Saving Money and Time - Bypass your Refrigerator Water Filter with a Simple Kitchen Filter System

There were a few problems here that I wanted to solve. We've become addicted to carbonating our own water - and eliminating the trips to the store and the wasted empty bottles from purchasing carbonated water. We bought a name brand carbonator - and really enjoy it except for two things. The cost of the CO2 refills, and the time it took to refill the carbonating bottle from the carbon filtered fridge water outlet (about 1 1/2 to 2 minutes each time). Our only water filter was in the refrigerator, an expensive model that cost about $50 to replace and needed replacement about every 6 months. The refrigerator had a coil of 5/16 plastic tubing to cool the water - and a 1/4" copper feed line running across the kitchen, about 20' of line. By the time the water reached the fridge and crossed the water filter, we had significant pressure drop and slow flow out of the fridge.

Whole House 10" Filter Upgrade - For Kitchen Sink Cold Water, and line to Refrigerator

I looked at ways to upgrade the fridge system - increasing the size of the feed line, increasing the size of the lines in the fridge - and realized this would be just too big of a retrofit, and would take too long. So - I decided to install a 10" whole house water filter housing under our kitchen sink - and filter all the cold water going just to the kitchen sink and refrigerator. I would install the carbon block filter there under the sink, and remove and bypass the carbon block filter in the refrigerator.

Ready to drill the hole in the countertop to run the CO2 line to the carbonator. 

 I've solved the cost of the replacement CO2 cartridges by purchasing a 20lb CO2 bottle and an adapter hose compatible with my carbonator. Works great, now I'm refilling the 20lb tank about every 6 months, instead of small CO2 bottles every 2 or 3 weeks. I wanted to hide the CO2 tank under the sink - so I needed to drill a hole in the Quartz countertop. I purchased a diamond tipped hole saw for this purpose - drilling the hole was real easy and took only about 15 minutes.

The only tool I had to purchase - a small diamond tipped hole saw. Decided to get a good one.

Drilling the hole in the countertop - the red colour is from the paint coming off the hole saw.

After photo - paint removed from the hole saw

Nice clean hole in the quartz countertop

 Now - onto the water filter installation. I purchased a Dupont branded 10" whole house water filter housing online. I purchased threaded brass PEX tubing adapters to screw into the head of the water filter to be able to make the cold water connections. I installed 4 small ball valves to be able to completely bypass the water filter in case of a problem, or while changing filters. Redoing the PEX water piping was the longest part of the job, took me a Saturday morning to do, combined with re-routing my sink drains (that's another story).

Plumbing the new water filter under the kitchen sink. I've removed the double sink drain pipes to give myself some room

 Cold water runs through the single 10" filter - I have nice clean municipal water feeding the house so all I needed is a single carbon block filter. If you're water isn't clean - well water or otherwise - you may need a second particle filter upstream of the carbon filter. The only consumers downstream of my water filter are my kitchen sink, and the refrigerator. So now - to refill water bottles for carbonation, I can refill from the kitchen sink to have carbon filtered water without any Chlorine taste, and it only takes about 10 seconds to refill a bottle. The carbonator is right behind the sink - so very quick and efficient.

The completed water filter installation - complete with a full bypass line in case I need to take the filter out of the circuit

20lb CO2 tank underneath the sink located next to the water filter.

Bypassing the water filter in the refrigerator was very easy. For my refrigerator, all I needed to do was to remove the water filter - there is an automatic bypass valve inside the refrigerator that bypasses the water flow when the filter is removed. Now - filling a glass of water from the refrigerator is about twice as fast with the water filter removed - since the pressure drop across the filter is gone.

All in all - very happy with this upgrade. Great tasting water without waiting around for water to get out of the refrigerator outlet. Let me know if you have any questions.

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I hope you found this post useful. Feel free to ask questions in the comments section below. I answer all questions.

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2017 Subaru Outback Oil Drain Plug Head Rounded - First Oil Change

This seems to be a common problem - first oil change on a late model Subaru 2.5L engine - and the oil pan drain plug head gets rounded by your socket and you can't remove the drain plug. So - what to do? Trip to the dealer? I've been changing my own oil for many years - first time this has happenned to me. I decided to purchase a set of bolt extractors and sort it out myself. Here's how it went.

14mm Hex Head on the Drain Plug - Just rounded enough to make it impossible to remove

 I purchased a slightly used 2017 Outback with 17,000 km - lease return. At 25,000km I went to do my first oil change. The dealer had informed me that they had changed the oil at the lease return. When I went to remove the drain plug - I didn't lift the car because I thought I'd be able to spin it off with the car sitting on the ground (as I had done many times with my 2006 Outback - it sits high enough off the ground that you can slide the pan underneath and not have to lift the car to change the oil). This time it went differently - with the drain plug at an angle, and recessed slightly below the aerodynamic underbody cover - it's quite awkward to get a socket on the drain plug and apply the torque at an angle. It would be much easier with the drain plug oriented vertically. One bad move and I rounded the head.

Another view - Drain Plug accessible through a small access port, sits on an angle

 So - I put everything away, got online and ordered a set of chinesium bolt extractors. I've never tried these before, so this was an experiment for me. Using a ball pien hammer, I tapped the 14mm extractor onto the drain plug so that it was well seated, then popped on a short extension and used my Dewalt 3/8" impact gun which can generate about 100 ft-lbs of torque - and nothing moved - at all. I was stunned - 100 ft-lb of torque on a drain plug? Clearly not normal.

Dewalt 1/2" Drive Impact, 21mm deep socket, 14mm bolt extractor, and the drain plug in question

So - I pulled out the Dewalt 1/2" impact which can generate 400 ft-lbs of torque - and a 21mm deep impact socket to be able to fit over the extractor (instead of using the 3/8 socket drive square) and leaned on it. After about 15 seconds, the drain plug broke free and loosened, with no damage to the oil pan. The bolt extractor was hot to the touch from the impact force. The drain plug was well grooved from the force of the bolt extractor.

Check out the grooves on this drain plug head. Exctractor worked like a charm.

I installed a new Dorman replacement drain plug - with a larger hex head - and completed the oil change.

Bit of a mess - An angled drain plug will shoot your oil about 2 feet sideways

So - what do I think about this? Drain plug with small head - should be larger - like 19mm for a 16mm bolt size so that you can get a tool on the drain plug. Soft metal and the paint interferes with good contact with your socket. This plug should definitely be re-specified. The plug installed on an angle - shooting oil sideways? Brutal - plug should be installed vertically on the pan. I don't know if the dealer ever actually changed the oil - have sent the oil out for analysis to get an opinion on that. If you're in the same situation - up to you to decide what to do - take it to a dealer or extract the plug yourself. In my case - it worked out okay. Let me know if you have any questions.

In case you're wondering, the new drain plug is a Dorman 65325 - M16-1.50 threads. Nice piece with 17mm hex head - 3mm larger than the stock drain plug.

Dorman 65325 Oil Drain Plug

Update - December 2019:

6 months have gone by, did my second oil change. Drain plug spun off normally, no problem at all, oil change completed in 30 minutes. Definitely a manufacturing defect with the way the drain plug was delivered from the factory. Blackstone Labs oil analysis came back on the first oil change - they did not think that the oil had not been changed as described by the dealer - which was good news. It also meant that they must have sucked the oil oil out of the dipstick tube. FWIW.

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I hope you found this post useful. Feel free to ask questions in the comments section below. I answer all questions. If you're interested, you can help support this site by using the following links to Amazon.com in the United States.

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Installing the Skybell Trim Plus Video Doorbell - Nutone Intercom Retrofit

When I moved into my current house, it had a vintage central intercom system, with yellowed plastic intdoor speakers, yellowed plastic outdoor speakers, and an archaic esthetic. We immediately pulled out the system components, drywalled over the cutouts in the interior walls, and I was left with two very ugly metal boxes in the brick at my front and back door.

Skybell Trim Line Video Doorbell on a custom made Aluminum Adapter Plate

A bit of research lead me to the Wifi enabled video doorbells - very simple, they connect to your Wifi router, and ring your smartphone and interior door chime whenever someone rings at the door, and provides live video of the person at the door. In addition, you can use the internal speaker and microphone to speak with the person at your door - even from a distance away from your home.

Vintage Nutone Door Speaker and Connection Box - Don't forget to cut the power to your doorbell circuit before working with these wires.Unscrew, Remove the Wires

A Nutone Intercom Connection Box is 4 3/8" Wide and made of Steel

A Nutone Intercom Connection Box is 5 7/8" Tall

A Nutone Intercom Connection Box has "Model IR-6" Stamped on the right side of the Box

The first step was removing the old Nutone intercom speaker. 2 screws, and I took note that the orange pair of wires in my installation was used for the 17VAC doorbell switch circuit. By connecting the SkyBell Trim Plus Video Doorbell to your existing doorbell switch wires powered by an internal transformer, the SkyBell will keep itself charged, and pressing the button on the SkyBell will sound the doorbell in your house. Something to note here however - the SkyBell will not ring the door chime if you have kept your indoor intercom speaker system - you also have to retrofit a normal door chime in your house.

I started by making a blank cover plate to fit over the old intercom connection box, countersinking the holes for the screws for a neat installation using a metal punch.

The SkyBell is smaller and more compact than the Nutone Speaker unit. This caused an issue in my installation because the Nutone was installed in a custom installation box - set into my masonry. I decided to create an aluminum cover plate to hide the old box, and create a flat surface for installing the SkyBell.

Checking the mounting hole spacing for the Skybell baseplate.

The SkyBell adapter plate is smaller than the Nutone Speaker installation Box, so an adapter plate is required. I cut a rectangle 4 3/8" wide by 5 7/8" tall to cover the old Nutone connection box in the wall. (UPDATE - I now have some of these aluminum plates for sale on eBay in various colors due to popular request from this blog posting - at this link to eBay item number 183701542848.)

Completed plate - countersunk holes for mounting to the intercom wall box, holes to mount the Skybell to the plate, and grommet placed to fit directly under the grommet hole for the video doorbell mounting plate

From this point it was relatively simple to install the SkyBell. Just clip the Skybell onto the SkyBell installation plate, snap down and tighten the hold down screw at the bottom of the doorbell.

Baseplate, adapter plate, doorbell

Now that all was installed, it was time to reconnect the power to the SkyBell by turning the breaker back on for the doorbell transformer. Once you reconnect power, the SkyBell will flash various color codes to communicate what it's doing. Now is the time to install the SkyBell app on your smartphone, and run through the Wifi configuration sequence. That's pretty simple, just follow the sequence on your app until all is installed.

Screenshot of the Skybell HD Wifi Video Doorbell Setup Procedure on an iPhone

Screenshot of a video call to the Skybell HD video doorbell installed at the side door of the house. Impressive angle of view and picture quality.

Once configured, you can test the doorbell button. You normal doorbell should sound inside the house, plus you'll hear the distinctive chime of the SkyBell Trim Plus Video Doorbell. Some have complained that the SkyBell may have a hard time reaching a good wifi signal when installed at your front door - this hasn't been the case in my installation - I've got a great signal.

With the SkyBell app installed on your smartphone and/or tablet- ringing the SkyBell doorbell switch initiates a video call with your smartphone or tablet. On the smartphone you get a notification on the home screen, and the video application launches so that you can see who is at your front door. You can decide whether to accept or reject a call to talk to whoever is at the front door - and this feature is available anywhere you have internet connection with your smartphone or tablet. Very cool.

I also have a Ring Video Doorbell installed at the front of the house, and have tried out a few different Ring Video Doorbell models. If I get a bit of spare time, I'll do a quick post comparing the various. Wifi doorbells that I've tested. Feel free to leave a comment below if you have any questions.

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Filtering Pollen from Air Exchanger Intake Duct

My son has Asthma, and it's aggravated by seasonal allergies. We've taken steps to limit allergens from entering the house - we keep the windows closed most of the time, we've sealed air leaks and we've added a mechanical air exchanger with heat recovery. I wanted to improve the filtration of incoming air to try to ensure we're removing pollen and other potential irritants. I decided to to add supplemental filtration of the air exchanger intake duct.

Fantech FB6 Inline Filter Box - Designed for 6" Round Duct

This is a fairly simple project. Find a location on your incoming air duct where you can remove approximately 26" of the round duct, and mount the steel filter box. Ideally, locate the filter box close to your other air handling equipment, so that it is easily accessible for filter changes during routine servicing. The specifications of the FB6 are as follows, check to see if these are appropriate for your installation or if you require a different size.

• Airflows up to 176 cfm

• 6" diameter plastic duct connections

• Beige powder coated

• Neoprene door seal

• Access door removed with thumb screws

• Weight - 10.6 lbs

• Filter compartment dimensions - 19 1/2 x 10 x 8

• Filter size - 20 x 10 x 1"

Filter Box located close to HRV to simplify servicing and filter changes

One thing to note about this filter box is that it's not insulated, so if you're operating this in cold climates, you'll get condensation on the box. In my case, I wasn't too concerned about this because the box is located above a concrete floor in the utility room, about 24" from the floor drain. I've considered insulating the box, but haven't gotten to that because the condensation doesn't cause too much of a problem.

Data Plate on the Filter Box

Once I installed the external filter box, I removed the smaller incoming air filter from the air exchanger, because there is no need to filter the air twice. You can select your level of filtration depending on your needs, in my case I'm using MERV 11 filters which I find is a good balance between filtration and pressure drop. I also want to maximize the airflow, because my air exchanger is a bit undersized for the size of my home.

Conclusion

Works fine, condensation on the box doesn't cause any problems in my installation, and I can tell the filtration is working well by the amount of crud the filter pulls out of the air. I change filters four times a year. 

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I hope you found this post useful. Feel free to ask questions in the comments section below. I answer all questions. If you're interested, you can help support this site by using the following links to Amazon.com in the United States.

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BMW E61 Turbo Replacement - Pulling the N54, and Stripping the Engine

Once all the electrical and plumbing was out of the way, and the exhaust, heat shields, driveshafts and drive axles removed, it was time to pull the engine. I initially planned to leave the transmission in the car, but a leaking rear transaxle seal made me decide to pull it out with the motor. We hooked up the engine hoist to a load balancing beam so that we could easily change the lift point with respect to the center of gravity. This ended up working very well, and was essential when pulling the transmission with the engine. 

Starting the lift - this is as far as you can go without lowering the steering gear and engine support crossmember

One we started lifting, we quickly realized that the X-Drive front differential would not clear the steering box of the steering gear with the lower crossmember in the car. As soon as we dropped the crossmember - the engine and transmission popped forward without much effort.

Engine and transmission out of the car - complete with front differential and transaxle. Heavy combination.

Next step was to separate the engine from the transmission. We were having difficulty with this - and thought that we had left a bolt in - which ended up being the case. We actually snapped one of the aluminum bolts clean in the engine - the head was hidden behind a gusset on the side of the transmission - we didn't see it with the transmission resting close to the floor. This ended up not being an issue - as all these bolts need to be replaced anyway, and the broken bolt backed easily out of the hole - no problem extracting.

Transmission on a dolly with castors, steering rack and crossmember on the ground.

Beer time.

First order of business before putting the engine on the engine stand was to remove the rear crankshaft oil seal. I thought this had been leaking, but it turns out it was still sealing well at 185,000 km. I bought the new seal and will replace the seal anyway. You can see oil coming down from the top right of the head through the gap between the engine and the bellhousing - this oil was coming from the area of the rear turbo.  

This seal pops out easily with the assistance of a couple of screws drilled into the seal. 

Claw hammer to remove the seal using the screws

Old oil seal - oil grooves are still in reasonable condition. Will replace anyway.

Since all the fasteners on the block are going into aluminum, and my torque wrenches are about 25 years old - I decided to check and calibrate the torque wrenches before I took down my engine crane. I just clamped a small vice to the arm of the crane, and held the socket of the torque wrench in the vise. I then loaded the torque wrench using a 5 gallon bucket of water and steel weight - adding water until the torque wrench would click. I would then measure the weight of the bucket, and apply the factor of length to come up with the actual torque. My 1/2 torque wrench recalibrated nicely with a small adjustment, and I'm within about 2% of torque. My small 3/8 torque wrench seems to have lost it's linearity across the internal spring - I could not get it to 5% across the measurement range and discarded the wrench. Quick order to Amazon to get the Tekton 3/8 clicker torque wrench to get me through the job. 

 This morning I got onto removing the turbos from the block. This went pretty quickly without much hassle. One thing that I've noted with this whole process however - is that it's really handy to have a few different sets of torx and e-torx bits - because sometimes you need a long bit, sometimes you need a small short bit, just to fit into the limited spaces where you're working.

Short 1/4" drive torx bits to get into tight spaces. 

Long torx to get at the manifold bolts. 

 It took about 2 hours to strip everything off the right hand side of the engine, including the bearing support for the front right drive axle, and the differential from the other side.

 Two of the exhaust manifold studs stuck in the block with the E-Torx head broken off - needed to jam 2 nuts together to get these last two out.

Jamming 2 nuts together to remove last two exhaust studs.

 Oil stain on the front differential was coming from the top vent. I'll be replacing the vent along with the seals - already have the vent on order.

 Removing the pan was fairly quick - had to remove the power steering pump first.

Turbos, oil and cooling lines, differential and oil pan removed. 

 New problem encountered - looks like my head gasket is leaking oil from the front right corner of the motor. The area below the head gasket is wet, and I don't think it's come from anywhere else. With everything off the engine, especially the turbos, now is the time to do this.

More to follow. I'll start with replacing the front and rear main oil seals, the oil pan gasket, and do the intake valve walnut blast. I'm researching what's involved in doing the head gasket now.....

Sources and Links

I hope you found this post useful. Feel free to ask questions in the comments section below. I answer all questions. If you're interested, you can help support this site by using the following links to Amazon.com in the United States. Turbo parts were supplied by Turner Motorsports. Other parts were supplied by Pelican, BMW Park Avenue in Brossard, and eEuroparts.

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535xiT Turbo Project - Ready to Pull the Engine

It's taken me about 3 full days to get to the point where I'm ready to pull the engine. I'll share a few of the observations / problems I've made or encountered. 

Starting with the removal of the exhaust - I was really worried about the state of the exhaust nuts joining the downpipes to the midpipes. These looked like they were frozen and I was dreading this step. 

Downpipe to midpipe hardware - note the rust

I managed to impact off three of the nuts with some effort, and completely rounded the fourth nut. I tip for anyone doing this - particularly a Canadian car which lives in road salt a third of the year - do a really good job of cleaning up the nuts and soaking the hardware in solvent (PB Blaster or equivalent) before trying to removing these. Get on the hardware with a steel brush to try to get the nuts back to original size, the fastener I rounded off was enlarged with rust, and I think I used a socket size larger than I should have.

Rounded exhaust joint nut....

 So - I went through my toolbox looking for a solution for the rounded nut - and found my set of metric 12 point sockets that I bought at a garage sale about 10 years ago for $10... I pounded the 10mm 12 point onto the rounded nut with a ball pein hammer - and then gave it with the impact and managed to get the nut off. That made my day.

This will need to be replaced, along with the studs.

 I then removed the rest of the exhaust. I had some severe corrosion in this brace plate which bridges the bottom of the exhaust / driveshaft tunnel under the rear seats near the rear differential. I also had some massive heat shield corrosion. I've never removed my underbody splash shields for spring cleaning to remove road salt - and I can see why it's recommended practise. This brace and hardware will be replaced.

 Onto removal of the driveshafts. No real difficulty here - put the transmission in neutral using a screwdriver next to the shifter, and removed all the hardware with my 3/8" impact. Front and rear driveshafts dropped out without an issue. Use marking paint to index the location of the driveshafts before removal. It looks like I have a leaking transaxle rear output shaft seal - see photo below - will need to take a closer look at this.

Leaking Transaxle rear output shaft? 

 My rear differential has a leaking input shaft seal - this will be replaced before I put the driveshafts back in. Left and right output seals look okay - I'm going to avoid the rear end with this job and do that in the future.

Rear differential - input shaft leaking

 I then set out to the front drive axles - left and right. You have to detatch the lower control arms to pull out the steering knuckle enough to pull the axles out. You also need a hub mounted tool to push out the axle - I was surprised how much force was required to push the axle out of the hubs. My new favourite tool is this Dewalt 20V 1/2" impact..... Lots of power on all the tough fasteners. I also found that my torsion strut bushings were shot and need to be replaced - could be the source of the front end vibration at speed that I was experiencing - so I've added bushings and ball joints to the list of things to do when I put the car back together.

Pushing out the front drive axles from the hubs. 

Driveline carnage - Front and Rear Driveshafts, Left and Right Axle shafts. 

 In prep for pulling the engine - you have to remove the intake manifold to get access to the rear engine lift point on the block, and to remove all the electrical connections under the intake. My turbos were leaking oil through the charge air tract - here's what I found with the intake manifold removed (no surprise, I already have the kit to do the walnut blasting in the gararge). I'll do the walnut blast with the engine out of the car and on the engine stand.

Number three cylinder intake valves.

 Removing the electrical wiring prior to pulling the engine. I found some forum discussions where guys removed the connections from the ECU compartment, so they would have to disconnect all the discrete connectors on the engine. I tried this - and quickly found that it didn't work. The power leads and the grounds in the engine harness don't terminate with disconnect plugs that are accessible in the ECU compartment - you have to dig and split harnesses in order to actually make a clean disconnect. So I ended up reconnecting the ECU terminals - and went to pulling all the discrete connections on the engine. This wasn't that hard - and I used paper tags to label the connections that might be hard to identify later.

Engine harness disconnected from the engine - lying on top of the right side inner fender. 

 The last thing I did was to make sure all the hydraulic and cooling lines were disconnected and free of the engine - transmission cooler lines, power steering lines - all disconnected and moved out of the way. I've been noting all the O-rings and seals I'll need on reassembly - I'll do another post on that topic later in the week.

N54 engine ready to pull. 

All that's left to do is to remove the bellhousing bolts, and the engine mount bolts. I've already got the torque converter / flex plate bolts removed. Looks like I'll hit this on Thursday.

Sources and Links

I hope you found this post useful. Feel free to ask questions in the comments section below. I answer all questions. If you're interested, you can help support this site by using the following links to Amazon.com in the United States. Turbo parts were supplied by Turner Motorsports. Other parts were supplied by Pelican, BMW Park Avenue in Brossard, and eEuroparts.

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