Tag Archives: Solar power

The Truck!

Ah yes … The truck.

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First outing with the new array.

A 1995 Mitsubishi Fuso FH100, and I, the original owner,

What a machine!

The FH100 was a left over model the local dealer “found” sitting on a dock in Florida waiting for something to do … And did I have something for it to do!

I had had the pleasure of working with John Minnehan and his company “the Ultimate Video show” bringing a high tech video night club to lots of college campuses that were … Let’s just say … Off the beaten path!

Lots of miles … Lots of heavy gear … And lots of hours listening to some of the hottest dance music the 90’s had to offer … I am still in recovery!

But the truck was amazing at it. With a GVW (Gross Vehicle Weight) of over 17,000 pounds and weighing in at under 9,000 pounds empty the amount of gear it could handle was beyond belief … It surprised a lot of weigh station officials over the years … The sad look that would cross the faces of the DOT guys as they opened the door and read the GVW tag was always priceless!

But I digress …

The truck seems to have been built for my solar project. With it’s small size and super heavy duty frame, brakes, suspension and cargo restraining system moving a bunch of batteries around with the truck was going to be the easy part.

I wanted to find a better way to solar recharge the batteries between shows, and with business picking up I started looking up. With 120 square feet of flat roof on the truck, adding solar panels to the “attic” seemed like a good idea. If I could find a way to permanently mount an array on the truck I was going to save a lot of time and trouble moving batteries around.

I wanted to have the panels “rail mounted” flat above the box of the truck … With the rail system designed to protect the panels and any low hanging tree branches from each other!

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The rail mounting system

I was curious as to how well the panels would work laying flat … (Instead of being angled at the sun) … But was pretty certain after 2013’s experiment that I would be able to recharge the batteries … I was just not sure how much the process would speed up, or how much power I would get … Never mind what, if anything was going to happen on those short winter days with the sun low on the horizon.

Time would tell.

While the truck was being worked on I went through and rebuilt the charging station I had made for the project back in 2013, tidying things up a bit, adding a web monitor and a wireless router to connect the rig to my I-phone and maybe someday even the world!image

I think I’ll need to rent a teenager to get that far … Any leads on finding one would be greatly appreciated!

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The new array! Four Sun Tech 235 watt panels.

I got the truck back from the shop with the four solar panels installed on July 3, 2015 and spent the next two days adding the electronics and cabling … Personally drilling two holes in the truck roof for the “glands” that the cables were going to run through seemed really wrong … But the glands, and the silicone sealant that were used have kept everything nice and dry.

The next day I got up before sunrise and made it down to the truck as the sun was clearing the trees on the horizon and found I had already harvested .194 kWh of power … Before the sun had even hit the panels!

 

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Rise and shine … Time to get to work!

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“Old Guy” taking a “screen shot”, 7/6/2015

The readings I took from the web monitor at the end of the day showed that the charger went into “float” stage around noon … With a total harvest for the day of 1.41 kWh of power … I was not really sure what that meant … But I was impressed!

As I sit here on a Sunday morning in late January, with six months of learning “under my belt” I am still impressed!

As for the short days of winter … Yesterday, a sunny January 30, 2016 the Sirus Solar DS-201 web monitor showed I had put 143.7 amp hours of power back into my 12 volt battery bank … 1.72 kWh of power … Not bad for four 235 watt solar panels laying flat on a winter day in New England … Not bad at all!

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Screen shot from 1/30/2016

2013

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2013 was looking to be pretty exciting with the St. Patricks Day parade and the Easter sunrise service working so well … Though I was a little behind schedule with my plans to get meters installed and upgrading the wiring on all of the battery systems.

The rest of the parts had arrived … Finding time to install them was another story.

More shows, putting another battery system together and getting the meters installed in three of the systems kept me very busy through June … And I was starting to get some data that seemed to make a lot more sense … But I still had lots to learn.

One of the battery banks with the TRIMETRIC 2025 battery meter installed.

One of the battery banks with the TRIMETRIC 2025 battery meter installed.

I was planning on using the 2013 Elma Lewis Playhouse in the Park series to test how feasible the project really was. I had hoped to solar recharge all of the batteries between the weekly shows this year … And had ordered an MPPT (Maximum Power Point Tracking) solar charge controller to do it with … After doing a little math it seemed like my three 120 watt solar panels would be able to capture enough sunlight to recharge all the batteries during the week … Even allowing for a 50% operating efficiency … Something I hoped would be a conservative estimate … Especially with rain and clouds being a fairly common occurrence here in the Boston area.

My initial plan of setting up the solar panels and batteries on site for the series turned out to be a little naive … I had to scramble a little to get a “Plan C” up and running … My truck would be parked from Wednesday night until Monday afternoon and with a little help and a couple of tall ladders the solar “array” would be strapped to the top of my truck, the charge controller hooked up… And … Time would tell.

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PS … It worked great!

… Not just the loud parts!

The 2014 Pet Rock Festival … Second stage “tech world”

The generator had the day off ... The system ran for 5 hours and 15 minutes, used 1.7 kWh of power ... Only using 24% of the 550 amp hour battery!

The generator had the day off … The system ran for 5 hours and 15 minutes, produced 1.7 kWh of power … And only used 24% of the 550 amp hour battery!

When you replace the “traditional” gasoline or diesel generator with battery power some really neat things happen.

The first thing you might notice is that there is no noise.

And with no generator running in the background there are no exhaust fumes, no heat or extra cans of fuel to worry about. That means the batteries can be placed almost anywhere, eliminating the need for the long extension cords, cable ramps, tape … and the time normally involved with getting power where you need it!

Great seats!  ... They probably do not know they are sitting next to the "generator"!

Great seats! … They probably do not know they are sitting next to the “generator”!

With a properly sized battery system … there is no need to refuel … No flammable liquids … or downtime.

The batteries can be set up and used anytime, anywhere and theoretically can be sized to do almost anything.

Anything? … Well … Almost anything … Fairbanks is pretty small as far as cities go!

Fairbanks, Alaska has the world’s largest rechargeable battery (according to Wikipedia as of 6/17/14).

From the Golden Valley Electrical Association web site …

“Completed in December of 2003, the BESS (Battery Energy Storage System) can provide 27 megawatts of power for 15 minutes in the event of a generation or transmission related power outage.”

“The BESS responded to 60 events in 2013 … Preventing a total of 310,492 member outages … That’s an average of over 5,000 customers per outage!”

http://www.gvea.com/energy/bess

Their battery system was sized for the job … And from what I have read … Does the job very well.

My 12 volt systems are quite a bit smaller … My largest, a 1050 amp hour system is roughly the equivalent of a 6,000 – 8,000 watt generator … My smallest, a 276 amp hour system is roughly the equivalent of a 1,500 – 2,000 watt generator.

Perfect for a lot of small events and festivals!

When you use a battery system, power is removed from the batteries only as it is needed, with the rest of the stored power staying in the batteries … To be used as it is needed.

With a generator, electricity is produced at a constant rate and you use what you need … With any extra power /electricity from the generator being wasted.

With a battery system the louder things need to be … the faster the power is removed from the batteries … The loudest “peaks” of a performance draw the most power …  The spaces in between those peaks draw a lot less power from the batteries … With the quiet parts in between the notes drawing almost nothing at all … extending the running time of the system for the event.

Music with a wide dynamic range gets a double benefit when switching to a solar charged battery power source … Aside from being “clean and green” … The overall dynamic range is greatly improved by removing the “noise floor” created by even the quietest of generators.

You will be pleasantly surprised to hear even the quietest sections of the performance … Not just the loud parts!

Enjoying the sounds of the Boston Pops Brass Ensemble in beautiful Franklin Park, 6/24/2012

Enjoying the sounds of the Boston Pops Brass Ensemble in beautiful Franklin Park, 6/24/2012

Easter Sunrise Service, Castle Island, Boston.

In the mean time …

Easter sunrise service on Castle Island in South Boston …Wow!

The view to the east is amazing. I am not going to try to describe it, but it is worth getting up early for … At least once!

I had been providing the sound system for the event for a couple of years and had really enjoyed setting up the sound gear in the dark and watching the new day arrive.

Easter morning view from Castle Island

The airplanes are not landing at Logan airport across the harbor at 4:00 in the morning and you can actually hear the harbor, the sound of the waves hitting the shore, some large ships going by … Add the flash of light from Boston Light and the slightest hint of change out on the horizon … It is very nice!

This year I had asked my contact with the Castle Island Association if I could try powering the event with one of my solar powered battery rigs and he said yes!

Normally … By the time most of the people arrive for the Church service the generator is already running with its constant drone covering up everything but the “red eye” flights coming in and the occasional overhead sea gull.

This year the first sound breaking the harbor “soundtrack” was the “Good Morning” from the priest celebrating the Mass … I’m sorry if it startled anyone!

The system ran for 2.5 hours and used .35 kWh of power … a tiny amount by any standard. Basically the “idling” current draw from having the four wireless microphones,  mix rack and amplifier on … With no background noise to compete with, the overall sound level did not need much power to cover the audience standing an an area almost the size of a football field.

The small “solar system” I brought to power the event was about the same size and weight as the generator that I helped off load from the park rangers utility tractor in previous years. Something else to think about … Eventually!

But back to rewiring …

The battery systems had worked wonderfully at powering the events so far. But I had unknowingly been getting a little help from good old fashioned “dumb luck”.

If this project was to get out of the tinkering stage I wanted to do it without needing that help.

Adding the battery meters was going to provide some very useful information, adding fuses was going to keep everything and everyone safe … and spending a little “quality time” with my coffee pot and calculator was going to get the systems performing as well as they could … For a long long time!

To find out how long you will have to check back later … Hopefully much later!

In working with 12 volt DC power it is very important to size everything for what you are trying to do … In my case … Powering all the equipment needed for an outdoor concert.

Sizing the wire used and laying out the equipment so that as little power as possible is lost to resistance in the wiring of the system … Ideally keeping the loss between the batteries and the inverter to less than 1%

To do that I needed to use the largest, shortest wires possible.

Using a voltage drop calculator like the one found in  “rapidtables.com”  you can see what size wire you will need to use. For this part of the project I used short (18″) #2 cables to go from each of the batteries to a pair of insulated buss bars, and total of about 8′ of #2/0 cable to get from the buss bars, through a circuit breaker, fuse and shunt to the inverter and back again.

If I’m doing my math correctly I am only losing .1463 volts (1.17%) to voltage drop with a 200 amp, 12.5 volt DC load … A little more power than what you could get from a standard household 20 amp circuit.

It sounds like an awfully small amount of loss to get excited about, until you realize almost everything in a 12 volt system will shut down when the voltage drops below 10.5 volts. Losing .1463 volts from 12 volts does not seem like much … But if you only get to “play” with the 2.4 volts between 12.9 volts (a full battery “at rest”) and the 10.5 volt “shut off point” … Losing that .1463 volts means I would lose between 5 and 8% of my total power at full current … And if I wanted to keep the batteries alive as long as possible I do not want to discharge them fully … I could be losing over 10% of my power … to wire!

Yikes!

I am hoping to give you a little “photo” tour of how I wired one of the systems in my next post.

Luck of the “Irish”!

In the mean time … The show must go on … The rewiring project was going to have to wait.

3/17/2013 … If you live in Boston that date can only mean one thing …

The South Boston St. Patricks Day Parade … Where being Irish is not really required!

I got a call from Mike Majorowski wondering if my battery system would be able to power a float for his band in the parade.

Hmmmmm…..

To see if it could be done I set him up with a couple of “Kill-A-Watt meters to use at his next gig to see how much power they would need … While I started to worry about the weather. Rumor has it that batteries do not like the cold!

With the readings he got from the “Kill-A-Watt meters It looked like my smaller battery system would do the job … At least if the weather co-operated and we got that perfect 77 degree day the batteries were rated for (this is Boston … and I’ve shoveled snow in May!)

I explained my “concerns” to Mike and we decided to try the parade using my larger system … At the smaller system’s price.

We had a beautiful sunny day for the parade … If you don’t mind a little cold wind … We started sound check at 10:00 am at 28 degrees And got all the way up to a “balmy” 37 degrees somewhere along the parade route!

Five hours of run time, 1.83 kWh of power used … We even got a nice “Cool!” From the Boston Police Truck team inspecting all the floats when they asked where we were getting our power from … apparently we did not need a special permit for using a generator on the float … Cool indeed!

At the end of the day the inverter battery meters still showed 90 – 100% full … It would have been nice to have the new meters installed … The parts had arrived … the extra time needed to install them was still on back order!

It was my first event moving the battery boxes around by myself and one thing was certain … Those battery boxes are heavy … Very heavy!

The larger battery system with the Trimetric 2025 meters installed

The larger battery system with the Trimetric 2025 meters installed

The larger system consists of a pair of “Site Safe” tool boxes with each box weighing in at about 500 pounds! … So “portable” is a relative term!

Moving them from the truck to a loading dock, or in this case … To the back of the “roll off” tow truck that was used for the float was pretty easy … Pushing them up the ramp to my truck? … Not so much!

Moving them around was going to take three or four people … Or a lift gate on the back of the truck … I will need to figure that one out later …

My to do list keeps growing!