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How do you fake fire on stage?
The classic way to simulate open flame is to use strips of orange, yellow, and red silk or tissue paper, a colored light source, and a fan. Secure the ends of the silk or tissue paper to the logs. Hide colored lights beneath the logs, and place the fan beneath the whole.
What is the flaming effect?
Flame Effect is defined as “The combustion of solids, liquids, or gases to produce thermal, physical, visual, or audible phenomena before an audience.” This includes all flames that are automated, switched, pressurized or having any other action than simply being lit on fire; as well as projects using propane or other …
Is there such thing as fake fire?
FauxFire® Simulated Fake Fire System is a patented simulated flame system that lets you harness the power of “fire”. Using steam and specialty lighting, Technifex has created artificial flames in the most realistic and safe way to bring the impact of flames to your displays or attractions.
How do you make a fake campfire out of paper?
- Roll two sheets of brown construction paper longways into tubes and tape them in place along the seam with clear tape. …
- Cut a semicircle into one side of one of the logs with scissors, and rest the other log inside the semicircle cut-out so they are crossed like campfire logs.
Technifex Products
You can also use real logs with fake fire.
Water Mist Fire Effect
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fake fire stage effect – Quang Silic
Author: Date: 17/07/2022; Rated: 4.02; Highest rated: 5; Lowest rated: 1; Summary: The Fake Flame™ system works best in low light levels and …
Source: quangsilic.com
Date Published: 3/15/2022
View: 3045
Fake Fire Flame – Lights & Lighting – AliExpress
The fake flame will emit a light, and the fire burns continuously. These realistic looking fake flame artificial flame paper are perfect for any scene, and are …
Source: www.aliexpress.com
Date Published: 5/19/2021
View: 7275
Back Stage Technologies Europe
BST’s trademarked Fake Flame™ product is an ideal solution for applications where a flame/fire effect is desirable but simply not practical from a safety or logistical perspective.
Fake Flame™ is manufactured in standard widths, although almost any size can be made to order. Standard sizes include; 0.5, 1.0, 1.2 and 1.5 m wide.
The Fake Flame™ system works best in low light and indoor applications, making it ideal for night driving and theatrical use. Fake Flame™ is manufactured in both a surface mount version and as a flush mount option – ideal when the effect does not need to be visible on a stage, for example.
Flame Effects Guidelines
The original simplicity of an open fire is great and all, but newfangled technology allows for all manner of rotating, swirling, squeaking, pink-green fire magic, and Burning Man artists are making full use of it. Thing is, flame effects involve a lot of moving parts and fuel combustible under high pressure, so follow these guidelines to make sure you’re getting it right.
Flame Effect Definition
Flame effect is defined as “the combustion of solids, liquids, or gases to produce thermal, physical, visual, or audible phenomena in front of an audience”. This includes any flame that is automated, switched, pressurized or has any effect other than simply being ignited; as well as projects using propane or other liquid or gaseous fuels.
Safety guidelines for flame effects
Most of the flame effects in Burning Man are Liquefied Petroleum Gas (LP Gas) effects; LPG is often referred to generically as propane. Most of the following guidelines deal with LPG as a fuel. Regardless of fuel type or technological basis, all flame effects must be engineered to meet or exceed applicable laws, regulations, and industry standards.
The National Fire Prevention Association (NFPA) publishes numerous codes and standards for the construction and use of LPG systems, including:
NFPA 54 – National Fuel Gas Code
NFPA 58 – LPG Code
NFPA 160 – Standard for the use of flame effects in front of an audience
NFPA documents can be viewed and purchased from the NFPA website and should be read by all Flame Effects artists.
Construction of flame effects
All LPG cylinders must be designed, manufactured, tested and marked in accordance with United States Department of Transportation (DOT) regulations or ASME Boiler and Pressure Vessel Code.
All LPG cylinders must have an unexpired certification date stamp and be in good working order. Tanks in poor condition or outdated are a hazard when filling and may result in injury to the fuel team, performers and/or competitors.
Each LPG flame effect must have a single 1/4 turn shutoff valve as the primary emergency fuel shutoff. When closed, this valve must prevent all fuel flow to the flame effect, regardless of how many LPG cylinders are connected to the flame effect. This valve must be exposed and visible at all times and clearly marked as an emergency fuel shut-off.
All fuel system components (fittings, piping, valves, fittings, etc.) must be designed and rated for both the type and pressure of fuel used. Using improper fittings can result in fuel system leaks and failure, which can result in fire and/or personal injury.
All metallic piping and fittings for LPG operating at pressures in excess of 125 psi must be Schedule 80 or heavier.
All LPG hoses rated greater than 5 psi must be rated for a minimum working pressure of 350 psi and must be continuously marked by the manufacturer to indicate maximum working pressure and LPG compatibility.
Air or pneumatic lines are not permitted as fuel hoses. LPG will degrade rubber hoses not specifically designed for use with this fuel. This will cause the hose to rupture from the inside out, potentially leading to catastrophic failure.
Hose clamps are forbidden on LPG hoses at any pressure. All fuel hose connections must be factory made or designed with a crimp connection specifically designed for the purpose. Hose clamps have been known to cut fuel lines and chafe or loosen, potentially leading to catastrophic failure.
All metallic pipe connections must use flare fittings. The use of compression fittings or lead-soldered fittings is prohibited.
Accumulators, surge tanks, and other pressure vessels in the system must be designed, manufactured, and tested in accordance with the ASME Boiler Pressure Vessel Code or the Department of Transportation (DOT) for the pressure of the gas being used.
Any welding modifications to pressure vessels, or modifications or fabrication of other system components that hold pressure, must be performed by a welder certified and stamped and certified as such by the American Society of Mechanical Engineers (ASME).
If the fuel supply pressure exceeds the maximum allowable operating pressure (MAOP) of an accumulator or other pressure vessel, a regulator must be installed between the fuel supply and the pressure vessel to reduce the pressure below the MAOP of the pressure vessel. A pressure relief valve must also be installed in the pressure vessel with a start-to-leak setting at or below the MAOP and a discharge rate that exceeds the maximum flow rate of the reservoir.
Fuel tanks for stationary flame effects must be protected from vehicular traffic and well lit at night.
Flame effects should be constructed and placed so that the flame head and/or hot components are at least 15 cm from the playa surface to prevent burning or scarring of the playa.
Any artwork, towers or other structure containing flame effects should be sheltered from wind and surrounded by an appropriate containment area to avoid injury to participants.
Operation of flame effects
Flame Effect Operators
Flame effects operators and assistants must be at least 21 years of age and trained in the use of fire extinguishers.
Operators and support staff must wear fireproof clothing when operating flame effects.
personal responsibility
Carelessness, negligence or unsafe conditions involving flame effects must not be tolerated. Do not drink, use drugs, or smoke while working with flame effects.
security perimeter
A reasonable audience safety perimeter (and performer safety zone, if applicable) must be established well in advance of flame effect operations and approved by FAST. Due to the variety of flame effect artwork, a member of FAST will help you determine the correct perimeter spacing.
In any event, all combustible or combustible materials must be kept clear of any combustible or combustible material within a 20-foot zone around the point of flame exposure, and nothing should exceed this zone.
refueling
Only persons familiar with the safety considerations and hazards involved should connect/disconnect LPG tanks or add liquid fuel. Wearing personal protective equipment (goggles, gloves, etc.) while filling with liquid fuel is required.
Daily security check
A daily safety check of all flame effect components and connections is mandatory before beginning operation. Never operate a flame effect before completing the daily safety check. If a safety hazard is identified either during the safety review or during operations, the Fire Safety Liaison must delay or cease operations until the hazard is remedied.
Operational Policies
Never ignite a flame effect until all performers, security monitors and participants are in place and ready.
Never operate a flame effect in a way that poses a hazard to people or property.
Consideration of flame effects
Flame effects should never be left unattended. Winds in the desert are highly variable and can wreak havoc on a poorly controlled installation. Any flame effect running unattended will be turned off. Egregious and/or repeated offenses result in confiscation and/or disabling of the effect.
No smoking or open fire
ABSOLUTELY no smoking or open flames within 10 feet of storage areas where flammable liquids or combustible gases are stored. All fuels and combustible materials must be stored in approved containers, which must remain closed except during filling or dispensing or when connected to a system for use.
Product Safety Documents
Safety Data Sheets for all hazardous chemicals used in the construction or operation of the Flame Effect must be maintained on site so that they are available to guide cleanup operations in the event of a material spill and to make available to emergency medical personnel in the event of an accident exposure.
Questions
Here are email addresses to send questions about:
Art installations in general: [email protected]
Open fire: [email protected]
Flame Effects: [email protected]
Mutant Vehicle Flame Effects: [email protected]
Pyrotechnics: [email protected]
Registration and Licensing
Read all about getting your project registered and approved.
Technifex Products
What is FauxFire®?
Technifex Products patented FauxFire® Simulated Fake Fire System was designed to create a realistic simulation of flames using low pressure steam from a boiler coupled with unique animation and lighting devices.
The effect consists of three main elements:
A special diffuser designed to create a thin, steady curtain of rising vapor.
Animation fans aimed at the curtain to create flame-like turbulence in the steam
LED lights color the “flame” effect
FauxFire devices perform best when set to produce “flames” at a maximum height of 12″-30″ (305mm – 762mm). The effect can be adjusted to lower levels depending on the venue.
How big is the equipment?
FauxFire devices are manufactured as standardized units in straight lengths:
2′ unit: W = 25.78″ [654.7 mm]
H = 21.00″ [533.4mm]
D = 20.00″ [508.0mm] 6′ unit: B = 75.40″ [1915.2mm]
H = 21.00″ [533.4mm]
D = 20.00″ [508.0mm] 4 unit: W = 49.77″ [1264.2mm]
H = 21.00″ [533.4mm]
D = 20.00″ [508.0mm] 8′ unit: B = 99.40″ [2524.8mm]
H = 21.00″ [533.4mm]
D = 20.00″ [508.0mm]
Can FauxFire devices be used in a curved or circular pattern?
A FauxFire® Simulated Fake Fire System effect can be created as a segmented arc or circle using standard Technifex Products straight equipment within the limitations of the space required. It should be noted that there may be gaps in the flame effect with this configuration. There are methods for this that we can suggest in individual cases.
Is the FauxFire effect visible from both sides?
With the Dual Light option, the FauxFire can be made visible from both sides.
Can FauxFire be placed at ground level?
The FauxFire devices should be placed so that the guests cannot see the devices that create the effect. That being said, equipment can be placed in a trough below ground level, making the FauxFire appear to radiate at ground level.
An optional light block can be added to reduce the visibility of the lights.
Can the equipment concealment effect be covered?
If the effect is to be of the highest quality, the top of the equipment room must be open and unobstructed. Any kind of covering interferes with the animation and lighting and can cause the effect to be compromised. In certain onstage situations, Technifex have successfully employed certain types of metal grilles over our FauxFire devices. Although the grille can affect the appearance of the FauxFire to some degree, none of our customers have found this to be a problem.
The base of the unit may be surrounded with a low wall or other landscape artwork as long as an air gap of at least 6″ is maintained to allow for proper ventilation.
Are there other usage considerations?
The FauxFire® Simulated Fake Fire System effect is not generally sold for outdoor applications as there is usually limited control over air currents (wind) and ambient light. However, the system can be used outdoors at night if conditions are controlled.
For a correct visual appearance, the ambient lighting around the FauxFire devices should be controlled so that the effect is not “washed out” as it is ultimately a lighting effect. Also, the background against which the FauxFire effect is viewed should be kept as dark as possible, with black being optimal.
Although there are two types of FauxFire systems (smoke and steam), we generally sell the steam-based system for permanent and long-term applications due to the ease of maintenance, the reliability of boiler systems, and the fact that steam is a water-based product. The smoke version is oil based (propylene glycol) and is generally used for short term applications such as trade shows and special events.
Are there any equipment options?
Equipment options for FauxFire are as follows:
A single solenoid operated valve to turn the vapor on and off under electrical control.
Dual solenoid operated valves and manual adjustment valves to produce three operating flame heights (high/medium/low) under electrical control.
Dual Light (device is visible from both sides)
Monochrome LED lighting
Full RGB LED lighting
A DMX lighting board if DMX control is desired and the facility does not have the capability.
Additional animation fans sometimes needed when Faux Fire devices are laid out in a curve or circle.
Optional relay modules for DMX control of steam and lighting.
What setup upgrades are required to use FauxFire?
There are special devices and setups that need to be designed and installed to support the FauxFire devices supplied by Technifex. These include:
The boiler system. Unless only a small amount of FauxFire is needed, Technifex will not normally supply and install a boiler for use in creating the FauxFire effect. This equipment is usually procured most cost-effectively by the customer on site. However, Technifex will clearly specify the boiler requirements based on the number of appliances to be used, the intended “flame” height(s), the frequency and duration of operation and the expected steam losses in the piping between the proposed boiler location (equipment room) and the site by FauxFire®.
The plumbing and electrical wiring required for the FauxFire equipment between the equipment room and the equipment location are typically provided and installed to Technifex specifications by contractors hired by the customer or project owner. The service lines installed by the plant builder should also include the steam lines and condensate drain lines.
HVAC work upgrades may be required to handle the additional heat and humidity loads introduced by the FauxFire effect. Technifex provides information to the facility’s mechanical engineer regarding expected heat and humidity loads. It should be noted that these heat and moisture loads are generally quite modest.
What is generally required to operate FauxFire®?
Permanent FauxFire® simulation fire system applications require a steam source (boiler system) with plant-supplied manifolds from the boiler site to the FauxFire site. A system drain (or drains) is required at the unit location to drain the condensate generated by the steam. In addition, electrical power is required for the unit’s lighting system and for the animation fans, as well as, if selected, to control the optional solenoid-operated steam valves.
In terms of vapor delivery pressure, FauxFire units are designed to function properly with 90psi at the vapor spigot location.
Power Requirements: (Power requirements depend on which FauxFire options are selected.)
Valve/fan switch: 120VAC 20A (must be same phase) 1/2″ wire
CBX-ST Box and/or D-Box: 120-240VAC 10A 1/2″ conduit
FauxFire Main Control: 120-240VAC 10A 1/2″ conduit
Where can we get a cauldron?
There are a number of boiler manufacturers with representatives in most areas. For gas fired units, you can contact local representatives from Parker Boiler Company (www.parkerboiler.com), McKenna Boiler Works (www.mckennaboiler.com) or Lattner Boiler Systems (www.lattner.com).
Electric boilers can be purchased from Sussman Electric Boilers (www.sussmanboilers.com) or Electro-Steam Generator Corp. (www.electrosteam.com).
The boiler manufacturer’s representatives can, in most cases, help with the installation and commissioning of the system and provide operation and maintenance training.
Standard requirements for mechanical systems.
Facility-supplied connections for steam, power, and control lines (if used) should be provided within 3 feet of each unit. In addition, one or more drains to a facility sewer should be provided at or near the exposure points to dispose of condensed water. Each unit produces between 1/2 and 1 gallon of condensate per hour.
What should the boiler system include?
Typical boiler systems include:
A steam boiler that may be gas fired or, in some applications, electric. The boiler must be designed to continuously supply the required volume and pressure of steam. Note that the boiler capacity ratings assume the incoming water from the feed system is at or near 212°F. When cool or cold facility water is used, the boiler output typically needs to be derated by 25% to 30%. The boiler manufacturer can help with this consideration.
A feed water tank and pump to keep the boiler filled with water
A chemical treatment tank and dosing pump to prevent scaling
A water softener to minimize the mineral content that causes scale
An ASME certified blowdown tank into which boiler steam can be safely vented if the boiler needs to be shut down or if the safety pressure valve opens.
Are FauxFire® devices guaranteed?
Technifex Products provides a one-year conditional warranty on FauxFire devices. _
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