Kelvinator Residential 3-Ton 14-SEER Central Air Conditioner ENERGY STAR Item # 577361 Model # JS4BE-036KA Composite base pan absorbs sound and is corrosion-resistant and stronger and lighter than steel Durable, attractive cabinet design using galvanized steel with polyester urethane finish Micro-channel coils in all model which provides high corrosion resistance and comes with field installed TXV Easy compressor and control access designed to make servicing easier for the contractor, access panels are provided to all controls and compressor from the side of the unit Permanently lubricated, heavy-duty PSC motor for long-lasting reliability and quiet operation; requires no maintenance and is completely protected from rain and snow High-pressure switch protects against abnormal high system pressures The 950 hour salt spray finish is 1.5mill thick and resists corrosion 50% better than comparable Auto-reset feature prevents nuisance service visits

Use and Care Guide Vireo 36,000 BTU 3 Ton Ductless Mini Split Air Conditioner and Heat Pump Kit - 208-230V/60Hz Ductless mini-split system that is energy saving and quiet The Vireo line brings dramatic new performance and style to every room. Never before has it been so easy to maintain constant indoor comfort, no matter the outdoor conditions. Vireo has you covered with a multitude of features that help you live well and stay comfortable, all controlled easily – either with the wireless infrared remote controller or optional Wired Tether controller. With the advanced I FEEL mode, Vireo senses the temperature surrounding the remote controller, then adjusts air flow and temperature accordingly to create maximum comfort in all the right places. In heating mode, the system guards against bothersome chills with its intelligent pre-heating feature which delays the fan until the coil has warmed up to keep it from blowing cold air into the room. With four different fan speeds for maximum comfort and whisper quiet operation, you won’t even notice how hard Vireo is working to keep you comfortable.

Complete system: includes indoor wall unit, outdoor compressor unit, 15 ft. insulated line set, 20 ft. drain line, drain line adapter, wall sleeve, and remote controlsplit unit ac maintenance 33,600 BTU cooling and 34,600 BTU heating for powerful temperature controlge in wall ac units 4 speed fan for maximum comfortcost of moving hvac unit Designed for whisper quiet operation with indoor sound levels as low as 26 dB for peaceful comfort Slim compact design hangs inconspicuously on the wall and mixes well with most interior designs 4-way adjustable swing louvers can direct the airflow anywhere it is needed in the room Gold fin condenser coating to prevent rust and extend the life of the unit Automatically returns to last operating mode after a power failure

This question is from Vireo 36,000 BTU 3 Ton Ductless Mini Split Air Conditioner and Heat Pump Kit - 208-230V/60Hz2 How many seer is this unit This question is from Vireo 36,000 BTU 3 Ton Ductless Mini Split Air Conditioner and Heat Pump Kit - 208-230V/60Hz2 Does it also have dehumidifier mode? This question is from Vireo 36,000 BTU 3 Ton Ductless Mini Split Air Conditioner and Heat Pump Kit - 208-230V/60Hz0 What is the operating temperature range 3 Ton Rheem 14 SEER R410A Air Conditioner Split System Condenser Model # RA1436AJ1NAAir Handler Model # RH1P3017STANJA -- Please Select --No Heat Strip 5 Kilowatt +$79.008 Kilowatt +$89.0010 Kilowatt +$97.0015 Kilowatt +$136.00 3/8" & 3/4" Copper Refrigerant Line SetYou don't have permission to access /viewproduct.cfm?productid=453061932Report item - opens in a new window or tab Sep 08, 2016 09:38:20 PDT Visit my eBay store Sign up for newsletter 24volt TransformersAir HandlersArmaflexCapacitorsCommercial SystemsCondensate PumpsCondensersContactorsControl Boards/Circuit Boards/Copper Fittings and TubingCopper Linesets & Copper TubeDuct KnivesFilter DrierFilter RacksFlex -Insulated Flexible DuctFloat/Overflow Safety SwitchesGas Furnace AccessoriesGas Furnace Complete SystemsGoodman/Amana Heat stripsGrillsHard Start-Kick StartHeat Pump Split Systems Heat StripsInstallers ToolsKool KapsMETAL collars tabs,dampers etcMINI SPLIT DUCTLESSMotorsPackage UnitsPARTS-OEM

Mon. Oct. 3 and Mon. Oct. 17 * Estimated delivery dates- opens in a new window or tab include seller's handling time, origin ZIP Code, destination ZIP Code and time of acceptance and will depend on shipping service selected and receipt of cleared payment- opens in a new window or tab. Delivery times may vary, especially during peak periods. Will usually ship within 1 business day of receiving cleared payment - opens in a new window or tab. Interest will be charged on your account from the posting date (which is usually within a few days after the purchase date) if the purchase balance is not paid in full within the promotional period. Subject to credit approval. See terms - opens in a new window or tab Bought this unit, installed it and it exceeded my expectations, thermostat was faulty but they sent a replacement the same day, the ac to DC transformer went bad 3 weeks after installation, replacement is on its way with no questions asked, I will be buying another unit from them for my shop very soon, dont waste your time or money on someone else

, this company cares about you, not your money Copper tube/aluminum fin coil Brass liquid & suction line valves Single-speed condenser fan motorOne of the most common downfalls of installed HVAC systems is their inability to distribute the correct amount of air to where it’s needed most. When systems are restrictive, or blowers aren’t powerful enough, the air simply doesn’t make it to where it needs to go. This issue commonly manifests in the form of comfort complaints.  In addition, most systems suffer from low air flow, only delivering a fraction of what they should. This can also mean that the capacity of a system is much less than what it should be. If it’s only moving 75% of the air, it can only deliver, at best, 75% of the rated capacity. This means that it will run longer in order to satisfy the load, costing more in operating costs. A good HVAC system begins with the selection of a good piece of equipment. The unit selected must have the ability to push the amount of air that your building needs.

The blower, and its abilities, is of the utmost importance to the success of an HVAC system, as our ductwork sizing is largely dependent upon the specifications of the blower found within the furnace or fan coil unit. There are two general types of blowers that you’ll see: The difference between the two becomes obvious when looking at their airflow tables (see below). The OP blower will have a decrease in airflow as static pressure increases. The OR blower, however, will maintain the same (or close to the same) airflow over a range of static pressure. It achieves this by adjusting its rotating speed to “match” the resistance it has to work against. The static pressure shouldn’t actually change that much after your system is installed. (As filters get dirty, their static drop will increase. The amount of increase will vary depending on how much air you’re trying to move through the filter. This is why it’s a good idea to oversize filters.) So, don’t get the wrong idea from my statement above, “as static pressure increases.”

Part of the HVAC design process involves the selection of the static pressure at which the design will be based. The idea here is that we select the destination point, or “design static,” and then design our system so we arrive on target. That said, you’ll notice that there are more static pressure options from which to choose if you’re using an OR blower. It’s also important to understand that an operating-range blower has to consume more energy to rotate faster in order to overcome the additional static pressure. There is a price to pay, so to speak, for achieving your desired airflow at a high static pressure. When using an operating-point (OP) blower, your budget is etched in stone. You have one static pressure option, per blower speed setting, that corresponds to one airflow quantity. When you overspend your OP static budget, your airflow decreases, along with capacity, efficiency, and durability. So, the OP blower ASP selection process is dictated by the quantity of airflow you need, along with the blower speed you choose to design with.

This chart shows the blower details for a 1.5-ton fan-coil unit. Notice that there are 5 different speed settings: 1-5. If our goal was to have 600cfm moving through the system, we would have only two operating-point options. The first option would be to set the blower speed to Med High #4, and design the duct system to create a total external static pressure (TESP) of approximately 0.65 IWC. This would allow our blower to move the 600 cfm we need (interpolate between the 0.60 and 0.70 columns). The other option would be to set the blower on the High #5 speed setting, while creating a TESP that is off this chart – probably somewhere in the 1+ range. Since the data isn’t listed, this would be a risky route to take. So, we’d be left with only one option. Our available static would be 0.65 IWC. When using an operating-range blower, the ASP selection process is a little different. You actually get to select it from the range of static pressures listed on the blower’s airflow chart.

You’ll see that there’s a limit to the OR blower’s ability to fight against high static pressure. At some point, typically around 0.75 IWC (inches of water column), the airflow will begin to drop off, which may be below your desired airflow. Manual-D recommends that you stay away from the “top-third” of a blower’s ASP range listed by the manufacturer. My real world recommendation is to choose the lowest ASP that you possibly can, typically between 0.50-0.75 IWC. After you lay out the ducts, fittings, and components, you can adjust your ASP until your FR is within the acceptable range. Sometimes, you’ll find that you may need to use a larger piece of machinery in order to find a blower that is strong enough for your needs. I frequently run into this when trying to use small furnaces (40kbtu) that have large cooling loads (2.5 tons, for instance). It is difficult to find a 40kbtu furnace that can move 1000 cfm at a reasonably high static. This chart shows the blower details for a 120,000btu furnace.

This unit has a variable speed motor that operates in an operating-range configuration. For each combination of ON/OFF switching displayed, the blower will deliver a different amount of airflow based on the TESP listed at the top of the chart. If we had a 3-ton air conditioner attached to this system, we would want to deliver about 1200cfm of air through the system. We would select the ON, OFF, OFF option, combined with the SW4-3 option shown in the footnote. This would enable us to deliver an airflow quantity just shy of 1200cfm. When choosing the ASP for our Friction Rate calculation, we’d be able to choose any of the static pressures shown, as long as the associated airflow would meet your system’s needs, since the blower will adjust its speed accordingly. The thing you must keep in mind is that high static = high energy use, because the blower is working harder. This may also decrease the blower’s life expectancy. My suggestion is that you start off with 0.50 IWC, adjusting upward as needed until your Friction Rate is within the appropriate range.