter setting of around 68°F (20°C) is recommended. According to the U.S. Department of Energy, maintaining this temperature can improve comfort without significantly increasing energy usage. Different rooms may require different temperatures, as areas like bedrooms may benefit from cooler settings, while living spaces might be more comfortable warmer.

  2. Energy Efficiency: Energy efficiency measures how effectively your heating and air conditioning systems use energy to maintain the desired temperature. The Energy Star program suggests setting your thermostat to 78°F (26°C) in summer and 68°F (20°C) in winter for optimal efficiency. Research from the Lawrence Berkeley National Laboratory indicates that minor adjustments to your thermostat can lead to significant energy savings. This focus on energy efficiency is crucial as it reduces your carbon footprint and lowers utility bills.

  3. Health Considerations: Health considerations include the effects of indoor air quality and temperature on your well-being. For example, excessively dry air can lead to respiratory issues and discomfort. The World Health Organization states that maintaining indoor humidity levels between 30-50% can improve health outcomes. In winter, setting temperatures too low can exacerbate issues like hypothermia, especially in vulnerable populations, underscoring the importance of indoor climate control for health.

  4. Environmental Impact: Environmental impact refers to the ecological consequences of your energy usage. Higher temperatures in the winter and lower in summer can lead to increased energy consumption. According to the Global Carbon Project, reducing indoor heating and cooling temperature settings can significantly decrease greenhouse gas emissions. Many consumers now choose energy-efficient systems or alternative energy sources, such as solar panels, to mitigate their environmental footprint.

  5. Cost: Cost reflects both the upfront investment and ongoing expenses related to heating and air conditioning. Initial costs vary significantly among systems, such as traditional HVAC versus more modern heat pumps. The American Council for an Energy-Efficient Economy suggests looking at lifecycle costs, which include installation, maintenance, and energy consumption. By understanding the cost implications, you can make informed decisions that balance comfort and budget effectively.

What Are the Benefits of Maintaining Optimal Heating Air Con Temperatures?

Maintaining optimal heating and air conditioning (AC) temperatures offers various benefits for comfort, energy efficiency, and health.

  1. Enhanced Comfort
  2. Improved Indoor Air Quality
  3. Energy Efficiency
  4. Cost Savings
  5. Prolonged Equipment Lifespan
  6. Health Benefits
  7. Environmental Impact

Maintaining optimal heating and AC temperatures positively affects comfort and efficiency. These benefits are often interconnected and can influence various aspects of daily living.

  1. Enhanced Comfort:
    Maintaining optimal heating and AC temperatures enhances comfort levels within living spaces. Comfortable indoor temperatures contribute to a pleasant environment for activities such as working, relaxing, and entertaining. The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) recommends maintaining average temperatures between 68°F and 72°F (20°C to 22°C) for comfort.

  2. Improved Indoor Air Quality:
    Optimal temperatures improve indoor air quality by reducing humidity levels. High humidity can promote mold growth and dust mites, which negatively affect health. A study by the American Lung Association found that maintaining relative humidity under 50% helps prevent respiratory issues.

  3. Energy Efficiency:
    Maintaining optimal temperatures enhances energy efficiency in heating and cooling systems. According to the U.S. Department of Energy, setting the thermostat just one degree lower in winter or higher in summer can save about 1% on energy costs. Efficient systems reduce energy consumption, leading to a smaller carbon footprint.

  4. Cost Savings:
    Cost savings are a significant benefit of maintaining optimal heating and AC temperatures. Proper thermostat settings can lower utility bills without sacrificing comfort. Energy Star reports that homeowners can save up to 30% on heating and cooling costs through efficient practices.

  5. Prolonged Equipment Lifespan:
    Maintaining optimal temperatures promotes prolonged equipment lifespan. When heating and cooling systems operate effectively, wear and tear reduces. For instance, a study by the Air Conditioning, Heating, and Refrigeration Institute (AHRI) found that regular maintenance could extend system life by up to 15 years.

  6. Health Benefits:
    Optimal temperatures offer health benefits by reducing the risk of heat-related illnesses and cold-induced stress. The Centers for Disease Control and Prevention (CDC) emphasizes the importance of maintaining indoor temperatures to avoid health risks, particularly among vulnerable populations like children and the elderly.

  7. Environmental Impact:
    Optimal heating and air conditioning temperatures can have a positive environmental impact. Energy-efficient systems produce less greenhouse gas emissions. According to the Environmental Protection Agency (EPA), homes that utilize energy-efficient heating and cooling systems contribute to lower overall emissions, promoting sustainability.

What Common Mistakes Should You Avoid When Setting Your Heating Air Con Temperature?

Common mistakes to avoid when setting your heating and air conditioning (AC) temperature include several key factors that can lead to inefficiencies and discomfort.

  1. Setting extreme temperatures
  2. Ignoring outdoor weather conditions
  3. Neglecting regular maintenance
  4. Failing to use programmable thermostats
  5. Overlooking air filtration quality
  6. Not considering room occupancy
  7. Relying solely on one system
  8. Ignoring humidity levels

Recognizing these issues helps to ensure optimal comfort and energy efficiency when using heating and air conditioning systems.

  1. Setting Extreme Temperatures:
    Setting extreme temperatures can strain your heating or cooling system. For example, setting the thermostat to 60°F in winter or 85°F in summer is not efficient. These extremes force the system to work harder, increasing energy consumption and costs. The U.S. Department of Energy recommends a setting of 68°F in winter and 78°F in summer for balance in energy savings and comfort.

  2. Ignoring Outdoor Weather Conditions:
    Ignoring outdoor weather conditions often leads to inappropriate temperature settings. If it’s unseasonably warm or cold outside, relying solely on the thermostat may not be wise. For example, during a heat wave, slightly adjusting the air conditioning can prevent overwork and ensure comfort. Monitoring local forecasts helps adjust settings accordingly.

  3. Neglecting Regular Maintenance:
    Neglecting regular maintenance is a common mistake that impacts efficiency. Dirty filters can block airflow and hinder system performance. According to the U.S. Environmental Protection Agency (EPA), regular maintenance, including replacing filters every 1-3 months, boosts system longevity and efficiency.

  4. Failing to Use Programmable Thermostats:
    Failing to use programmable thermostats leads to inefficient heating and cooling schedules. Programmable thermostats allow users to set different temperatures throughout the day. This technology can save up to 10% on energy bills according to the EPA.

  5. Overlooking Air Filtration Quality:
    Overlooking air filtration quality can degrade indoor air quality. Poorly maintained filters can circulate dust and allergens, affecting health and comfort. The American Lung Association states that clean air filters help systems work more efficiently, resulting in better indoor air quality.

  6. Not Considering Room Occupancy:
    Not considering room occupancy can lead to unnecessary energy use. Heating or cooling empty rooms wastes resources. Using zoning systems or shutting vents in unoccupied spaces can greatly improve efficiency and save on bills.

  7. Relying Solely on One System:
    Relying solely on one system, such as only heating or cooling, can lead to discomfort. It’s essential to use both systems appropriately based on seasonal changes. A balanced approach ensures comprehensive climate control throughout the year.

  8. Ignoring Humidity Levels:
    Ignoring humidity levels can affect comfort and system performance. High humidity in summer makes the air feel warmer, while low humidity in winter may lead to dry skin and respiratory issues. The EPA suggests maintaining indoor humidity levels between 30%-50% for optimal comfort and health.

By understanding and addressing these common mistakes, users can significantly enhance their climate control experience.

How Can You Adjust Your Heating Air Con for Seasonal Changes?

To adjust your heating and air conditioning (HVAC) system for seasonal changes, you can change the thermostat settings, check and replace filters, and implement zoning controls for different areas in your home.

  1. Adjust thermostat settings:
    – During winter, set your thermostat to around 68°F (20°C) for comfort while conserving energy (U.S. Department of Energy, 2022).
    – In summer, raise the thermostat to about 78°F (26°C). This temperature balances comfort with energy efficiency.

  2. Check and replace filters:
    – Dirty filters hinder airflow and reduce efficiency. According to the U.S. Environmental Protection Agency (2021), replacing or cleaning HVAC filters can improve efficiency by 15% or more.
    – It’s recommended to check filters monthly and replace them every 1-3 months depending on usage and filter type.

  3. Implement zoning controls:
    – Zoning systems allow you to control temperatures in different areas of your home, providing comfort where needed.
    – This can be especially useful in homes with varying sunlight exposure, where some rooms may heat up faster than others.

  4. Schedule regular maintenance:
    – Annual HVAC maintenance can ensure optimal operation. Equipment that is well-maintained can operate up to 15% more efficiently (Energy Star, 2023).
    – Technicians can clean components, check refrigerant levels, and ensure thermostat calibration.

  5. Seal leaks and improve insulation:
    – Ensure windows and doors are sealed properly to prevent drafts. A study by the Lawrence Berkeley National Laboratory (2018) found that insulation upgrades can reduce heating and cooling costs by 10-50%.
    – Consider adding insulation in attics and walls to maintain consistent indoor temperatures.

By applying these steps, you can effectively adjust your HVAC system for seasonal changes, maintaining comfort and energy efficiency in your home.

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