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Thursday, September 12, 2019

Failing 1st generation microinverters



10 years ago when I began installing my solar power system, I was one of the first to use the new technology of microinverters made by Enphase(Details of my installation here).  These are small devices that convert DC solar power to 240VAC in a small box mounted behind each panel.  Original model shown above, and new one shown below.


I was a very early adopter, mine was the 1239th system commissioned back in 2009.  Now there are millions of systems, and they are up to 6th generation technology. The devices come with a 15 year warranty and I'm at the 10 year mark and have just replaced the 7th failed unit out of a total of 32.  I am able to see which ones failed from the web interface that reports performance in near real time.


It is a chore to climb up on the roof with a friend and 2 long ladders.  We have to remove the 30lb solar panel, set it aside, remove the failed microinverter and replace it, then replace the solar panel.  It takes up to an hour to do this safely and carefully.

What I really like about this system is the granularity.  I can see the performance of the system on a per-panel basis and failures are easy to spot.  And I can scroll through the recent day or week to see how the system is performing.  Below is overall power for the last week with peaks at around 4kW.


I'm hoping that Enphase will continue to replace them if units fail after the 15 year warranty.  Despite these setbacks, the system is performing very well and I am powering my home, workshop and Chevy Volt for free for up to 7 months of the year.

The pattern of failures is interesting, they seem to propagate over time:


Sunday, June 30, 2019

Cordless yard tools

Someone who does not know me well asked me by email if I could repair the engine in her weed wacker.  I bit my tongue and politely replied that I don't use gasoline powered yard tools and would not choose to repair one even if I could.  I urged her to see this as an opportunity to go cordless and reduce pollution and emissions.  

The EPA says that: "A conventional lawn mower pollutes as much in an hour as 40 late model cars for an hour."  Plus I don't like the stink of gasoline or the awful noise.  Cordless yard tools are now in their prime and very affordable.  You can buy them at almost any hardware store.


Shown above are my Black & Decker 20 Volt cordless hedge trimmer, weed wacker and my home made monster lawn mower.  The hedge trimmer I refer to as a "Light Saber" - I can just wave it near anything less than 1/4" and it cuts right through without slowing down a bit and can chew through up to 1/2" branches.  The weed wacker is also very powerful.  Both tools last over 20 minutes on a charge which is plenty for home use.

Back in 2005 when I built my cordless lawn mower, there weren't many options for cordless lawn mowers, but they are common now thanks to advancing lithium battery technology that has driven the costs down dramatically. 


If you are a curious/nerdy person, you can read about my electric lawn mower construction in my detailed blog: http://www.arttec.net/Solar_Mower/index.html  It was featured in Popular Science Magazine in July 2008 and I inspired several people to do similar conversions of lawn mowers.  Mine is very powerful and can charge through tall grass with impunity!  It has a 22" cutting path while cordless models range from 14" to 21".
 
Popular Mechanics recently reviewed 6 best cordless lawn mowers for around $500.  Read the full review here.  Or this excerpt:
 "The benefits of a battery mower are obvious from the moment you engage the operator lever: They’re incredibly quiet. Gas-engine mowers succeed because they produce so much power that they can afford to waste most of their output as noise, heat, and friction. With battery mowers, that output occurs at the power plant, not in your yard. These mowers are also mechanically simple. There’s no electric start or recoil start, either—just push a button to power it up. Like any electric machine, basically it’s on or its off. There’s no engine oil, spark plug or air filter to change. Keep the battery charged and sharpen the blade. That’s all there is to it. As with cordless power tools, you charge a battery separately from the tool or machine, which allows you to simply swap out the battery when it’s dead and to keep on working."

Friday, June 7, 2019

Water heater maintenence - drain bottom and check anode rod

There are 2 things you can do to extend the life of your basic tank style water heater.  One is to periodically connect a hose to the drain valve and flush out the sediment at the bottom of the tank for a few minutes - or 4 to 5 gallons.  This prevents the sediment from building up and potentially damaging the heating elements or blocking the drain valve.  Here's a video that explains exactly what to do.  https://youtu.be/TCFCwldQHAs

The other thing is to check the anode rod.  This is a sacrificial magnesium electrode inside the tank that slowly dissolves to prevent the tank lining from rusting.  It looks like a long metal rod made of aluminum or magnesium.  Replacements cost from $17 to $45 depending on type and size.  Here's a link to get one from Amazon (as an Amazon Affiliate, I earn from qualifying purchases.)   I check my rod every year.  This process will likely require 2 strong people and a 1/2" ratchet wrench with a 1 1/16" socket.  Here's a video on how do do this: https://youtu.be/wzecqGyCllU

I used a long piece of pipe over the end of my ratchet wrench to get enough leverage to break it loose.  

Here's what my rod looks like after 2 years:
I took it outside to hose off the gunk before I replaced it.  I think it is good for another year or two, but I will check it every year. These simple maintenance chores can more than double the life of your water heater and save you a lot of money!  And from a sustainability perspective you are keeping the water heater out of the landfill.  If everyone did this there would be a lot less old tanks being disposed of.
 

Update: November 2023

Today - 4 years later I checked the rod and found that it had  rusted through to the steel which is very concerning since the tank can start rusting out at this point.  Shown below is the old and new flexible rod which is easier to install in a low ceiling basement:


 

Basement Watchdog water leak alarm

If your tank springs a leak - you need to know about it right away!  After my first tank failure I installed this Basement Watchdog in the drip pan under the heater.  (You DO have a drip pan right!?).  If the electrodes get wet a LOUD alarm goes off.

I got this one on Amazon, here's a link. (As an Amazon Affiliate, I earn from qualifying purchases.)

I installed the alarm on the wall outside the utility closet, and the sensing electrode in the drip pan:

Alarm on the wall


View of the electrodes

View of electrodes in place
 

Wednesday, May 8, 2019

Solar fountain

 

I had been considering putting out a bird bath for a while when I came across this solar fountain on Amazon for under $20.  (Click here to purchase on Amazon - As an Amazon Associate I earn from qualifying purchases.)  It was irresistible!  A fountain water feature for my lawn and it runs on it's own solar panels!  I got a plant tub and filled it with water from my rain barrel - and top it up every few days.  The sound of water tinkling is delightful.

I installed toothpicks into the foam edge to keep the fountain centered so the water does not get thrown over the edge.
It comes with different nozzles for various spray shapes and just floats perfectly on the water.  When there is little sun due to clouds or time of day, it pulses in little squirts, but in full sun the fountain goes up over 12".

Friday, March 15, 2019

Controlling a portable electric heater with a Nest Thermostat

Nest E thermostat with heater and control box

My love affair with the Nest E thermostat continues (see previous post).  I acquired a second one for about $80 for use in my bedroom that is heated exclusively by a portable electric heater. I'm using a 1500W Pelonis Safe T Furnace with a ceramic heater core that works very well.  Apparently these heaters are classics now - I have had mine since the 1980's! 
Pelonis heater and my relay control box
The relay box contains a 24VAC relay rated for 15 Amps and a 20 Amp circuit breaker.  I wired it with a 12 gauge power cord and a 3-prong grounded outlet for the output.
inside my thermostat relay control box
I put a neon indicator next to the outlet so I could be sure it was switching.

Here's the schematic:

This should work with any thermostat, but use at your own risk.  It is important to use 12 gauge wire in the box and power cord to carry the high load, and I felt better putting my own 15 Amp circuit breaker inside.
Among the things that I have learned to love about the Nest are that it automatically adjusts for daylight savings.  But also it can set back the temperature when I leave home by using the IFTTT app.  Plus it could not be easier to use, program and adjust.  And of course I have connected it to Alexa so I can adjust the temperature by voice command and from my phone from aywhere.

Wednesday, March 13, 2019

NEST thermostat for my Rinnai monitor heater

I heat my home in rural Maine with a combination of a DIY installed heat pump, propane and a large wood stove.  (Since installing the heat pump in March 2121 the propane is now used only as a backup).  I have 2 Rinnai monitor heaters - one in the living area and 1 in the guest bedroom.  The wood stove in the basement is capable of heating the whole house, but I only fire it up when the temperatures drop below 20F which is often in the winter.  This strikes a balance for me of cost and performance - and carbon footprint.  I cut and split about  20-30% of my firewood from my own property here in rural Maine

I have been exploring different ways of controlling the big propane heater in my living room.

It's a 20 year old model that has a manual switch that you push-on/push-off and a simple slider to set temperature.  

A while back I built an interface that allowed me to use a regular programmable wall thermostat to operate it by replacing the power switch with a relay, and that worked relatively well.  But my schedule is erratic and I wanted the option of remote control.  The NEST thermostat E is a very appealing thermostat, but I had considered it too expensive until I found a used one one on eBay for about $80.  (The newer E model lists for $169, and the previous one is $249 and these prices are way more than a regular programmable thermostat that sell for $45 to $65.)

Here's the hookup info for the relay I used to control my heater.
I used a 24VAC power adapter that I got on Amazon that is sold specifically for home thermostats. (As an Amazon Associate I earn from qualifying purchases.)

I also bought a 24VAC relay from Digi-Key (their part number: Z9722-ND ).  It was pretty simple to hook these items up with the 25ft. of wire that came with the adapter.  I did have to get inside the heater and install the relay in there, and it was not something I would recommend for anyone not experienced with wiring or electronics.


This setup works really well for me.  Here's what I like about the Nest in particular.  First, I can control the thermostat setting from anywhere using my phone.  The user interface is excellent and it is extremely easy to program a schedule.

I also like that I can review the history that shows hours of operation per day and the individual cycles.

And the main screen could not be simpler:

Since I have installed an Alexa echo dot, I can say: "Alexa, set the thermostat to 68" and she set's it instantly.  This is nice if I decide to get up earlier than the scheduled time because I can use the 2nd echo dot in my bedroom to turn the heat up before I go downstairs.  Or, similarly if I decide to knock off work early I can set it from my office using the app.

Another clever feature is that the Nest can be programmed to set the heat back if I leave home.  It uses the IFTTT app to geolocate my home and can tell when I leave the area.  Overall I could not be happier with the Nest and all its features.

In my next post I show how I built an external relay box to control a portable electric heater from the Nest E.

Saturday, February 23, 2019

Energy efficiency and cost to operate of appliances


humidifier with data logger
In my last post I talked about a new humidifier I purchased after careful deliberation.  (As an Amazon Associate I earn from qualifying purchases.)  You see, when I add an electrical appliance to my home I give very serious thought to how much energy it uses and what that will cost.  By cost I mean actual dollars per month, but also the cost to the planet when considering carbon footprint of the emissions needed to power it.  For most of the year my solar power system covers all my electrical needs, but due to the lack of sun hours in the winter, I do use utility power.  I write this blog to raise awareness for those who do not yet have solar or other renewably sourced electricity.

When I got the humidifier, I took a basic set of energy readings and found that it uses 16 to 24 Watts depending on the setting.  I generally use the middle setting that uses about 22 Watts.  As such, this is an extremely efficient humidifier.  Since I only use it for 8 hours each night in my bedroom I assumed the cost would be quite low.  A quick calculation showed that it would use 5.2kW/month if used every night (which I don't).  I pay about 16 cents/kW here in Maine - so my monthly cost would be about 84 cents.  Not bad!  And here in New England our utility power is sourced partially from renewables (it's around 40-50% currently) so the carbon footprint is modest.

Data logger showing Watts of humidifier
But wait! There's more!  This particular humidifier has a humidistat (showing 20% in the image above), so it probably cycles on and off as needed to maintain the 40% humidity I prefer at night.  So I connected my data logger to the power cord (see image at top of the page) and logged readings every second for one night.  Here's what I saw:
At first glance it seemed like it was jumping from 20 to 22 Watts all night.  But let's zoom in on that data:
Aha! Now we see that it is cycling on and off with a duty cycle of roughly 45-50% and dropping down to a baseline of about 5W to power the electronics.  (That's actually about 2W - my logger calibration is a bit off).  So the actual cost is around half what I had calculated.  Neat!

Lets look at the cost calculations.  To get the monthly cost I started with the actual Watts and multiplied it by hours/day to get daily Watts used:
W per Day = W X Hours per day  (22 X 8 = 176)
Then multiplied that by 30 to get Watts per month

W per month = W per Day X 30  (176 X 30 = 5280)
This can be expressed as 5.28 kWh (we pay the utility company by the kWh)
Here in Maine I pay 16 cents/kWh, so I just multiply
$/month = kWh X $/kWh (5.28 X .16 = 84.48 cents/month)

But thanks to my data logger, I see that in reality I'm using about half that or less than 43 cents if I use it every night.  So even in the winter when I use utility power, the carbon footprint of this humidifier is relatively token especially when compared with all the other types (evaporative and steam) that use MUCH more power.
 __________________________________________________________


Data logging refrigerator power
Since I had got my data logger out, I decided to log some other appliances.  Generally the biggest energy using appliance in a home is the refrigerator and my 20+ year old one is relatively efficient.  Shown above is my data logger connected to an adapter cable that can measure AC current in Amps that is  converted to Watts in the logger.  And yes, that cool blue night light doubles as a Volt meter - I'm really that geeky!


As you may know, your fridge does not run all the time.  Typically the compressor will be on about 25-30% of the time, and that is illustrated by my log above. The on time is about 10 minutes, an it's off about 33 minutes.  Those big spikes represent the starting energy of the compressor - they only last about a second and the utility meter can't respond that quickly, so it does not factor in to my energy costs.

So here's the math on the cost to operate my fridge
300 Watts X 24 = 7200W/day (if always on)
7200W X .25 = 1800W/Day = 1.8kWh (actually on 25% of the time)
1.8kWh X 30 = 54kWh/month (30 days)
54kWh X 16 cents/kWh = $8.64 per month (your cost per kWh will be different).

So if you use a KillAwatt meter or any other energy monitor to try and calculate your energy cost for a given appliance, you should always leave it running for at least 24 hours to get the average power usage.  Just looking at a power meter in the moment can give you a false impression of actual power consumption.




At the low end of the power spectrum is this heated cat bed that I got recently for my 16+ year old cat Maxx.  She loves it and stays in it all the time.  It is rated at 4 Watts and the surface temperature is just a few degrees above ambient.  I measured 73F with my thermal camera while she was not in it:
When I connected it to an energy monitor, I saw actual readings of 3.5 to 3.7W. Here's the heating pad inside:
Since this in on 24/7, it uses about 2.66 kWh/month at a cost to me of about 42 cents.  It's a small price to pay to keep Maxx happy in her old age.  And she really likes it a lot!


Wednesday, February 6, 2019

Energy efficient humidifier

Click image to see this on Amazon
  
Recently my humidifier stopped working despite relatively frequent maintenance (OK I could have done better).  They all require frequent cleaning and rinsing out with vinegar.  I bought it in a hurry a year ago because I was having sinus infections due to the very dry winter air in Maine and this was relatively inexpensive and off-the-shelf at my local pharmacy.  But I liked being able to stick my face in the warm mist to soothe my sinuses and I could add scent to it which was pleasant.  In retrospect I should have done more research and made a smarter choice to get a more energy efficient unit.

So this time I took my time and studied up on humidifiers and how efficient they are.  I found a very helpful blog post: "How Much Energy Does My Humidifier Use?" that really clarified things.  It verified what I already knew intuitively as an engineer.  Basically there are 3 types of humidifier:

1. Warm mist units that boil water to create steam.  This is the type that I had and it used over 250 Watts.  Not very efficient!  Actually this type are the least energy efficient.  Vicks make several models that I often see in the local pharmacy.

2. Evaporative units blow air across a wet wicking material using a fan that consumes around 50 Watts.  I had one like this years ago and had issues with it.  First the fan was quite loud - even on low.  

And second I had to replace the wick material every few months as they built up mineral deposits and mold.  Also, I did not like the idea of creating waste.  The wicks cost around $7-10 each and were not available in-store when I needed them.

3. Ultrasonic humidifiers use an ultrasonic device that agitates water so it creates water vapor directly, then a small fan pushes it out into the room.  These units are very quiet and relatively affordable - starting at around $45, but you can spend a lot more.  They use a lot less energy.  At 20-30 Watts they are the most efficient type of humidifier.

So I settled on a model I like, this model has good Amazon reviews.
(As an Amazon Associate I earn from qualifying purchases.) 
I did some energy tests and found these readings:
Standby 2W
Low 16W
Medium 20W
High 24W
I also like the control features - they have geek appeal.  Not many humidifiers in this price range have a built-in humidistats and this one let's you set the humidity in 5% increments and displays it in 1% resolution.  It has 3 speeds, none of which make any noticeable sound, I just hear the occasional burble as air comes up into the tank like you would hear from a water cooler.  It has a timer so you can set it to run a certain number of hours.  I only use it at night, so I just turn it on as I go to bed, and set the humidity to 40 and run time for 8 hours.  It works perfectly and maintains an accurate humidity.  And to cap it all off there's a blue LED night light "feature" that I never use, but the geeky designers just had to throw that in!

I also looked specifically for a model that has a flat top for the water tank.  Very few of them do, and it is really helpful to be able to set it upside down in the sink for filling where it will be stable while filling it.  I mean seriously, how are you supposed to fill this one (shown at left)?

As a product designer, I am shocked by the poor ergonomics of most humidifier tanks that have useless "sexy" curves that simply fall over when you place the tank upside down in the sink - requiring you to hold it while filling a gallon or more.  Some of them have dark plastic water tanks that don't let you see the water level which is really dumb!  This is another reason I chose the model I'm using, I can clearly see the water level.


What is impressive about all ultrasonic units is that they start generating cool mist almost immediately.  No waiting for the water to boil and the mist is quite visible so you know it's working.

I'm filling my tank with filtered water and find that it uses 1/4 to 1/2 tank every night in my small bedroom.  So I can go 2-4 days before needing to re-fill the tank. 
 
Also note that it's important to maintain these units per the instructions.  This means soaking the bottom part in white vinegar every few weeks to prevent buildup of calcium deposits.  Read the instructions carefully! 

I'm looking forward to a reduced electric bill next month.  I only pay for electricity for about 4-5 months of the year due to my solar panels, and it really bugs me to have to pay the utility company.

See my next blog post for a detailed evaluation of the power consumption of my humidifier.   

Monday, January 28, 2019

Solar power backup - my dirty little secret

solar panels right before I cleared then in the morning
When I tell people that I have a solar powered home they tend to assume that I have battery backup for power outages.  I don't.  I have a grid intertied system, so any excess power I generate gets fed into the grid for which I get a credit under net metering rules.  In essence the grid is my storage, because I can use up that credit in the fall and winter.  When the power fails my solar power system shuts down to prevent my power from back feeding into the grid and harming line workers (this is a federally mandated safety system).   

By not having a battery I have to use a different strategy to survive the winter storm power outages that average 3 days each year here in rural Maine.  Some outages have run over 7 days, while other are just a few hours.  I need power to run my home based business, well pump, heating systems, refrigerator etc.



Since my solar power system is not designed to incorporate battery backup, I decided to install an automatic home backup generator that runs on propane.  This generator starts up in 15 seconds and powers my whole property - house and workshop. Yes, I'm burning fossil fuel to generate power!  But the cost performance trade-offs made sense at the time.  

My 5kW Generac generator only cost me about $2500 in 2009 from Home Depot and has 700 hours on it as of January 2019.  I installed it myself and do most of the basic maintenance, but also pay for maintenance and repairs as needed.  The cost of installing a large battery bank would have been more than double my modest investment.  Lead acid batteries need frequent maintenance and replacement every 5-7 years and the cost just did not make sense to me.  Batteries also have a very finite amount of energy storage lasting maybe a day or so without recharging whereas the stored propane in my tanks can provide power for almost 2 weeks if needed.

After every snow storm, the first thing I do is clear the solar panels and collectors - even if the power did not go out.  If the power did go out, the generator turns on with in 15 seconds.  I want to get as much free solar energy as possible.  So I have a long snow rake that I use to remove all the snow - usually in the morning before the sun hits the panels.
time-laps video fo snow clearing
Click the image to see a time-lapse video of me clearing the snow on my property and solar panels in February 2018. 
There has been a change in the solar industry in the last year or so.  They are now offering home battery backups - whether or not you have solar power.  This is due the the plunging costs of large batteries like those use in electric vehicles.  Enphase, the company that makes the microinverters that I use have introduced just such a system, and there are many others like the Tesla PowerwallClick here for details about the Enphase battery system.  And click here to read an informative blog post from Energy Sage about Tesla Powerwall cost realities.  At some point I hope to install a system like this, but for now it is beyond my means.