Gray with Gray Reflective on top
The 3 pictures above are in Colorado and used Azurlite and Gray
Gray with Gray Reflective on top
Fire Tables in Temecula, California.
Gray and Ford Blue
The fire pit above and below have Gray, Gray Reflective, Ice and Red Topper.
The fireplace below is a direct vent installation with Gray, Gray Reflective and Clear Pyrite installed
Has anyone ever said "Nice Logs"? I don't think so. We are going to show you how to transform your direct vent fireplace into a real attractive fireplace.
The key is not to change the amount of gas going into the fireplace, so don't change the regulator.
The thermo coupler (heat detector) will be raised to the surface to insure it will still work.
Drop in a new burner or use the one that was installed with your fireplace and your done.
The 3 pictures below have Bronze, Bronze Reflective, Gray and Gray Reflective with the outside of the fireplace painted medium brown with fireplace paint.
The pit below has Gray and Gray Reflective
The custom fireplace below has a star burner and a very nice star opening
From the start......
to the finish
Very modern. The fireplace above has Gray, Gray Reflective, Black, and Black Reflective
The fireplace below has Clear, Gray, Black Clear Pyrite and Topped with 1/2" Starfire.
The fireplace below has Gray and Gray Reflective
On this page we will be posting some real cool fire flame pictures. Your more than welcome to send yours.
This fireplace has:
A Black Silicone base
But you can't see that now. We will be posting daytime pictures so you can see the actual glass. We will be posting the yellow flames as well. We will tell you how to do this in the near future, really!
Comments and testimonial by the customer:
Here are the other shots you requested. I tried many angles, lights, etc., yet could not get an accurate picture of the natural light setting. The silicone carbide is so reflective that it goes to light grey in all of the shots, and the smoke glass looks pale green/blue where in reality it looks almost black.
Another description that may be even more appropriate of the daytime look is that of a neatly piled burned out fire, except that all of the “ash” is reflective and sparkly.
Can not explain why in some of the shots the flame appears greenish. The blue colored flames are not exactly right either. The real color is closer to ultraviolet than anything else.
Several of the shots, including 01, 29, and 50, have been taken from the same location. You can tell the ones taken at full open valve by the increased amount of color in the shots.
Additional photos in separate mailings
I am very happy with my “new” gas fireplace. I thought I would share with you the enclosed photos taken with an ordinary digital camera with no ambient light except the fire itself. The camera was placed in various locations around the fire on the hearth proper. Unfortunately the stills cannot depict the fire action. What is amazing about the fire is the low spread out blue flame pattern instead of the conventional tall yellow flames in the middle.
The fireplace is open on three sides 30”x40”, The pit was filled with coarse bagged lava rock form Home Depot approximately 1” deep to the bottom of the U shaped burner gas pipe with the holes pointing down. It was then topped with Moderustic fine lava rock to fill in the voids on the top leaving the bottom of the burner only slightly submerged below the layer of the finer lava rock from Moderustic..
The next layer was black sand followed by S----- C-----. The sand was mounded in the center over the burners. A sprinkling of grey glass over the SC and a topper of Bronze ½” glass was sprinkled over the smaller sized matrix to finish. The final product is very dark and reflective with tiny reflections off of the s----- c------ and larger reflections off of the gradated glass during the day and in ambient light. It looks a little like a lava field that you might run across in the Mojave Desert near Barstow. Not at all showy, yet very subtle to the view in daylight.
The coarse lava rock on the bottom layer, with the finer layer on top to keep the gas in longer, acts as manifold carrying gas to all portion of the firebox floor covered with that material. I stopped the coarse rock short of the metal posts in a semi circular shape in plan and back filled with sand so that the flame would not reach the posts. The visual result around the posts is that the gas reaching the end of the coarse material immediately goes upward creating a flowing arc of fire around the posts. This is seen as a blur in the photos.
The underlying coarse rock distributes the gas pretty evenly across the firebox floor creating a even matrix of small flames on the surface as it works its way up through the media. The extreme perimeter appears more active. There are more constant more steady flames from the mound. Because there is less gas at the perimeter, the gas there burns in horizontal spurts and appears like lightning bolts licking the edges of the firebox.
There are small vortexes of fire that form and sometimes work there way around the base of the mound on the center but usually preferring a particular area to hang out.
The overall effect is one of a dispersed flame. As if the entire bed of the fireplace is afire with a low blue flame. With all the lights out in the room it is quite magical. Not at all anything like a conventional yellow flame in the center. Due to the dispersion of the flame across the large firebox area, there is a lot of heat generated and dispersed into the room instead of up the flue. This is not a design for summer time nights.
Everyone who witnesses this flame is impressed with the “light show” quality of the burn.
In the future I plan to change out the media and experiment with different ways to direct the gas and resultant flame to achieve different effects.
Next time I am thinking of laying a pattern of coarse rock and infilling between the “arms” of coarse rock with sand so that the gas will follow the “arms” and come up in more predictable places, perhaps creating little vortexes or pyres at the ends of the “arms”.
The fire table below is a propane model and is a very easy conversion. Just call and we will convert it for you and or show you how. The glass used was a layer of black lava under the base of Grey glass, Black Luster Topper with Copper Ruby Red Topper. This fire table belongs to Eric Bergman in Palm Springs and he loves it.
The fireplace below belongs to Ross Barnett in Florida. This was a ventless propane installation. Ross built a front wave design and we built a special wedge pan with the controls underneath. This is a remote control ventless burner. Great job Ross! The glass that was uses was:
Black and Black Reflective
Gray and Gray Reflective
Copper Blue Topper
Light Blue Tubes
Cobalt Blue Topper
Pale Cobalt Blue Topper
and here are the before and after pictures.
Above is before the wave
and below is the wave before out ventless burner was installed.
What makes us different from anyone else is that we allow you to exercise your imagination. If you see it, dream it, draw it, imagine it we can build it for you. Ross saw what we did for other customers and he came up with this very cool design for us to build for his family room, thanks Ross!
The fireplace below was installed by George Foote who also built his own pan, great job! We supplied the burners and glass and George supplied the talent and labor. Great job George! The colors used were:
Starfire base glass,
Gray base glass,
and our Ice Ice Ice and you be the judge!
Before the pan and glass.
Here is the stainless steel pan that George built.
Start with Starfire.
Add some Azurlite.
and the rest of the colors for one nice design from George!
The fireplace below has a base of Gray base glass with Ice Ice Ice on top. Bill made his own 24" double burner, not too bad Bill.
The fire pit below was built by Mark Showalter in Washington state.
Gray and Gray Reflective base glass,
Copper Ruby Red Topper,
and Black base glass mixed in.
This is the stone pot with the bottom up.
They drilled for the trimming valve to be installed.
A picture is worth a thousand words, and here you have it.