Energy & Power - Overview
The Museum's collections on energy and power illuminate the role of fire, steam, wind, water, electricity, and the atom in the nation's history. The artifacts include wood-burning stoves, water turbines, and windmills, as well as steam, gas, and diesel engines. Oil-exploration and coal-mining equipment form part of these collections, along with a computer that controlled a power plant and even bubble chambers—a tool of physicists to study protons, electrons, and other charged particles.
A special strength of the collections lies in objects related to the history of electrical power, including generators, batteries, cables, transformers, and early photovoltaic cells. A group of Thomas Edison's earliest light bulbs are a precious treasure. Hundreds of other objects represent the innumerable uses of electricity, from streetlights and railway signals to microwave ovens and satellite equipment.
"Energy & Power - Overview" showing 63 items.
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Modular Compact Fluorescent Lamp
- Description
- After decades of constant decline, the cost of electricity in the U.S. began to rise beginning in the 1960s. The change occurred for many reasons, one of which was continually growing demand for electric power. During the 1980s electric utilities that had traditionally concerned themselves with managing the supply of power began adopting so-called Demand Side Management programs (DSM). The idea centered on encouraging the use of special pricing and greater energy efficiency to slow the need for new power plants and transmission lines.
- While many DSM programs focused on commercial and industrial power users, some targeted residential consumers. One popular program involved utilities' swapping regular incandescent lamps for new, energy-efficient compact fluorescent lamps (CFLs). The participating utility purchased a large quantity of CFLs from a lamp maker at a discount and then provided the lamps to consumers at a reduced price, or sometimes for free. Some governments provided subsidies to help cover the costs.
- Bulb-swaps introduced many people to energy-efficient CFLs. They also provided a market demand during the early years of CFL production when lamp makers were still paying for the new production lines needed to make the new lamps. As more lamps were produced, prices began to decline. This "Super Q'Lite" modular lamp from Lights Of America was offered by Washington, DC utility PEPCO in 1994 as part of a DSM program. Using only 27 watts, it replaced a regular lamp that used 100 watts.
- Lamp characteristics: A modular compact fluorescent lamp with two parts—a tube assembly and a base-unit. The original package and coupon book were collected with this lamp. The tube assembly consists of a four-tube glass structure with two electrodes, mercury and an internal phosphor coating. Plug-in style base. The base-unit has a medium-screw shell and houses the ballast and starter equipment. A receptacle on top accepts the plug-in base of the tube assembly.
- date made
- ca. 1992
- Date made
- ca 1992
- Maker
- Lights of America, Inc.
- ID Number
- 1996.0357.05
- accession number
- 1996.0357
- catalog number
- 1996.0357.05
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Microwave-powered ultraviolet lamp
- Description
- When most people think of electric lighting, they think of ordinary lamps used for lighting rooms or shops. But many types of lamps are made for use in highly specialized applications. One example is a successful product made by Fusion Systems. Founded by four scientists and an engineer, the company markets an ultraviolet (UV) lighting system powered by microwaves. Introduced in 1976, the system found a market in industrial processing as a fast, efficient way to cure inks. A major brewery, for example, purchased the system for applying labels to beer cans and quickly curing their inks while the bottles went down the production line.
- The lamp seen here is a typical production unit. As in a fluorescent lamp, this lamp makes ultraviolet light by energizing mercury vapor. Fluorescents and other conventional lamps pass an electric current between two electrodes to energize the mercury. But Fusion's lamp has no electrodes. Instead the lamp is placed in a specially made fixture similar in principle to a household microwave oven. The microwaves energize the mercury vapor directly. A small dose of metal halides is also energized in the lamp. The choice of metal halides allows specific wavelengths of light to be produced to meet different needs.
- Profits made from the production of this industrial lamp were used by the company to support research and development of a microwave-powered lamp that made visible light. Instead of mercury that lamp used sulfur. However this sulfur lamp did not sell well when introduced in the mid-1990s.
- Lamp characteristics: Clear quartz tube containing a metal-halide pellet and a drop of mercury. No electrodes. The tube is rotated while being radiated by microwaves and produces ultraviolet light.
- date made
- ca. 1996
- Date made
- ca 1996
- maker
- Fusion Lighting, Inc.
- ID Number
- 1996.0359.03
- catalog number
- 1996.0359.03
- accession number
- 1996.0359
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Integral Compact Fluorescent Lamp
- Description
- An unusual looking type of compact fluorescent lamp (CFLs) has spiral tubes, like this "Spiralux" lamp made by Duro-Test in 1996. Several manufacturers developed and now produce spiral CFLs. While the equipment to make these spiral tubes proved expensive to develop, the design addresses two problems.
- CFL engineers faced a problem stemming from the fact that energy efficiency in fluorescent lamps depends in part on the distance the electric current travels between the two electrodes, called the arc path. A long arc path is more efficient than a short arc path. But most residential fixtures are designed to accept lamps the size of ordinary incandescent bulbs. So CFLs have been made with a variety of bent, folded, and connected tubes--all intended to put a long arc-path into a small lamp, the spiral design being one such.
- The second problem centered on how light generated by the lamp interacted with shades and reflectors on fixtures. Most incandescent lamp fixtures are designed to use frosted or so-called soft white lamps. The coatings prevent the filament from being seen, making it look like the entire glass bulb is glowing. Shades and reflectors used in regular fixtures are designed using the science of optics to spread and direct the light in predictable patterns. CFLs, with their glowing tubes, are not shaped correctly for regular fixtures, causing light from the fixtures to be emitted in undesired patterns. Spiral CFLs closely mimic the shape of a glowing incandescent lamp so the optical design of the fixture operates as intended.
- Lamp characteristics: Brass, medium-screw base with plastic skirt and glass base-insulator. Spiral-shaped discharge tube with internal phosphor coating, mercury, and two tungsten electrodes. The shape is intended to simulate an ordinary A-lamp.
- date made
- ca. 1996
- Date made
- ca 1996
- manufacturer
- DURO-TEST Corporation
- ID Number
- 1997.0062.07
- catalog number
- 1997.0062.07
- accession number
- 1997.0062
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Modular Compact Fluorescent Lamp
- Description
- One method that companies have long used to minimize production costs is to design products that use many of the same parts. In the early 1990s Duro-Test Lighting used this approach in a series of modular compact fluorescent lamps (CFLs).
- Modular CFLs are designed so that specific parts can be replaced if they fail. This allows the reuse of expensive parts that still work. In this particular lamp, the fluorescent tube and the reflector enclosing it are made as one piece; the base-unit that houses the ballast and starter are another. In addition to allowing one to replace the tube assembly if it failed, one could swap different assemblies. The reflector lamp could be changed to a decorative lamp for example, without having to remove the base-unit.
- Since the price of electronic components has dropped since this lamp was made, the economic reasoning behind this feature is less persuasive.
- Lamp characteristics: Two-piece, modular compact fluorescent lamp including a base-unit and a tube assembly. The base-unit has a medium-screw base-shell with plastic insulator, and a plastic skirt that houses a ballast and a starter. A socket on top accepts a plug-in base. Tube assembly includes plastic plug-in base, a fluorescent tube with two electrodes, mercury, and a phosphor coating. A glass R-shaped envelope with silvered coating serves as a reflector and is glued to the tube assembly's base.
- Date made
- January 1991
- 1991-01
- manufacturer
- DURO-TEST Corporation
- ID Number
- 1997.0062.09
- catalog number
- 1997.0062.09
- accession number
- 1997.0062
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Modular compact fluorescent lamp
- Description
- A major hurdle that makers of compact fluorescent lamps (CFLs) have faced stems from the unusual shapes of the lamps, as compared to traditional incandescent lamps. Consumers have grown used to what light bulbs "are supposed" to look like. Many have rejected CFLs for that reason despite the potential cost savings.
- As lamp makers refined their understanding of the new product, designs were introduced to meet consumers' preferences for less-intrusive styles. Duro-Test developed a series of five modular CFLs around 1996, including this "Duro-Brite" unit that has a removable glass globe covering the twin-tube lamp. Another unit in the collection sports a removable glass reflector. The base-units contain the lamp's ballast and starter, and the tube assemblies themselves are interchangeable.
- This unit is a modular CFL with three components: a tube assembly, an adapter, and a glass cover.
- Lamp characteristics: Tube assembly is a twin-tube unit mounted on a plastic base. The adapter has a medium-screw base-shell with an insulator that is part of the plastic skirt housing the ballast. A G23 socket is on top for the tube assembly, and key-slots are molded around the edge to attach the cover. Cover is a G-shaped, clear-glass envelope with aluminum collar at bottom. There are stamped protrusions on the inside of the collar to mount the cover onto the adapter. Electrical rating is 13 watts.
- date made
- ca. 1996
- Date made
- ca 1996
- manufacturer
- DURO-TEST Corporation
- ID Number
- 1997.0062.11
- catalog number
- 1997.0062.11
- accession number
- 1997.0062
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Modular fluorescent lamp
- Description
- In the wake of soaring energy prices in the 1970s, several manufacturers quickly introduced new lamp designs to meet a demand for efficient lighting devices. General Electric mounted a circular fluorescent tube on an adapter that housed a starter and ballast, and that could screw into an ordinary fixture. Called the Circlite, this hybrid product was introduced to the public in 1976.
- Since circular fluorescent tubes were already a mature product (originally developed in 1943), GE could take advantage of existing research data and production lines for the Circlite. Also, retailers and consumers were familiar with circular lamps, which eased resistance to the introduction of the new unit. The modular design allowed users to replace the tube when it failed, without having to replace the more expensive ballast package. Ultimately, GE and other manufacturers produced several versions of the lamp and refined the product. A light-weight electronic ballast replaced the heavier, less-efficient magnetic ballast used in this 1978 model, for example. As of today Circlites remain in production.
- Lamp characteristics: A modular fluorescent lamp with three components: ballast, mounting frame, and lamp. Ballast: aluminum medium-screw base with brass contact and a glass insulator. A plastic skirt houses a magnetic ballast and a receptacle for a circular fluorescent lamp frame. Mounting frame: a three-arm plastic frame (made in two halves) with a sliding switch to release the ballast. The ballast mounts at center of mounting frame. Lamp: circular fluorescent tube with soft white colored phosphor.
- Location
- Currently not on view
- date made
- ca. 1978
- Date made
- ca 1978
- manufacturer
- General Electric
- ID Number
- 1997.0388.25
- accession number
- 1997.0388
- catalog number
- 1997.0388.25
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Experimental "Magnetic Arc-Spreading" compact fluorescent lamp
- Description
- The energy crises of the 1970s inspired inventors to try novel ideas for new light bulbs. One of the more unusual designs emerged from the drawing board of Manhattan Project veteran Leo Gross. Supported by Merrill Skeist at Spellman High Voltage Electronics Corporation, Gross designed a compact fluorescent lamp that he called a "magnetic arc spreader" (MAS).
- The design took advantage of a fundamental aspect of electro-magnetism known since the early 1800s. When a current flows through a coil of wire, it produces a magnetic field. The arc discharge that travels between the electrodes of a fluorescent lamp can be affected by the presence of such a field. In the center of the MAS lamp seen here there is a copper coil. Current moving through the coil creates a magnetic field that spreads out the electrical arc within the lamp. The expanded arc energizes phosphor throughout the lamp's entire length.
- The concept was tested at Lawrence Berkeley Laboratory, and General Electric became interested. In 1978 GE purchased a one-year license from Spellman in order to conduct further tests but determined that the necessary glasswork would make the lamp too expensive for commercial production. GE donated one of their test lamps to the Smithsonian in 1998—the only known surviving example of this experimental design.
- Lamp characteristics: No base. Two stranded lead-wires extend about 2" from either end, and each end has one lead wire encased in a glass insulating tube. Two coiled tungsten electrodes are mounted in a hollow cylindrical envelope. The exhaust tip is near one set of leads, and the envelope has an internal phosphor coating. A coil of bare copper wire held together with black string is inserted into the center of the envelope. A current passing thru this coil spreads the arc between electrodes so that more of the phosphor is activated.
- Date made
- ca 1978
- date made
- ca. 1978
- maker
- General Electric Corporate Research & Development Laboratory
- inventor
- Spellman High Voltage Electronics Corp.
- ID Number
- 1998.0050.15
- accession number
- 1998.0050
- catalog number
- 1998.0050.15
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Thomson DC Generator
- Description
- This model of a direct-current generator was designed by Elihu Thomson to produce a constant voltage. It could also be used as a motor that would maintain a constant speed. It came to the Smithsonian from the U. S. Patent Office, representing patent number 333,573, issued to Thomson on January 5, 1886. The patent itself indicates that no model was submitted (which is not surprising since by that time models were not required), and this example was probably given to the Patent Office at a slightly later date for display purposes.
- Thomson and Edwin Houston were school teachers in Philadelphia in the 1870s when they formed a partnership (the Thomson-Houston Company) to enter the new and competitive arc-lighting field. They produced a number of successful generators, motors, meters, and lighting devices. Most of their system employed alternating current, which was as good as direct current for lighting. With the development of the transformer in the mid-1880s, AC systems assumed added importance because electricity generated at a low voltage could now be converted to high voltage for more efficient transmission and then converted back to safer low voltage for use by consumers. But electro-chemical applications (like plating) required DC generators, and, until the invention of a practical AC motor by Nikola Tesla at the end of the 1880s, street railways depended on DC.
- Thomson-Houston merged with Edison's company in 1892 to form General Electric.
- Location
- Currently not on view
- Date made
- 1886
- patent date
- 1886-01-05
- associated person
- Thomson, Elihu
- associated company
- Thomson-Houston Electric Company
- maker
- Thomson, Elihu
- ID Number
- EM*252663
- catalog number
- 252663
- patent number
- 333573
- accession number
- 49064
- Data Source
- National Museum of American History, Kenneth E. Behring Center
General Electric Demonstration Fluorescent Lamp
- Description
- In the late 1920s and early 1930s, reports began reaching GE and Westinghouse of French experiments with neon tubes coated with phosphors. A phosphor is a material that absorbs one type of light and radiates another. American scientist Arthur Compton, a consultant to GE, reported seeing a green French lamp giving 30 lumens per watt in 1934, and his report sparked an intensive, cooperative research program to make a fluorescent lamp. In 1936, this tube using low pressure mercury vapor and a coating of phosphors was quietly demonstrated to the Illuminating Engineering Society and the U.S. Navy.
- In 1939, GE and Westinghouse publicly introduced fluorescent lamps at both the New York World's Fair and the Golden Gate Exposition in San Francisco. Other lamp makers like Sylvania and Duro-Test soon followed. The need for efficient lighting in wartime factories brought rapid adoption of fluorescent lighting and by 1951 industry sources reported that more light in the United States was being produced by fluorescent lamps than by incandescent lamps.
- Location
- Currently not on view
- Date made
- 1936
- maker
- General Electric Company
- ID Number
- EM*318197
- catalog number
- 318197
- accession number
- 232822
- Data Source
- National Museum of American History, Kenneth E. Behring Center
Reproduction Edison Lamp with Box
- Description (Brief)
- This lamp was mass-produced for the centennial of Edison’s invention.
- Location
- Currently not on view
- date made
- ca 1979
- ID Number
- 1984.0314.03
- accession number
- 1984.0314
- catalog number
- 1984.0314.03
- Data Source
- National Museum of American History, Kenneth E. Behring Center