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  • Wind farm producing electricity at Altamont, California. Wind turbines. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_51_xs.jpg
  • Wind farm producing electricity at Altamont, California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_47_xs.jpg
  • Wind farm producing electricity at Altamont, California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_50_xs.jpg
  • Wind farm producing electricity at San Gorgonio Pass, near Palm Springs, California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1986).
    USA_SCI_ENGY_48_xs.jpg
  • Wind farm producing electricity at Altamont, California. Wind turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1985).
    USA_SCI_ENGY_55_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1983).
    USA_SCI_ENGY_54_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1983).
    USA_SCI_ENGY_53_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1989).
    USA_SCI_ENGY_49_xs.jpg
  • Wind farm producing electricity at Tehachapi Pass, southern California. Wind Turbines. View of a wind farm with several wind turbines each with 3 spinning rotor blades. Wind power is used to drive a turbine for the generation of electricity. The electrical energy produced from a turbine is proportional to the cube of the wind speed. Thus, a 10-meter per second wind will produce 8 times more energy than a 5 meter per second wind. Wind turbines vary in size from large generators with a 1-3 megawatt capacity to small machines producing only a few kilowatts. (1983).
    USA_SCI_ENGY_52_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. MODEL RELEASED (1985).
    USA_SCI_ENGY_69_xs.jpg
  • Used tires entering a prototype burning-burning power station in Westley, California. The tires are used as fuel to run an electricity generator. It is estimated that one tire can serve the energy needs of the average northern California household for a day. A tire mountain containing around 40 million tires dominates the landscape (background); the plant is expected to burn some 4 million tires annually. Several environmental protection systems reduce emissions from the plant; a smog-control system neutralizes nitrous oxides, a scrubber system removes sulphur & a giant vacuum cleaner removes fly ash. Both the sulphur & the zinc- containing fly ash are recycled. (1988).
    USA_SCI_ENGY_66_xs.jpg
  • Mountain of used tires at a prototype tire- burning power station in Westley, California. The tires are used as fuel to run an electricity generator. It is estimated that one tire can serve the energy needs of the average northern California household for a day. The mountain contains around 40 million tires & the plant is expected to burn some 4 million tires annually. Several environmental protection systems reduce emissions from the plant; a smog-control system neutralizes nitrous oxides, a scrubber system removes sulphur & a giant vacuum cleaner removes fly ash. Both the sulphur & the zinc-containing fly ash are recycled. (1988).
    USA_SCI_ENGY_65_xs.jpg
  • Mountain of used tires at a prototype tire- burning power station in Westley, California. The tires are used as fuel to run an electricity generator. It is estimated that one tire can serve the energy needs of the average northern California household for a day. The mountain contains around 40 million tires & the plant is expected to burn some 4 million tires annually. Several environmental protection systems reduce emissions from the plant; a smog-control system neutralizes nitrous oxides, a scrubber system removes sulphur & a giant vacuum cleaner removes fly ash. Both the sulphur & the zinc-containing fly ash are recycled. (1988).
    USA_SCI_ENGY_64_xs.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_162_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_132_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_159_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_158_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_144_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_138_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_134_x.jpg
  • Glen Canyon Dam, Lake Powel, UT
    USA_100528_150_x.jpg
  • 80 panel photovoltaic electric array on Menzel and D'Alusio property in Napa Valley, CA. Nearly zeros out electric PG&E fees by providing power to the grid which runs the meter backward during daylight hours.
    USA_101019_12.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river. Here, across the river, a ghat is dedicated to sadhus and nagas so they can bathe in relative peace.
    IND_082_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_072_xs.jpg
  • Nuclear Energy: California Diablo Canyon Nuclear Power Plant in California. The plant has two reactor units, which combined have a net power capacity of nearly 1200 megawatts. The plant, operated by the Pacific Gas and Electric Company, became commercially operational in 1977. (1985).
    USA_SCI_ENGY_62_xs.jpg
  • 80 panel photovoltaic electric array on Menzel and D'Alusio property in Napa Valley, CA. Nearly zeros out electric PG&E fees by providing power to the grid which runs the meter backward during daylight hours.
    USA_101019_14.jpg
  • 80 panel photovoltaic electric array on Menzel and D'Alusio property in Napa Valley, CA. Nearly zeros out electric PG&E fees by providing power to the grid which runs the meter backward during daylight hours.
    USA_101019_11_x.jpg
  • 80 panel photovoltaic electric array on Menzel and D'Alusio property in Napa Valley, CA. Nearly zeros out electric PG&E fees by providing power to the grid which runs the meter backward during daylight hours.
    USA_101004_058_x.jpg
  • Pilgrims at Kumbh Mela. Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_093_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river. Here, across the river, a ghat is dedicated to sadhus and nagas so they can bathe in relative peace.
    IND_086_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river. Here, across the river, a ghat is dedicated to sadhus and nagas so they can bathe in relative peace.
    IND_085_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river. Here, across the river, a ghat is dedicated to sadhus and nagas so they can bathe in relative peace.
    IND_080_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river. Here, across the river, a ghat is dedicated to sadhus and nagas so they can bathe in relative peace.
    IND_079_xs.jpg
  • Kumbh Mela Festival, Hardiwar, India. The Kumbh Mela festival is a sacred Hindu pilgrimage held 4 times every 12 years, cycling between the cities of Allahabad, Nasik, Ujjain and Hardiwar.  Participants of the Mela gather to cleanse themselves spiritually by bathing in the waters of India's sacred rivers.
    IND_077_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_076_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_074_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_073_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_071_xs.jpg
  • Almanza family at home in Exeter, California, USA. Farmworkers.
    USA_FAM_6_xs.jpg
  • Gary and and his father Floyd Zaiger in one of their orchards. Floyd Zaiger (Born 1926) is a biologist who is most noted for his work in fruit genetics. Zaiger Genetics, located in Modesto, California, USA, was founded in 1958. Zaiger has spent his life in pursuit of the perfect fruit, developing both cultivars of existing species and new hybrids such as the pluot and the aprium. Zaiger with his son under an aprium (apricot & plum) tree. 1983. MODEL RELEASED.
    USA_AG_ZAIG_05_xs.jpg
  • Winemaker Daryl Sattui, with his son Mario and dog Lupo, in one of the many underground wine storage rooms of a castle being built in the Napa Valley, California..Daryl Sattui's Castello di Amoroso, a version of a Tuscan hilltop castle in Calistoga, California. Under construction in 2003.  MODEL RELEASED.
    USA_NCAV_1_120_xs.jpg
  • Tobacco - The Clifton Walton family strips dried tobacco from the stalks in their barn in Charlotte, Tennessee. USA.
    USA_AG_TOB_03_xs.jpg
  • Visitors from Zia Pueblo, San Isidro inside of the Chimayo Sanctuary on the road to Taos, near Santa Fe, New Mexico, USA. It is dedicated to the Madonna where supposedly a miracle occurred.
    USA_NM_11_xs.jpg
  • Spectators at the patron saint festival at Coyotepec Oaxaca, Mexico.
    MEX_037_xs.jpg
  • El Barrio del Carme, Valencia, Spain.
    SPA_190_xs.jpg
  • Margaret (Linda) Gundlaugsdottir of the Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland, with her grandson. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED..
    ICE_9794_rwx.jpg
  • Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED.
    ICE_1972_rwx.jpg
  • Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED.
    ICE_1956_rwx.jpg
  • Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland in May of 2004. A revisit, after the family was profiled in Material World in 1993. Family is in same order as the family portrait in Material World taken outside their home in December 1993. MODEL RELEASED.
    ICE_1929_rwx.jpg
  • Faith D'Aluisio, right, with the Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED.
    ICE_1904_rwx.jpg
  • Faith D'Aluisio, right, with the Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED.
    ICE_1897_rwx.jpg
  • An Indian family visiting the temple at Halebid, South India. The ancient capital of the Hoysalas, Halebid was then known as Dwarasamudram. The great city of Dwarasamudra flourished as a Capital of the Hoysala Empire during the 12th & 13th centuries.
    IND_059_xs.jpg
  • Close up view of some of the rectangular photovoltaic cells that comprised the power supply for Sunraycer, General Motors' entry for the Pentax World Solar Challenge, the first international solar-powered car race. The event began in Darwin, Northern Territories on November 1st, 1987 and finished in Adelaide, South Australia. An array of some 7,200 of these cells was arranged in a hood covering the front & back of the vehicle. Sunraycer was the eventual winner, taking 5 1/2 days to complete the 1,950 miles, traveling at an average speed of 41.6 miles per hour. (1987)
    AUS_SCI_SOLCAR_24_xs.jpg
  • Nuclear Energy: California Diablo Canyon Nuclear Power Plant in California. The plant has two reactor units, which combined have a net power capacity of nearly 1200 megawatts. The plant, operated by the Pacific Gas and Electric company, became commercially operational in 1977. (1985).
    USA_SCI_ENGY_63_xs.jpg
  • Hydro Electric Energy: Oroville Lake and Dam. Oroville, California. (1980).
    USA_SCI_ENGY_61_xs.jpg
  • Hydro Electric Energy: Oroville Lake and Dam. Oroville, California. (1990).
    USA_SCI_ENGY_60_xs.jpg
  • Hydro Electric Energy: Roosevelt Dam near Phoenix, Arizona. (1987).
    USA_SCI_ENGY_59_xs.jpg
  • The Lagavale family, dressed in their Sunday best for the White Sunday holiday church services, cheerfully pose for the camera in Poutasi Village, Western Samoa. The Lagavale family lives in a 720-square-foot tin-roofed open-air house with a detached cookhouse in Poutasi Village, Western Samoa. The Lagavales have pigs, chickens, a few calves, fruit trees and a vegetable garden. They farm, fish, and make crafts to support themselves. They also work for others locally, which supplements their modest needs. Material World Project.
    Wsa_mw_700_xs.jpg
  • Nalim and Namgay family portrait outside their home in Shingkhey, Bhutan. The family of subsistence farmers lives in a 3-story rammed-earth house in the hillside village of Shingkhey, Bhutan. Namgay, who has a hunched back and a clubfoot, grinds grain for neighbors with a small mill his family purchased from the government. They are paying for the mill as they can (often the payment is made in grain and mustard oil). Namgay is also a reader of sacred texts and conducts house cleansing and healing ceremonies for their 14-house village. From Peter Menzel's Material World Project that showed 30 statistically average families in 30 countries with all their possessions.
    Bhu_mw_152_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_087_xs.jpg
  • Kumbh Mela Festival, Hardiwar, India. The Kumbh Mela festival is a sacred Hindu pilgrimage held 4 times every 12 years, cycling between the cities of Allahabad, Nasik, Ujjain and Hardiwar.  Participants of the Mela gather to cleanse themselves spiritually by bathing in the waters of India's sacred rivers.
    IND_078_xs.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river.
    IND_075_xs.jpg
  • The Benziger Family at Glen Ellen Winery, Glen Ellen, California, (Sonoma County). Today the winery is known as Benziger Family Winery and produces high-end table wines at smaller production levels.
    USA_SNMA_02_xs.jpg
  • A gypsy family drinking Tecate beer at a picnic in a park in Zochimilco, Mexico.
    MEX_145_xs.jpg
  • Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland in May of 2004. A revisit, after the family was profiled in Material World in 1993. Family is in same order as the family portrait in Material World taken outside their home in December 1993. MODEL RELEASED..
    ICE_9773_rwx.jpg
  • Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED.
    ICE_1903_rwx.jpg
  • Poor people living on the sidewalk near Nariman Point; Bombay, India.
    IND_003_xs.jpg
  • The father of rancher José Angel Galaviz Carrillo, with Jose's sons at their home in the Sierra Mountains near Maycoba, in the Mexican state of Sonora.  (José Angel Galaviz Carrillo is featured in the book What I Eat: Around the World in 80 Diets.)
    MEX_080823_326_xw.jpg
  • Every 12 years, millions of devout Hindus celebrate the month-long festival of Kumbh Mela by bathing in the holy waters of the Ganges at Hardiwar, India. Hundreds of ashrams set up dusty, sprawling camps that stretch for miles. Under the watchful eye of police and lifeguards, the faithful throng to bathe in the river. Here, across the river, a ghat is dedicated to sadhus and nagas so they can bathe in relative peace.
    IND_081_xs.jpg
  • Thoroddson family at home in Hafnarfjordur, near Reykjavik, Iceland. A revisit, after the family was profiled in Material World in 1993. MODEL RELEASED.
    ICE_9892_rwx.jpg
  • Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant..Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable..
    ICE_15BlueLagoon_rwx.jpg
  • Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant. Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable..
    ICE_06BlueLagoon_rwx.jpg
  • Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant. Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable.
    ICE_040527_037_rwx.jpg
  • Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant. Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable.
    ICE_040527_016_rwx.jpg
  • Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant. Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable..
    ICE_23BlueLagoon_rwx.jpg
  • Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant. Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable.
    ICE_09BlueLagoon_rwx.jpg
  • Two young women lounging in the water at the Blue Lagoon hot springs spa complex near Reykjavik, Iceland. The hot water is the byproduct of Svartsengi power plant, a geothermal electrical generating plant..Pumping 470 F (243 C) water from up to 1-1/4 miles beneath the earth, the plant generates electricity - and a somewhat cooler runoff that is rich in the kind of silicates and salts loved by devotees of mineral baths. Bathing is permitted only in the 2.5-acre (1 ha.) patch of the lake in which the water temperature is tolerable..
    ICE_07BlueLagoon_rwx.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_06_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_15_xs.jpg
  • Heliostats with central receiving tower reflected. Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_13_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_74_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_35_xs.jpg
  • Solar energy: Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. Photographer Peter Menzel is reflected in the mirror at dusk. (1982).
    USA_SCI_ENGY_17_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_10_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_05_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. (1985).
    USA_SCI_ENGY_02_xs.jpg
  • Ernie Johnson carries his surf board on the beach of the Pacific near the San Onofre Nuclear Generating Station, California.  (Ernie Johnson is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    USA_080909_237_xw.jpg
  • Surfer Ernie Johnson (on wave at right) surfs on the Pacific near the San Onofre Nuclear Generating Station, California.  (Ernie Johnson is featured in the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    USA_080909_084_xw.jpg
  • The San Onofre Nuclear Generating Station in California.
    USA_080909_058_xw.jpg
  • The San Onofre Nuclear Generating Station in California.
    USA_080909_058_px_xw.jpg
  • Nuclear power plant cooling towers of the Cannenom Nuclear Power Station in France on the Moselle River, near Thionville, 35 km from Luxembourg. Plant consists of 4 pressurized water reactors, each generating 1300 MW. The image is part of a collection of images and documentation for Hungry Planet 2, a continuation of work done after publication of the book project Hungry Planet: What the World Eats.
    LUX_070415_035_rwx.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_38_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_36_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_32_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_16_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1985).
    USA_SCI_ENGY_14_xs.jpg
  • Dawn mirrors facing east to meet sun. Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_12_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_11_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_09_xs.jpg
  • Solar energy electrical generating power plant in the Mojave Desert near Barstow, California. Solar One consists of a circular arrangement of 1, 818 mirrors, each measuring 23x23 feet (7x7 meters). These mirrors focus the sunlight onto a huge central receiver, which sits atop a 300-foot (91 meter) tower. The mirrors are computer controlled to track the path of the sun. Water is pumped through the receiver and heated to a temperature of 960 degrees Fahrenheit. The resultant steam runs a turbine, producing 10 megawatts of power for eight hours a day. (1982).
    USA_SCI_ENGY_08_xs.jpg
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Peter Menzel Photography

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