A mercury-vapor lamp is a
gas-discharge lamp
Gas-discharge lamps are a family of artificial light sources that generate light by sending an electric discharge through an ionized gas, a plasma.
Typically, such lamps use a
noble gas (argon, neon, krypton, and xenon) or a mixture of thes ...
that uses an
electric arc through vaporized
mercury
Mercury commonly refers to:
* Mercury (planet), the nearest planet to the Sun
* Mercury (element), a metallic chemical element with the symbol Hg
* Mercury (mythology), a Roman god
Mercury or The Mercury may also refer to:
Companies
* Merc ...
to produce
light.
The arc discharge is generally confined to a small
fused quartz arc tube mounted within a larger
soda lime or
borosilicate glass bulb.
The outer bulb may be clear or coated with a
phosphor
A phosphor is a substance that exhibits the phenomenon of luminescence; it emits light when exposed to some type of radiant energy. The term is used both for fluorescent or phosphorescent substances which glow on exposure to ultraviolet or vi ...
; in either case, the outer bulb provides
thermal insulation, protection from the
ultraviolet radiation the light produces, and a convenient mounting for the fused quartz arc tube.
Mercury vapor lamps are more energy
efficient than
incandescent lamps with
luminous efficacies of 35 to 55 lumens/watt.
Their other advantages are a long bulb lifetime in the range of 24,000 hours and a high intensity, clear white light output.
For these reasons, they are used for large area overhead lighting, such as in factories, warehouses, and sports arenas as well as for
streetlights. Clear mercury lamps produce a greenish light due to mercury's combination of spectral lines.
This is not flattering to
human skin color, so such lamps are typically not used in retail stores.
"Color corrected" mercury bulbs overcome this problem with a
phosphor
A phosphor is a substance that exhibits the phenomenon of luminescence; it emits light when exposed to some type of radiant energy. The term is used both for fluorescent or phosphorescent substances which glow on exposure to ultraviolet or vi ...
on the inside of the outer bulb that emits at the red wavelengths, offering whiter light and better
color rendition.
Mercury vapor lights operate at an internal pressure of around one atmosphere and require special fixtures, as well as an
electrical ballast. They also require a warm-up period of four to seven minutes to reach full light output. Mercury vapor lamps are becoming obsolete due to the higher efficiency and better color balance of
metal halide lamps.
Origins
Charles Wheatstone observed the spectrum of an electric discharge in mercury vapor in 1835, and noted the ultraviolet lines in that spectrum. In 1860,
John Thomas Way used arc lamps operated in a mixture of air and mercury vapor at atmospheric pressure for lighting. The German physicist
Leo Arons (1860–1919) studied mercury discharges in 1892 and developed a lamp based on a mercury arc. In February 1896
Herbert John Dowsing and H. S. Keating of England patented a mercury vapor lamp, considered by some to be the first true mercury vapor lamp.
The first mercury vapor lamp to achieve widespread success was invented in 1901 by American engineer
Peter Cooper Hewitt.
Hewitt was issued on September 17, 1901. In 1903, Hewitt created an improved version that possessed higher color qualities which eventually found widespread industrial use.
The ultraviolet light from mercury vapor lamps was applied to water treatment by 1910. The Hewitt lamps used a large amount of mercury. In the 1930s, improved lamps of the modern form, developed by the
Osram-GEC company,
General Electric company and others led to widespread use of mercury vapor lamps for general lighting.
Principle of operation
The mercury in the tube is a liquid at normal temperatures. It needs to be vaporized and
ionized before the lamp can produce its full light output.
To facilitate starting of the lamp, a third
electrode is mounted near one of the main electrodes and connected through a
resistor
A resistor is a passive two-terminal electrical component that implements electrical resistance as a circuit element. In electronic circuits, resistors are used to reduce current flow, adjust signal levels, to divide voltages, bias active el ...
to the other main electrode. In addition to the mercury, the tube is filled with
argon gas at low pressure. When power is applied, if there is sufficient
voltage to ionize the argon, the ionized argon gas will strike a small arc between the starting electrode and the adjacent main electrode. As the ionized argon conducts, the heat from its arc vaporizes the liquid mercury; next, the voltage between the two main electrodes will ionize the mercury gas. An arc initiates between the two main electrodes and the lamp will then radiate mainly in the ultraviolet, violet and blue
emission lines. Continued vaporization of the liquid mercury increases the arc tube pressure to between 2 and 18
bar, depending on lamp size. The increase in pressure results in further brightening of the lamp.
The entire warm-up process takes roughly 4 to 7 minutes. Some bulbs include a thermal switch which shorts the starting electrode to the adjacent main electrode, extinguishing the starting arc once the main arc strikes.
The mercury vapor lamp is a
negative resistance device. This means its
resistance
Resistance may refer to:
Arts, entertainment, and media Comics
* Either of two similarly named but otherwise unrelated comic book series, both published by Wildstorm:
** ''Resistance'' (comics), based on the video game of the same title
** ''T ...
decreases as the
current through the tube increases. So if the lamp is connected directly to a constant-voltage source like the power lines, the current through it will increase until it destroys itself. Therefore, it requires a
ballast to limit the current through it. Mercury vapor lamp ballasts are similar to the ballasts used with
fluorescent lamps. In fact, the first British fluorescent lamps were designed to operate from 80-watt mercury vapor ballasts. There are also self-ballasted mercury vapor lamps available. These lamps use a tungsten filament in series with the arc tube both to act as a resistive ballast and add full spectrum light to that of the arc tube. Self-ballasted mercury vapor lamps can be screwed into a standard incandescent light socket supplied with the proper voltage.
Metal halide
A very closely related lamp design called the
metal halide lamp uses various compounds in an
amalgam with the mercury.
Sodium iodide and
scandium iodide are commonly in use. These lamps can produce much better quality light without resorting to phosphors. If they use a starting electrode, there is always a thermal shorting switch to eliminate any electrical potential between the main electrode and the starting electrode once the lamp is lit. (This electrical potential in the presence of the halides can cause the failure of the glass/metal seal). More modern metal halide systems do not use a separate starting electrode; instead, the lamp is started using high
voltage pulses as with high-pressure sodium vapor lamps.
Self-ballasted lamps
Self-ballasted (SB) lamps are mercury vapor lamps with a
tungsten filament inside connected in series with the arc tube that functions as an electrical ballast. This is the only kind of mercury vapor lamp that can be connected directly to the mains without an external ballast. These lamps have only the same or slightly higher efficiency than incandescent lamps of similar size, but have a longer life. They give light immediately on startup, but usually need a few minutes to restrike if power has been interrupted. Because of the light emitted by the filament, they have slightly better color rendering properties than mercury vapor lamps. Self-ballasted lamps are typically more expensive than a standard mercury vapor lamp.
Operation
When a mercury vapor lamp is first turned on, it will produce a dark
blue glow because only a small amount of the mercury is ionized and the gas pressure in the arc tube is very low, so much of the light is produced in the
ultraviolet mercury bands. As the main arc strikes and the gas heats up and increases in pressure, the light shifts into the
visible range and the high gas pressure causes the mercury emission bands to broaden somewhat, producing a light that appears more nearly white to the human eye, although it is still not a
continuous spectrum
In physics, a continuous spectrum usually means a set of attainable values for some physical quantity (such as energy or wavelength) that is best described as an interval of real numbers, as opposed to a discrete spectrum, a set of attainable ...
. Even at full intensity, the light from a mercury vapor lamp with no phosphors is distinctly bluish in color. The pressure in the quartz arc-tube rises to approximately one atmosphere once the bulb has reached its working temperature. If the discharge should be interrupted (e.g. by interruption of the electric supply), it is not possible for the lamp to restrike until the bulb cools enough for the pressure to fall considerably. The reason for a prolonged period of time before the lamp restrikes is to due the elevated pressure, which leads to higher breakdown voltage of the gas inside (voltage needed to start an arc –
Paschen's law), which is outside the capabilities of the ballast.
Color considerations
To correct the bluish tinge, many mercury vapor lamps are coated on the inside of the outer bulb with a
phosphor
A phosphor is a substance that exhibits the phenomenon of luminescence; it emits light when exposed to some type of radiant energy. The term is used both for fluorescent or phosphorescent substances which glow on exposure to ultraviolet or vi ...
that converts some portion of the ultraviolet emissions into red light. This helps to fill in the otherwise very-deficient red end of the
electromagnetic spectrum. These lamps are generally called "color corrected" lamps. Most modern mercury vapor lamps have this coating. One of the original complaints against mercury lights was they tended to make people look like "bloodless corpses" because of the lack of light from the red end of the spectrum. A common method of correcting this problem before phosphors were used was to operate the mercury lamp in conjunction with an
incandescent lamp
An incandescent light bulb, incandescent lamp or incandescent light globe is an electric light with a wire filament heated until it glows. The filament is enclosed in a glass bulb with a vacuum or inert gas to protect the filament from oxid ...
. There is also an increase in red color (e.g., due to the continuous radiation) in ultra-high-pressure mercury vapor lamps (usually greater than 200 atm.), which has found application in modern media projectors. When outside, coated or color corrected lamps can usually be identified by a blue "halo" around the light being given off.
Emission line spectrum
The strongest peaks of the emission line spectrum are
In low-pressure mercury-vapor lamps only the lines at 184 nm and 254 nm are present. Fused silica is used in the manufacturing to keep the 184 nm light from being absorbed. In medium-pressure mercury-vapor lamps, the lines from 200 to 600 nm are present. The lamps can be constructed to emit primarily in the UV-A (around 400 nm) or UV-C (around 250 nm). High-pressure mercury-vapor lamps are commonly used for general lighting purposes. They emit primarily in the blue and green.
Ultraviolet cleaning
Low-pressure mercury-vapor lamps usually have a
quartz bulb in order to allow the transmission of short
wavelength light. If synthetic quartz is used, then the
transparency
Transparency, transparence or transparent most often refer to:
* Transparency (optics), the physical property of allowing the transmission of light through a material
They may also refer to:
Literal uses
* Transparency (photography), a still ...
of the quartz is increased further and an
emission line at 185 nm is observed also. Such a lamp can then be used for
ultraviolet germicidal irradiation. The 185 nm line will create
ozone in an oxygen containing atmosphere, which helps in the cleaning process, but is also a health hazard.
Light pollution considerations
For placements where
light pollution is of prime importance (for example, an
observatory
An observatory is a location used for observing terrestrial, marine, or celestial events. Astronomy, climatology/meteorology, geophysical, oceanography and volcanology are examples of disciplines for which observatories have been constructed. His ...
parking lot
A parking lot (American English) or car park (British English), also known as a car lot, is a cleared area intended for parking vehicles. The term usually refers to an area dedicated only for parking, with a durable or semi-durable surface ...
),
low-pressure sodium is preferred. As it emits narrow spectral lines at two very close wavelengths, it is the easiest to filter out. Mercury vapor lamps without any phosphor are second best; they produce only a few distinct mercury lines that need to be filtered out.
Bans
In the
EU the use of low efficiency mercury vapor lamps for lighting purposes was banned in 2015. It does not affect the use of mercury in
compact fluorescent lamp, nor the use of mercury lamps for purposes other than lighting.
In the US, ballasts for mercury vapor lamps for general illumination, excluding specialty application mercury vapor lamp ballasts, were banned after January 1, 2008. Because of this, several manufacturers have begun selling replacement compact fluorescent (CFL) and light emitting diode (LED) bulbs for mercury vapor fixtures, which do not require modifications to the existing fixture. The US
Department of Energy determined in 2015 that regulations proposed in 2010 for the mercury vapor type of
HID lamps would not be implemented, because they would not yield substantial savings.
Ultraviolet hazards
The arctube of mercury lamps produces large amount of short wave
UV-C radiation which can cause eye and skin burn. Usually the glass outer jacket of the lamp and in some lamps, also the phosphor coating, block this radiation. However, a care should be taken if the outer jacket of the lamp breaks, because the arctube would continue to operate, presents a safety hazard. There have been documented cases in the United States, of lamps being damaged in
gymnasiums by balls striking the lamps, resulting in
sun burns and eye inflammation from shortwave ultraviolet radiation.
When used in locations like gyms, the fixture should contain a strong outer guard or an outer lens to protect the lamp's outer bulb. As a result of the said documented cases, some American manufacturers made "safety" lamps that will deliberately burn out if the outer glass is broken. This is usually achieved by using a thin tungsten strip, which will
burn up in the presence of air, to connect one of the electrodes.
Typical mercury vapor lamps with an outer envelope made of
soda lime or
borosilicate glass still allow a relatively large amount of 365 nm UV radiation to escape the lamp. This can cause the
accelerated aging of some plastics used in the construction of luminaires, leaving them significantly discolored after only a few years' service.
Polycarbonate
Polycarbonates (PC) are a group of thermoplastic polymers containing carbonate groups in their chemical structures. Polycarbonates used in engineering are strong, tough materials, and some grades are optically transparent. They are easily work ...
suffers particularly from this problem and it is not uncommon to see fairly new polycarbonate surfaces positioned near the lamp to have turned a dull, yellow color after only a short time.
Uses
Area and street lighting
Although other types of
HIDs are becoming more common, mercury vapor lamps are still sometimes used for area lighting and
street lighting in the United States, Canada and Japan.
UV curing
Mercury vapor lamps are used in the printing industry to cure inks. These are typically high powered to rapidly cure and set the inks used. They are enclosed and have protections to prevent human exposure as well as specialised exhaust systems to remove the ozone generated.
Molecular spectroscopy
High-pressure mercury vapor (and some specially-designed metal-halide) lamps find application in molecular spectroscopy due to providing useful broadband continuum ("noise") energy at millimeter and terahertz wavelengths, owing to the high electron temperature of the arc plasma; the main UV emission line of ionized mercury (254 nm) correlates to a blackbody of T= 11,500 K. This property makes them among the very few simple, inexpensive sources available for generating such frequencies. For example, a standard 250-watt general-lighting mercury lamp produces significant output from 120 GHz to 6 THz. In addition, shorter wavelengths in the mid-infrared are emitted from the hot quartz arc-tube envelope. As with the ultraviolet output, the glass outer bulb is largely opaque at these frequencies and thus for this purpose needs to be removed (or omitted in purpose-made lamps).
Projection
Special ultra high-pressure mercury vapor lamps called
Ultra-high-performance lamps or UHP lamps, are commonly used in digital
video projectors, including
DLP,
3LCD
3LCD is the name and brand of a major LCD projection color image generation technology used in modern digital projectors. 3LCD technology was developed and refined by Japanese imaging company Epson in the 1980s and was first licensed for use in ...
and
LCoS projectors.
See also
*
History of street lighting in the United States
The history of street lighting in the United States is closely linked to the Urbanization in the United States, urbanization of America. Lighting, Artificial illumination has stimulated commercial activity at night, and has been tied to the coun ...
*
List of light sources
*
Ultra High Performance lamp
References
Further reading
*
Museum of Electric Lamp Technology
External links
*
{{Authority control
Articles containing video clips
Gas discharge lamps
Mercury (element)