Types Of Illumination(En Inglés)

Lighting or illumination is the deliberate application of light to achieve some practical or aesthetic effect. Lighting includes the use of both artificial light sources such as lamps and light fixtures, as well as natural illumination by capturing daylight. Daylighting (using windows, skylights, or light shelves) is often used as the main source of light during daytime in buildings. This can save energy compared with artificial lighting, which represents a major component of energy consumption in buildings. Without proper design, energy can be wasted by using too much light, or using out-dated technology. Proper lighting can enhance task performance, improve the appearance of an area, and have positive psychological effects on occupants. One of the core tenets of proper lighting is uniform illumination, which is required in many applications such as projection displays, LCD backlights, medical lighting, microscopy, solid-state lighting, and general lighting.^[1]

Indoor lighting is usually accomplished using light fixtures, and is a key part of interior design. Lighting can also be an intrinsic component of landscape projects.

Lighting fixtures come in a wide variety of styles for various functions. The most important functions are as a holder for the light source, to provide directed light and to avoid visual glare. Some are very plain and functional, while some are pieces of art in themselves. Nearly any material can be used, so long as it can tolerate the excess heat and is in keeping with safety codes.

An important property of light fixtures is the luminous efficacy or wall-plug efficiency, meaning the amount of usable light emanating from the fixture per used energy, usually measured in lumenper watt. A fixture using replaceable light sources can also have its efficiency quoted as the percentage of light passed from the "bulb" to the surroundings. The more transparent the lighting fixture is, the higher efficacy. Shading the light will normally decrease efficacy but increase the directionality and the visual comfort probability.

Color temperature for white light sources also affects their use for certain applications. The color temperature of a white light source is the temperature in Kelvin of a theoretical black body emitter that most closely matches the spectral characteristics of the lamp. An incandescent bulb has a color temperature around 2800 to 3000 Kelvin; daylight is around 6400 Kelvin. Lower color temperature lamps have relatively more energy in the yellow and red part of the visible spectrum, while high color temperatures correspond to lamps with more of a blue-white appearance. For critical inspection or color matching tasks, or for retail displays of food and clothing, the color temperature of the lamps will be selected for the best overall lighting effect.

Types

A demonstration of the effects of different kinds of lighting

Lighting is classified by intended use as general, accent, or task lighting, depending largely on the distribution of the light produced by the fixture.

• Task lighting is mainly functional and is usually the most concentrated, for purposes such as reading or inspection of materials. For example, reading poor-quality reproductions may require task lighting levels up to 1500 lux (150 footcandles), and some inspection tasks or surgicalprocedures require even higher levels.
• Accent lighting is mainly decorative, intended to highlight pictures, plants, or other elements of interior design or landscaping.
• General lighting (sometimes referred to as ambient light) fills in between the two and is intended for general illumination of an area. Indoors, this would be a basic lamp on a table or floor, or a fixture on the ceiling. Outdoors, general lighting for a parking lot may be as low as 10-20 lux (1-2 footcandles) since pedestrians and motorists already used to the dark will need little light for crossing the area.

• Methods

  • Downlighting is most common, with fixtures on or recessed in the ceiling casting light downward. This tends to be the most used method, used in both offices and homes. Although it is easy to design it has dramatic problems with glare and excess energy consumption due to large number of fittings.^[2]
  • Uplighting is less common, often used to bounce indirect light off the ceiling and back down. It is commonly used in lighting applications that require minimal glare and uniform general illuminance levels. Uplighting (indirect) uses a diffuse surface to reflect light in a space and can minimize disabling glare on computer displays and other dark glossy surfaces. It gives a more uniform presentation of the light output in operation. However indirect lighting is completely reliant upon the reflectance value of the surface. While indirect lighting can create a diffused and shadow free light effect it can be regarded as an uneconomical lighting principle.^[3][4]
  • Front lighting is also quite common, but tends to make the subject look flat as its casts almost no visible shadows. Lighting from the side is the less common, as it tends to produce glare neareye level. Backlighting either around or through an object is mainly for accent.

  • Indoor lighting

    

    

    LED Lighting furniture by Manfred Kielnhofer
    Forms of lighting include alcove lighting, which like most other uplighting is indirect. This is often done with fluorescent lighting (first available at the 1939 World's Fair) or rope light, or occasionally with neon lighting. It is a form of backlighting.
    Soffit or close to wall lighting can be general or a decorative wall-wash, sometimes used to bring out texture (like stucco or plaster) on a wall, though this may also show its defects as well. The effect depends heavily on the exact type of lighting source used.
    Recessed lighting (often called "pot lights" in Canada, "can lights" or 'high hats" in the US) is popular, with fixtures mounted into the ceiling structure so as to appear flush with it. These downlights can use narrow beam spotlights, or wider-angle floodlights, both of which are bulbs having their ownreflectors. There are also downlights with internal reflectors designed to accept common 'A' lamps (light bulbs) which are generally less costly than reflector lamps. Downlights can be incandescent, fluorescent, HID (high intensity discharge) or LED.
    Track lighting, invented by Lightolier, was popular at one point because it was much easier to install than recessed lighting, and individual fixtures are decorative and can be easily aimed at a wall. It has regained some popularity recently in low-voltage tracks, which often look nothing like their predecessors because they do not have the safety issues that line-voltage systems have, and are therefore less bulky and more ornamental in themselves. A master transformer feeds all of the fixtures on the track or rod with 12 or 24 volts, instead of each light fixture having its own line-to-low voltage transformer. There are traditional spots and floods, as well as other small hanging fixtures. A modified version of this is cable lighting, where lights are hung from or clipped to bare metal cables under tension.
    A sconce is a wall-mounted fixture, particularly one that shines up and sometimes down as well. A torchiere is an uplight intended for ambient lighting. It is typically a floor lamp but may be wall-mounted like a sconce.
    The portable or table lamp is probably the most common fixture, found in many homes and offices. The standard lamp and shade that sits on a table is general lighting, while the desk lamp is considered task lighting. Magnifier lamps are also task lighting.
    

    

    Animated fountain in Moscow's Square of Europe, lit at night.
    The illuminated ceiling was once popular in the 1960s and 1970s but fell out of favor after the 1980s. This uses diffuser panels hung like a suspended ceiling below fluorescent lights, and is considered general lighting. Other forms include neon, which is not usually intended to illuminate anything else, but to actually be an artwork in itself. This would probably fall under accent lighting, though in a dark nightclub it could be considered general lighting.
    In a movie theater each step in the aisles is usually marked with a row of small lights, for convenience and safety when the film has started, hence the other lights are off. Traditionally made up of small low wattage, low voltage lamps in a track or translucent tube, these are rapidly being replaced with LED based versions.
    
    
    Street Lights are used to light roadways and walkways at night. Some manufacturers are designing LED and photovoltaic luminaires to provide an energy-efficient alternative to traditional street light fixtures.^[5][6][7]
    

    

    Floodlights are used to illuminate outdoor playing fields or work zones during nighttime.
    Floodlights can be used to illuminate outdoor playing fields or work zones during nighttime hours. The most common type of floodlights are metal halide and high pressure sodium lights.
    Beacon lights are positioned at the intersection of two roads to aid in navigation.
    Security lights can be used along roadways in urban areas, or behind homes or commercial facilities. These are extremely bright lights used to deter crime. Security lights may include floodlights.
    Entry lights can be used outside to illuminate and signal the entrance to a property.^[8] These lights are installed for safety, security, and for decoration.
    Underwater accent lighting is also used for koi ponds, fountains, swimming pools and the like.
    Vehicles typically include headlamps and tail lights. Headlamps are white or selective yellow lights placed in the front of the vehicle, designed to illuminate the upcoming road and to make the vehicle more visible. Many manufactures are turning to LED headlights as an energy-efficient alternative to traditional headlamps.^[9] Tail and brake lights are red and emit light to the rear so as to reveal the vehicle's direction of travel to following drivers. White rear-facing reversing lamps indicate that the vehicle's transmission has been placed in the reverse gear, warning anyone behind the vehicle that it is moving backwards, or about to do so. Flashing turn signals on the front, side, and rear of the vehicle indicate an intended change of position or direction. In the late 1950s, some automakers began to use electroluminescent technology to backlight their cars' speedometers and other gauges or to draw attention to logos or other decorative elements.
    Commonly called 'light bulbs', lamps are the removable and replaceable part of a light fixture, which converts electrical energy into electromagnetic radiation. While lamps have traditionally been rated and marketed primarily in terms of their power consumption, expressed in watts, proliferation of lighting technology beyond the incandescent light bulb has eliminated the correspondence of wattage to the amount of light produced. For example, a 60 W incandescent light bulb produces about the same amount of light as a 13 W compact fluorescent lamp. Each of these technologies has a different efficacy in converting electrical energy to visible light. Visible light output is typically measured in lumens. This unit only quantifies the visible radiation, and excludes invisible infrared and ultraviolet light. A wax candle produces on the close order of 13 lumens, a 60 watt incandescent lamp makes around 700 lumens, and a 15-watt compact fluorescent lamp produces about 800 lumens, but actual output varies by specific design.^[10] Rating and marketing emphasis is shifting away from wattage and towards lumen output, to give the purchaser a directly applicable basis upon which to select a lamp.

Cementerio Nuclear

Cementerio nuclear es un término coloquial en español que se refiere a cualquier lugar utilizado para almacenar residuos radiactivos producidos enreacciones nucleares, independientemente de su naturaleza y del tipo de residuo almacenado.

Los residuos radiactivos normalmente constan de una serie de radioisótopos: configuraciones inestables de los elementos que emiten radiaciones ionizantesque pueden ser nocivas para la salud humana y el medio ambiente. Los isótopos emiten diferentes tipos y niveles de radiación, durante períodos distintos para cada uno de ellos.

Bajo el término genérico cementerio nuclear se encuentran las distintas ubicaciones que se han buscado para alojar este tipo de materiales, y que han sido condicionadas por el tipo de radiación de los residuos. Son considerados cementerios nucleares los almacenes de residuos de baja actividad, los almacenes temporales, los almacenes geológicos profundos y las zonas del fondo oceánico utilizadas para el vertido de residuos radiactivos, denominados en ocasiones almacenes submarinos.

Atendiendo a las caracaterísticas de su gestión, los residuos radiactivos suelen clasificarse según su período de actividad radiactiva en:

• Residuos de baja actividad: son los generados por los hospitales y la industria, así como en el tratamiento del combustible nuclear. Constan de papel, trapos, herramientas, ropa, filtros, etc., que suelen contener pequeñas cantidades de radiación de corta duración (un periodo de semidesintegración de hasta 30 años).¹

• Residuos de media actividad: contienen cantidades más altas de radiactividad y, en algunos casos, requieren protección. Incluyen resinas, productos químicos y lodos del reactor nuclear, así como los materiales contaminados de desmantelamiento del reactor. Suelen ser solidificados en hormigón o alquitrán para su eliminación. Su periodo de semidesintegración es también de hasta 30 años.²

• Residuos de alta actividad: son los producidos por los reactores nucleares. Contienen productos de fisión y elementos transuránicos generados en el núcleo del reactor. Son altamente radiactivos y a menudo térmicamente calientes. Los residuos de alta actividad suponen más del 95 % de la radiactividad total producida en el proceso de generación de electricidad nuclear. Son todos aquellos cuyo proceso de semidesintegración supera los 30 años. Entre estos residuos se encuentran el plutonio 240, que tarda aproximadamente 6600 años en desintegrarse; y el neptunio 237, con una vida media de 2 130 000 años.

  De residuos de baja actividad

  Los almacenes de residuos de baja y media actividad suelen ubicarse en superficie o a baja profundidad, y en ocasiones aprovechando minas abandonadas. Albergan todo tipo de residuos de baja y media actividad, y están diseñados con un sistema de barreras múltiples, tanto naturales como artificiales, en zonas geológicamente estables e impermeables.¹ Además, los residuos se ubican en contenedores para evitar su contacto con el exterior.

  Almacenes temporales

  El almacén temporal centralizado (ATC) está diseñado para albergar residuos de alta actividad. En su interior se gestionan los residuos radiactivos, bien como solución temporal para su aislamiento, o bien con el objetivo de tratar y reciclar estos residuos. En países como Francia o el Reino Unido, se encuentran anexos a plantas de reprocesado, donde se separa cualquier elemento utilizable, como el uranio y el plutonio, de productos de fisión y otros materiales existentes en el combustible nuclear gastado en los reactores nucleares. El problema de este tipo de instalación es que está concebida para el almacenamiento durante menos de 100 años, mientras que este tipo de residuos tienen una vida máxima superior a 300 años.³

  Almacenes geológicos

  El almacenamiento geológico profundo (AGP) se utiliza para residuos de alta actividad, y es el lugar donde deben almacenarse éstos durante un periodo de miles de años. Su utilización está justificada por motivos tecnológicos, ambientales y de seguridad, éticos y de buena práctica internacional. Asegura la protección a largo plazo del ser humano y del medio ambiente contra las radiaciones, aprovechando formaciones geológicas que permitan ubicar estos residuos tan duraderos. Los factores más importantes de este tipo de almacenado son la formación geológica a utilizar (como simas y cuevas) y las barreras artificiales para aislarlo del medio.⁴

  El sistema se encuentra en fase de desarrollo; si bien la mayoría de países con un alto desarrollo nuclear se encuentran en fase de estudio de ubicaciones idóneas, en Nuevo México funciona el único AGP del mundo, el Waste Isolation Pilot Plant, destinado a residuos militares de Estados Unidos.

  Accidentes

  
  

  

  Cartel de entrada a Hanford Site.
  El almacenamiento de este tipo de residuos en cantidades importantes les convierte en lugares altamente peligrosos, por lo que son objeto de extremas medidas de seguridad. No obstante, a lo largo de la historia se han producido algunos accidentes que han producido fugas radiactivas a la atmósfera.
  • Entre 1948 y 1951, se produjeron fugas en un almacén en la Unión Soviética que provocó un vertido al río Tetcha, lo que provocó la evacuación de más de 7.000 personas.⁵
  • El 29 de septiembre de 1957 la planta rusa de Mayak sufrió la explosión de un contenedor que liberó 2.000.000 de curios, lo que provocó la evacuación de 11.000 personas y la muerte de un número indeterminado, siendo el segundo accidente nuclear más grave de la historia de la URSStras el accidente de Chernóbil.⁵ El biólogo disidente Zhores Medvedev afirmó en 1978 que este accidente había provocado centenares de muertos, hecho ocultado por el régimen soviético.
  • El 20 de abril de 1973, en las instalaciones de Hanford Site, en Estados Unidos, un tanque de residuos dejó escapar 435.000 litros de residuos líquidos altamente radiactivos de cesio, estroncio y plutonio.
  • En 1993 se produjeron dos graves accidentes en instalaciones ex soviéticas que ocasionaron las consiguientes fugas radiactivas en los depósitos de Tomsk (en abril) y de nuevo Mayak (en julio), lo que puso en evidencia la seguridad de los depósitos en la antigua URSS.