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Beer Brewing Temperature Control

Filed under General Beer Brewing by on April 15, 2010 at 1:40 pm {no comments}

Like many others, I started home beer brewing using the extract method. I had a boil kettle, a burner, and a thermometer.  It really was as simple as it gets. After brewing for several years using this method, I became bored with the recipes. I wanted somthing more challenging and wanted to move into all grain. As I moved into All Grain, I relized the importance of temperature control. It is important with extracts, too, but very important in the all grain process.  After all, mash temperature can control the outcome of your beer by making it dry and thing or less fermentable and sweeter. 

This article covers how to regulate your mash through temperature control. I have broken this article down into four sections. Chosing your Controller, Electricity, Gas Valve, and Temperature probe.  Controlling your tempature will take, at a minimum, a gas valve, controller, and temperature probe.

Controller - I discuss temperature controllers first simply because it will outline what type of electricty you end up with.

Will you be designing a 24 volt system with relays or a straight 120 volt system.  Two of the easist to operate controllers are the LOVE Control and Ranco Digital Temperature Controller.  Out of the two controllers, I prefer the LOVE because the digital readout is large and  bright. The downside is that you most likely will need to build some sort of enclosure.  I built a simple enclosure for a fermentation control (see link – http://www.gbrewing.com/2009/10/14/fermentation-temperature-control/ )  The Ranco is self enclosed and easy to operate. If it had a larger digital display, I would prefer the Ranco.

If you want a more advanced system, you can look towards the BCS-460 Temperature Control System by Embedded Control Concepts. I have written numerous topics about this system scattered throughout this website.  Based on a web based user interface, this system allows you to control the temperature as a PID (proportional–integral–derivative), turns pumps on and off, etc.  As a stock unit, you can have up to four seperature temperature inputs, six outputs to control items such as gas valves and pumps, and four DIN inputs such as push button or float switches.   I would consider this to be a higher end controller for people who want to create an extreme brewing system. It takes a higher level of knowledge , time, and money to create a system using the BCS-460.

The BrewTroller is also an option. BrewTroller is an open source standalone brewing control system based on the Sanquino Platform.  The BrewTroller is for the extreme DIY’er. You would be  “building” your own brew controller using electronic components from the ground up.

Here’s quick overview of BrewTroller features:

  • (4) PID or On/Off controlled heat outputs (HLT, Mash, Kettle and Steam Heat for support of steam infusion mashes)
  • (32) Pump and Valve On/Off outputs (Using up to 4 optional MUX boards providing 8 outputs each)
  • (8) Temperature sensors (HLT, Mash, Kettle, CFC H2O IN, CFC H2O Out, CFC Beer Out, AUX1 and AUX2)
  • (3) Optional Volume sensors (pressure transducers) used to measure HLT, Mash and Kettle volume (currently being tested)
  • (1) Optional Steam Pressure sensor for controlling steam heat
  • Simple encoder input providing iPod like controls (rotate left, rotate right, click for enter, click and hold for cancel)
  • 20 column, 4 row backlit LCD character display

In closing the “controller section” I recommend the LOVE control for easy use and visiability and the BCS-460 for a more advanced user who wants more control.

Electricity: Based on how you brew, you may need 12, 24, 120, or 240 volts depending.  If you are using an electrical heating element, you may need a 240 volt power source. These are considerations you need to make prior to ordering your temperature control.   The Love and Ranco both offer different voltage options and function as their own relay.

 The BCS-460 and Brewtroller use relays. A relay can be thought of as an automatic wall switch. You flip the switch up to turn the light on, you flip the switch down to turn it off. The only different is, the relay does the “flipping” by way of a low voltage input. An example would be the BCS-460. My BCS-460 sends a 5volt signal to the relay by way of CAT5 network cable. The other side of the relay circuit can be 24v, 120v, or 230v. I use 24v on my system to control two seperate Honeywell Gas Valves. When the 5volts flows to the switch, the circuit is closed allowing the gas valve to be turned on.  With the BCS-460 and BrewTroller, every output needs to have a relay. (Again, an output could be your heater element, gas valve, or pump)

Gas Valve – I am using the term “gas valve” loosely because the ASCO I will discuss is not really a gas valve, it is a solenoid.  There seems to be numerous options available for controlling the flow of gas to the burner. 

Those who have built a Brutus Ten are most likely familiar with the ASCO Valve. Think of the ASCO valve as a switch which sits in the middle of a gas pipe. There are different voltage options available to use with the Asco Valve and they can be wired with a relay. I started out with ASCO valves but quickly changed them out after safety concerns. Using the ASCO method, I created my own pilot burner (flame near the burner). The pilot burner is supposed to stay lit during the entire brew process so when gas is allowed to pass throught he ASCO valve to the burner,  it ignites. The pilot burner is completely independant of the ASCO valve. What this means is gas flows through your burner when heat is called for regardless of  the pilot being  lit or not.  This means that if the pilot burner blows out, gas can flow through your burner without being ignited creating a safety hazard.

I prefer a standing pilot gas valve. In fact, I own two of the Honeywell Standing Pilot Gas Valves. One for my Hot Liquor Tank and One for my Mash Tun. This system consists of a standing pilot gas valve, a thermocouple, and pilot burner.  It is very similar to the gas valves used in hot water heaters. This system has safety built into it. The thermocouple senses heat from the pilot burner. If the pilot burner is not “burning”, the thermocouple does not sense any heat and doesn’t allow gas to flow out the gas valve.  I consider this a much safer system than the ASCO system. 

Temperature Probe - Each controller recommends its own temperature probe style. Depending on the style of probe, you may need to purchase a thermowell. A thermowell can be thought of as a stainless (or copper) sleeve which fits inside the mash tun.An important issue witha  Beer Brewing Temperature Control is the placement of the probe.  I recirculate my mash during the entire 60 or 90 minute mash. My temperature probe is place on the return to the top of my mash tune.  I have written a related article regarding temperature probe placement and it can be found here. http://www.gbrewing.com/2009/11/09/mash-tun-temperature-probe-placement/  . 

I  hope you are able to using some of this information as considerations when building your new beer brewing temperature control system.

(Disclaimer – I am not training you  in how to wire or assemble any products. I am not teaching you how to become a pipe fitter or plumber.  I am simple stating my opinion. Assemble any of these components at your own risk. Propane and natural gas can be dangerous and can cause serious injury and/or death. Electricity is dangerous and can cause electrocution hazard which can lead to serious injury and/or death – Always consult a qualified professional)

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Jet Burner versus Banjo Burner

Filed under Brewing Hardware by on February 6, 2010 at 7:57 pm {one comment}

Like most brewers, I am interested on always finding a better way to do things. I own a Banjo burner along with several jet burners and have been tossing around my opinion of what really is a better burner. I have yet come to any conclussion. I have, however, reached an opinion on where the High Pressure Banjo burner might work better.

This test was done with the interest of boil in mind. I wanted to know how quick I could reach a boil after mash out.  I ran the test using a low pressure jet burner at .5 psi and a high pressure Banjo burner at 10 psi. Both propane burners were ran fully open and had their own propane source.

Two very similar stainless converted kegs (kettles) containing 6.5 gallons each were used.  I started this test at 166 on both kettles. Altitude for my testing location was around 980 feet.  I monitored the temperature of both kettles using a laptop, BCS460 , and two temperature probes.

When I made this video, I broke it into several  different segmants. Excuse the redundancy in advance!

Without spoiling the results from the video,  it is my opinion that the high pressure Banjo burner would make a great burner for your boil kettle or possibly your hot liquor tank. It is a little hot to be controlling your mash tun and takes adjusting if you want to reduce the heat.  After around twelve and a half minutes, the Banjo burner had the Jet burner by around seventeen degrees.

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Low Pressure Propane Jet Burner and Regulator

Filed under Brewing Hardware by on February 1, 2010 at 6:35 pm {8 comments}

What burner should I use with my new brew stand? What burner works with low pressure propane? What is the difference between low pressure and high pressure propane? These are all questions faced when building a brew stand or sculpture. They can also be difficult questions to answer if you have not experienced the different burners. Let’s face it, we want to make the right choice up front because brewing equipment can become expensive. This article discusses low pressure propane regulators and low pressure regulators.

Over the last month I have had the chance to fine tune my current brewing sculpture and consider the options that I want on my new sculputure which is in the planning stage. I have come to the conclusion that low pressure propane is the right option for me.  During my research, I read several people discussing what regulator to use with certain types of jet burners. I found numerous opinions on what works best. I read anything from a 0-30 psi adjustable high pressure regulator to a standard .5 psi regulator.

The most important information you can learn in this article is to know what type of burner you really have. If you followed the Brutus Ten design, you will notice that most people have installed a jet burner. They can be cheaper in price and work great for automation.  Most of these jet burners are, indeed, low pressure propane.

So. Let’s think about pressure for a moment. I had the general thought that I want this thing to burn like a jet engine. The more propane pressure, the quicker it will heat! After all, if I turn my garden hose on to wash down the house or driveway,  I want it to have as much pressure as possible so the stream is nice and steady. This seems reasonable to apply this to a propane burner, however it really is not correct.  This goes back to knowing what kind of burner you have. High or low pressure?

I initially constructed my system taking the advice from several threads from some of the more popular internet brewing forums. Over and over again I read that a 0-30 psi regulator would work great! Guess what? It did work, but not as well as it should have. You see, I installed a Honeywell gas valve to assist in automating my mash tun through temperature control.  If I had the 0-30 psi regulator throttled down, it would work (with fine tuning by way of the ball valve).

If I just would have taken the original advice from Lonnie Mac over at alenuts.com, I would have figured this out long ago. He has said several times that he runs his jet burners on a low pressure regulator(s) and has not had any issues. I installed a low pressure regulator in place of my adjustable 0-30 psi regulator. I purchased a Mr. Heater brand .5  psi 200,00 BTU low pressure regulator . I fired up my jet burners and noticed that I did not need to throttle back anything with the ball valve. The burner provided a perfect flame! In fact, I am able to run two burners at the same time off this regulator.  There are other low pressure regulator options available such as the two stage regulator, however that is not covered in the scope of this article. (The two-stage low pressure is a great option as well)

Below are a few different videos which showing the jet burner being used with a low pressure regulator. The propane valve and ball valve are completely open. This is a 23 tip jet burner rated at 175000 BTU. (.5psi Low Pressure Propane)

 

Propane Banjo Burner and Brutus Ten

Filed under Brewing Hardware by on January 5, 2010 at 8:17 pm {no comments}

I enjoy the gadgets of brewing as much as the brewing itself. In fact, I often find myself making changes to a brewing sculpture for my own entertainment. Does it make the beer taste any better? Most likely not. But… It sure is fun.

I decided that I wanted to change one of my Jet Burners over to a Cast Iron Banjo Burner. I faced two separate challenges with this installation. One was mounting, and the other was plumbing. The jet burner was previously mounted and supported with black gas pipe. The jet burner did not have the weight of the Banjo Burner and connected to 1/2 inch black gas pipe without additional supports. Not trivial at all. The Banjo Burner, however,  is connected to the gas supply by way of a brass orifice. The Brass orifice will not support the weight of the burner so brackets needed to be built.

The Banjo Burner is approximately 10 inches around and 15 inches in length at its longest point. The Banjo Burner comes with four mounting holes on the side of the burner. I created a custom offset bracket using 3/4 inch wide by 1/8 inch thick steel. I completed alignment, clamping, and welded the brackets in place. It fits quite nicely in the space that used to be occupied by the jet burner!

Once in place, it was time for the plumping. I utilized the gas ball valve that was already installed on my Brutus Ten. I didn’t want a long BBQ with extra slop connecting the burner to the gas ball valve so I visited my local Propane Dealer for parts. One of the employees created a customer fit hose to run from the ball valve to the Banjo Burner. This hose really made the project look great.

All the parts were connected and it was time for a test burn! It fired right up and I couldn’t be happier. The Banjo Burner is sooooo much quieter and seems to burn hotter. I can’t wait to compare the results. Stay Tuned!

Brutus Ten

Filed under Brewing Hardware by on November 14, 2009 at 1:34 pm {5 comments}

This Brewtus Ten was built completely from 2″x2″ steel square tubing based on Lonie’s original plans. Let’s face it, if we didn’t need it for brewing, we  could always use it as a car stand. This brew stand was built to last.

From left to right, our Brewtus Ten beer brewing system consists of a boil kettle, mash tun, and hot liquor tank. All three of which were created from modified kegs with tig welded fittings.

The boil kettle is quite simple. It consisted of a ball valve, dip tub, and a mash screen. I just toss whole hops into the boil and the mash screen filters them out. (more…)

Mash Tun Temperature Probe Placement

Filed under Brewing Hardware by on November 9, 2009 at 1:34 am {one comment}

There has been lots of discussion as to the proper placement of the temperature probe in the mash tun. In fact, it took me three different placements to find one that works well. I, like you, want my mash temperature to be as stable as possible.

My temperature probe location is at the top of the kettle nearest the actual mash return. I wanted to know the actual temperature of the wort that is being returned into the kettle and not the temperature of the grain bed. With this setup, I have been able to regulate the temperature of my mash within one degree which is confirmed by the lower thermometer.
The heart of my system is the BCS-460 which allows me numerous options. I constantly recirculate the wort through a pump during mash. The mash tun resides above a propane burner which is connected to a Honeywell brand gas valve. I am not a big fan of the ASCO system since it lacks safety features. The gas valve is controlled by the BCS-460 based on the readings from the temperature probe. (more…)

Carboy Thermowell / Love Temperature Probe

Filed under Brewing Hardware by on November 2, 2009 at 2:17 pm {no comments}

This article was written as follow-up to the previous article titled “Fermentation Temperature Control”. If you have any intent on duplicating a tasty beer, you need to have some process controls in place. Simple things can change your beer such as fermentation or mash temperatures. Let’s face it…. Most of us can crush the same amount of grains for the mash and add the same amount of hops to the boil.

If you ferment your beer inside a carboy, (or even a conical) a fermentation temperature control is easy to make. The picture to the left is a caboy with a sixteen inch stainless steel thermowell and an orange colored carboy hood. Two sizes of carboy hoods are available, one for a 6.5 gallon carboy and one for a 5.0 gallon carboy. The carboy hood comes with two attachments. One is used to connect a blow-off tube. Vnyl hoses size 3/8 and 1/2 inch work great. The other attachment port is for the thermowell. Slide the thermowell into the center most port. Make sure to purchase a flared thermowell so it completes the seal and acts as a stopper. It would make a person really unhappy if you pushed your thermowell all the way into the ”soon to be beer” because the end wasn’t flared.

If you are familiar with the love temperature control, you know they come with a temperature probe. The temperature probe has a black rubber-likea coating on it. Depending on what thermowell you decide to purchase, the coating causes the temperature probe to be too thick to fit. To remedy this, I removed the coating from the temperature probe using a razor knife. I have not had any issues with the probe by removing the coating.

Puterbaugh Farms, Hops Direct LLC

Filed under General Beer Brewing by on October 19, 2009 at 11:02 pm {no comments}

Nestled in the fertile Yakima Valley of Washington is a place called Puterbaugh Farms. As a home brewer, it is better known as Hops Direct. Puterbaugh Farms is a fourth generation hop farming family that produces quality hops for brewers.

According to their website, the family forefathers were farmers in France and migrated to Canada and then onto Mabton. Puterbaugh Farms currently produces 11 different hops varieties.

(more…)

Rogue Ales Brewery in Newport Oregon

Filed under Breweries by on October 16, 2009 at 1:18 pm {no comments}

Rogue Ales Brewery was opened in Newport, Oregon, with a small but enthusiastic customer base, made up of curious locals who dropped by to see what was going on and never left. Rogue claims to be a small revolution, which expresses itself through handcrafted Ales, Porters, Stouts, Lagers and Spirits, and this is the way they conduct their business. Rogue ales are currently available in 50 states and 21 countries.

You may have seen a Rogue Ale in a store near you such as Dead Guy or Double Dead Guy Ale.  These beers use John Maier’s proprietory yeast strain, Pacman Yeast.  The Dead Guy Ale recipe kit is available to Home Beer Brewers through Brewcraft USA. In fact, everything but the yeast can be purchased in these kits. The Pacman yeast can be purchased seperately.

Nestled inside the Rogue Ales Brewery, is a  two story brewpub which offers a panoramic view of Yaquina Bay and the marina. You can enjoy the full line of Rogue brews, brewery tours, and 50 taps. The Menu features “the World’s Greatest Burger’s”, the American Kobe beef burgers. If you are in Newport, Oregon, this place is worth a visit! Visit Rogue Ales Brewing website at http://www.rogue.com.

Take a youtube video tour of Rogue Ales Brewery lead by Rogue Ale Brewing tour guide Chris Garret.

Fermentation Temperature Control

Filed under Brewing Hardware by on October 14, 2009 at 7:43 pm {no comments}

After completing numerous home batches of beer and realizing that I did not have any control over my fermentation temperature, I decided to build a simple little device which I labeled the “Fermentation Temperature Control” (or FTC for short).

This device works great for those want to ferment inside a refrigerator or freezer and have digital control over the process. The device pictured is installed on the side of a freezer.

The device consists of an electrical box, an outlet, and a LOVE brand temperature control. The LOVE control comes with a temperature sensor which I place inside the carboy by way of a stainless thermowell. You could also place the temperature probe (in a thermowell) inside a glass of water which is stored inside the freezer or refrigerator. Ambient air readings are not as accurate using the Love style temperature sensor.

The freezer or refrigerator is set to its coldest setting. The Refrigerator or freezer is plugged into the Fermentation Temperature Control outlet.  That’s all there is to it. Set the Love Control to the appropriate temperatures and watch your fermentation temperatures hold steady!

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