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Early Electrification of Buffalo: Advent of Alternating Current

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[[Image:02-Pearl St. Station-15.jpg|thumb|left|Pearl Street Station]]In September 1882, the Pearl Street Station of the Edison Electric Illuminating Company in New York City went into operation serving 85 customers with some 400 incandescent lamps. This central station system, which was designed to serve an area approximately one-mile square, consisted of constant voltage direct current generators connected in parallel serving radial circuits with lamps connected in parallel. 110 volts was selected on the basis of economics with copper being the [[Image:02-Edison Central Station-DC System-16.GIF|thumb|Edison Central Station DC System]]largest cost. It is remarkable that in the last century the voltage has been adjusted upward only slightly to today’s standard of 120 volts.&nbsp;
  
Before we can look further at Buffalo, let’s delve into a little history. 15
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In September 1882, the Pearl Street Station of the Edison Electric Illuminating Company in New York City went into operation serving 85 customers with some 400 incandescent lamps.  This central station system, which was designed to serve an area approximately one-mile square, 16 consisted of constant voltage direct current generators connected in parallel serving radial circuits with lamps connected in parallel.  110 volts was selected on the basis of economics with copper being the largest cost.  It is remarkable that in the last century the voltage has been adjusted upward only slightly to today’s standard of 120 volts.
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17 The next important development came less than one year later in July 1883 when a three-wire system went into operation in Sunbury, Pennsylvania with a 62 1/2 percent saving in copper compared to the New York system.   To serve the same load with two generators connected in series, the current is cut in half. The neutral current is zero with equal loads on both generators.
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The next important development came less than one year later in July 1883 when a three-wire system went into operation in Sunbury, Pennsylvania with a 62 1/2 percent saving in copper compared to the New York system. To serve the same [[Image:02-Edison Central Station 3 wire dc system-17.GIF|thumb|Edison Central Station three wire DC system]]load with two generators connected in series, the current is cut in half. The neutral current is zero with equal loads on both generators. <br>Direct current systems had three major disadvantages:
  
18 Direct current systems had three major disadvantages:
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#Generation had to be located reasonably close to the load due to the voltage drop, which required large size wire.  
1. Generation had to be located reasonably close to the load due to the voltage drop, which required large size wire.
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#Generation had to be at utilization voltage.  
2. Generation had to be at utilization voltage.
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#Low utilization voltage meant high currents and high currents meant high losses in the distribution lines.  
3. Low utilization voltage meant high currents and high currents meant high losses in the distribution lines.
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#
  
The adoption of alternating current systems overcame these disadvantages. 21 While Edison was improving the dc system, others were developing the alternating current system, which, by using transformers, could raise the generation voltage and utilize small conductors for distribution, then lower the voltage for loads remote from the generation. The safety problem of a transformer insulation breakdown applying high-voltage to the secondary was solved by the simple but effective expedient of grounding the transformer secondary winding.
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[[Image:02-alternating current system-21.GIF|thumb|left|Alternating Current System]]The adoption of alternating current systems overcame these disadvantages. While Edison was improving the dc system, others were developing the alternating current system, which, by using transformers, could raise the generation voltage and utilize small conductors for distribution, then lower the voltage for loads remote from the generation. The safety problem of a transformer insulation breakdown applying high-voltage to the secondary was solved by the simple but effective expedient of grounding the transformer secondary winding.  
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The first alternating current central station to operate commercially in the United States was placed in service in Buffalo on November 30, 1886 only four years after Edison’s Pearl Street Station. It was a Westinghouse 400 lamp single-phase (or two-wire) system with a primary of 1000 volts.  The generator was located in the Brush Electric Light plant at Wilkeson and Mohawk Streets.  22 One customer was the Adam, Meldrum & Anderson department store on downtown Main Street, now the site of the Main Place Mall.
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The following year in Montpelier, Vermont an ac system replaced a dc system and the value of the copper salvaged was enough to cover the cost of conversion.  Also in 1887 a French syndicate was gaining a monopoly on the world’s copper supply and forced up the price nearly 70 percent.  This made ac systems, which used smaller conductors, more attractive.
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Early ac systems had one major disadvantage: there was no commercially available ac motor. This shortcoming was solved in fairly short order.  23 On May 1, 1888 Nicola Tesla was issued his first set of patents for a comprehensive system of generators, transformers, synchronous motors and induction motors for the transmission and utilization of two or more alternating currents -- what came to be known as the polyphase system.  24 Two months later, George Westinghouse acquired the patent rights and Tesla’s services.
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During development of the polyphase motor it was found necessary to reduce the alternations from 133 Hz. or cycles per second (the more or less standard frequency for the early single-phase systems) to 60 Hz.  This remains the standard North American frequency.  Tesla also developed several “split phase” designs for motors for the single-phase systems.  
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The first alternating current central station to operate commercially in the United States was placed in service in Buffalo on November 30, 1886 only four years after Edison’s Pearl Street Station. It was a Westinghouse 400 lamp single-phase (or two-wire) system with a primary of 1000 volts. The generator was located in the Brush Electric Light plant at Wilkeson and Mohawk Streets. One customer was the Adam, Meldrum &amp; Anderson department store on downtown Main Street, now the site of the Main Place Mall.
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<br>[[Image:02-Westinghouse-24.jpg|thumb|left|George Westinghouse]]The following year in Montpelier, Vermont an ac system replaced a dc system and [[Image:02-tesla-23.jpg|thumb|Nikola Tesla]]the value of the copper salvaged was enough to cover the cost of conversion. Also in 1887 a French syndicate was gaining a monopoly on the world’s copper supply and forced up the price nearly 70 percent. This made ac systems, which used smaller conductors, more attractive. And you thought that technology changed fast only in recent years! How’s your five-year-old computer doing?  
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<br>Early ac systems had one major disadvantage: there was no commercially available ac motor. This shortcoming was solved in fairly short order. On May 1, 1888 [[Nikola Tesla|Nikola Tesla]] was issued his first set of patents for a comprehensive system of generators, transformers, synchronous motors and induction motors for the transmission and utilization of two or more alternating currents -- what came to be known as the polyphase system. Two months later, George Westinghouse acquired the patent rights and Tesla’s services. <br>
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Revision as of 19:01, 12 September 2008

Pearl Street Station
Pearl Street Station
In September 1882, the Pearl Street Station of the Edison Electric Illuminating Company in New York City went into operation serving 85 customers with some 400 incandescent lamps. This central station system, which was designed to serve an area approximately one-mile square, consisted of constant voltage direct current generators connected in parallel serving radial circuits with lamps connected in parallel. 110 volts was selected on the basis of economics with copper being the
Edison Central Station DC System
Edison Central Station DC System
largest cost. It is remarkable that in the last century the voltage has been adjusted upward only slightly to today’s standard of 120 volts. 


The next important development came less than one year later in July 1883 when a three-wire system went into operation in Sunbury, Pennsylvania with a 62 1/2 percent saving in copper compared to the New York system. To serve the same
Edison Central Station three wire DC system
Edison Central Station three wire DC system
load with two generators connected in series, the current is cut in half. The neutral current is zero with equal loads on both generators.
Direct current systems had three major disadvantages:
  1. Generation had to be located reasonably close to the load due to the voltage drop, which required large size wire.
  2. Generation had to be at utilization voltage.
  3. Low utilization voltage meant high currents and high currents meant high losses in the distribution lines.
Alternating Current System
Alternating Current System
The adoption of alternating current systems overcame these disadvantages. While Edison was improving the dc system, others were developing the alternating current system, which, by using transformers, could raise the generation voltage and utilize small conductors for distribution, then lower the voltage for loads remote from the generation. The safety problem of a transformer insulation breakdown applying high-voltage to the secondary was solved by the simple but effective expedient of grounding the transformer secondary winding.


The first alternating current central station to operate commercially in the United States was placed in service in Buffalo on November 30, 1886 only four years after Edison’s Pearl Street Station. It was a Westinghouse 400 lamp single-phase (or two-wire) system with a primary of 1000 volts. The generator was located in the Brush Electric Light plant at Wilkeson and Mohawk Streets. One customer was the Adam, Meldrum & Anderson department store on downtown Main Street, now the site of the Main Place Mall.


George Westinghouse
George Westinghouse
The following year in Montpelier, Vermont an ac system replaced a dc system and
Nikola Tesla
Nikola Tesla
the value of the copper salvaged was enough to cover the cost of conversion. Also in 1887 a French syndicate was gaining a monopoly on the world’s copper supply and forced up the price nearly 70 percent. This made ac systems, which used smaller conductors, more attractive. And you thought that technology changed fast only in recent years! How’s your five-year-old computer doing?


Early ac systems had one major disadvantage: there was no commercially available ac motor. This shortcoming was solved in fairly short order. On May 1, 1888 Nikola Tesla was issued his first set of patents for a comprehensive system of generators, transformers, synchronous motors and induction motors for the transmission and utilization of two or more alternating currents -- what came to be known as the polyphase system. Two months later, George Westinghouse acquired the patent rights and Tesla’s services.