At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

Bob

Voltage, ratings, and frequency will depend on the particular needs in
that computer center and that depends on the brand of computers. If it
was just a clean feed of the raw power, it would be pretty much 1:1. But
some of the old systems wanted 400Htz

wrote:
At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

Bob

wrote:

At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

Bob

That was the original design for a UPS (uninteruptable power supply ).
The big flywheel kept the generator going until an emergency generator
could come on line or the computer could shut down in an orderly fashion.

On Sat, 19 Jul 2008 04:33:40 -0700 (PDT), wrote:

At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

They were a good low-tech idea in their day, even if they weren't
very efficient considering all that mass you had to keep spinning.

The ones that were motor=clutch=generator=clutch=engine would
provide output with only a momentary frequency and voltage sag as they
switched over - as long as the engine was kept hot and ready, and it
started normally when they dropped the clutch...

But make DAMNED sure you rebuild the bearings before you put it back
in service, and have thermostat sensors and alarms on all the shaft
bearings. Top and bottom halves of the shells.

With that much energy stored in a huge rotating mass, if one bearing
gets hot to the point of seizing up I can guarantee that all nine
circles of hell is going to break loose very quickly....

It has happened in the past, and it will totally trash the power
room and anything else that gets in the way like a bull in a china
shop - including people running to find out what all the commotion is.
People are soft and squish quite easily in those situations.

-- Bruce --

Not an ansewr just a story...

35 years ago I had a friend who was going graduate work in high energy
physics at Berkley. Those were they days when they started the "beam" in the
HV room feed it to the linear accelerator and then fed it's output into the
Bevetron (Bevetron stands for Billion Electron Volts, at the time the
biggest cylotron in existance, and looks like a joke now compared to CERN
but I digress) That HV room was quite a sight, looked like something out
Buck Rodgers... but MOST impressive was the two M-G's they had. The Bevetron
took soo much energy that they couldn't power it directly off the utility
grid, had to spin up these HUMONGOUS flywheels with the M-G's.. further more
since the Bevetron like all cylotrons used pulses of power they need
something to be the bigassed "capacitors" and that was the flywheels on the
M-G's... Those flywheels were solid cast iron, three feet wide and 12 feet
tall and were arranged so when they spun the turned going UP the hilll...
they containd so much kenitic energy that if they ever broke loose and went
DOWN hill they would have plowed all the way through downtown Berkley and
wound up in the bay... As it was one old timer figured if they broke loose
going UP hill they have wound up in Orinda.

Ahh BIG Science :-)

--.- Dave

wrote in message
...
At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

Bob

wrote:
At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

Yes, many mid-sized IBM 370 mainframes even had integral 415 Hz
motor-alternator sets built into the cabinets. The larger
systems had separate M-G sets or battery backup systems with
inverters in them.
I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.
The IBM 370-135 had a 17 KVA motor-alternator set that produced
415 Hz, 3-phase power at 120 V L-L, I think. (I could be wrong
on the L-L voltage, it has been a LONG time since I worked with
that stuff.)

Why, on earth, do you WANT such an antique? Even if it is for a
more conventional voltage and frequency, it is most likely HUGE,
as they used one flywheel system for the entire data center.

Jon

Jon Elson wrote:

Why, on earth, do you WANT such an antique? Even if it is for a
more conventional voltage and frequency, it is most likely HUGE,
as they used one flywheel system for the entire data center.


Why would someone want an old steam engine with a flywheel that size?



--
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Sporadic E is the Earth's aluminum foil beanie for the 'global warming'
sheep.

Jon Elson wrote:
wrote:
At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

Yes, many mid-sized IBM 370 mainframes even had integral 415 Hz
motor-alternator sets built into the cabinets. The larger systems had
separate M-G sets or battery backup systems with inverters in them.
I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.
The IBM 370-135 had a 17 KVA motor-alternator set that produced 415 Hz,
3-phase power at 120 V L-L, I think. (I could be wrong on the L-L
voltage, it has been a LONG time since I worked with that stuff.)

Why, on earth, do you WANT such an antique? Even if it is for a more
conventional voltage and frequency, it is most likely HUGE, as they used
one flywheel system for the entire data center.

Jon

Well, it certainly wouldn't mind when you started up that big 3-phase
lathe...

--

Tim Wescott
Wescott Design Services
http://www.wescottdesign.com

Do you need to implement control loops in software?
"Applied Control Theory for Embedded Systems" gives you just what it says.
See details at http://www.wescottdesign.com/actfes/actfes.html

Tim Wescott wrote:
Jon Elson wrote:

wrote:

At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

Yes, many mid-sized IBM 370 mainframes even had integral 415 Hz
motor-alternator sets built into the cabinets. The larger systems had
separate M-G sets or battery backup systems with inverters in them.

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

The IBM 370-135 had a 17 KVA motor-alternator set that produced 415
Hz, 3-phase power at 120 V L-L, I think. (I could be wrong on the L-L
voltage, it has been a LONG time since I worked with that stuff.)

Why, on earth, do you WANT such an antique? Even if it is for a more
conventional voltage and frequency, it is most likely HUGE, as they
used one flywheel system for the entire data center.

Jon


Well, it certainly wouldn't mind when you started up that big 3-phase
lathe...


Some folk collect antiques.
Have pleasure from them.
Some use them for all sorts of reasons.
Take your Model "T" Ford for example.
Some what impractical for todays's commuting but lots of folk have them
cos they just want to.
theres no harm in that.

Im a metal worker, and collect old metal working tools.
I have lots of smith's tools from 1800.
Some from before that.about 1500 AD.
I use lots of them, for all sorts of reasons.
Currently im at 2200 off a 2500 contract for hot forged commemorative
plaques for the 40th year of the Great Dorset Steam fair.
There minted on an 1880 Hazelwood and Dent, Birmingham UK. drop hammer,
Hammer weight 300lbs.
Gives about 100 tons dynamic energy.
Lovely machine. As good as new.
Yes, the brass plaques could be made on an automatic,strip fed power
press , but the results just arnt the same.
So,
If you want a vintage motor generator, you have one.
And dont listen to all those folk that ask what do you want that for?

Ive a diesel generator circa 1942. 20kva. Still starts, runs and
generates fine. Weighs 2 tons.
Use it to power a very large stick welder.
no electronics, all electromechanical controls, repairable and simple.

On 2008-07-19, wrote:
At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Hmm ... unlikely to be used just to clean the power. I'll bet
that it produced 400 Hz as well.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

Yes -- some at least ran from 400 Hz to allow smaller lighter
power supplies scattered closer to the points where they were used. 400
Hz in place of 60 Hz results in a major decrease in the iron needed in
transformers. And the components were easier to get at that frequency
than at higher ones, because 400 Hz power was common in aircraft.

I am sure that it was a top quality unit when installed. I am hoping
that it would be a upgrade over the ST15 generator run by my 16-2
Lister CS. I am working at getting in there to inspect it.

What were you planning to power with it? And do you have enough
power to spin it up? If so you probably have a serious shop, not a
hobby one.

Enjoy,
DoN.

--
Email: | Voice (all times): (703) 938-4564
(too) near Washington D.C. | http://www.d-and-d.com/dnichols/DoN.html
--- Black Holes are where God is dividing by zero ---

On 2008-07-19, Bruce L Bergman wrote:
On Sat, 19 Jul 2008 04:33:40 -0700 (PDT), wrote:

At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

[ ... ]

They were a good low-tech idea in their day, even if they weren't
very efficient considering all that mass you had to keep spinning.

Well ... They could still save money, by improving the power
factor seen by the service meter.

The ones that were motor=clutch=generator=clutch=engine would
provide output with only a momentary frequency and voltage sag as they
switched over - as long as the engine was kept hot and ready, and it
started normally when they dropped the clutch...

Hmm ... the one where I used to work -- used to keep the chem
lab exhaust blowers working during a power outage -- was a little
different:

motor/generator=flywheel=flex-coupling=clutch=diesel-engine

and when the power failed, and the flywheel cranked the diesel to an
instant start, the three-phase motor became the generator.

But make DAMNED sure you rebuild the bearings before you put it back
in service, and have thermostat sensors and alarms on all the shaft
bearings. Top and bottom halves of the shells.

This is not enough, as proven by what happened to ours. There
were big self-aligning roller bearing assemblies in pillow blocks with
lubricant piped into the shells by rubber hose from reservoirs on the
side rails. There was a thermal switch in each pillow block. One day
on a long weekend the rubber hose got brittle enough to break and drain
all of the oil onto the floor from one pillow block (luckily the one
towards the motor, whose bearings provides some support).

The guard force were the only ones there to hear the screeching
noise form the bearings, and they didn't know who to call. (They should
have, but they didn't. :-)

By Tuesday (long weekend, remember) when the fellow who they
should have called arrived, heard the noise, and shut the system down
(there was a bypass, at least) that bearing was *hot*.

How hot? Well ... the rollers were the size of 35mm film
cassettes, and one which I collected had a lip which *looked* like a 35mm
film cassette, smeared off the steel of the bearing -- all blue-black.

The thermal sensors which should have shut this down
automatically? They were depending on the oil to conduct the heat from
the failing bearing to the sensor -- remember -- the oil in a puddle on
the floor? :-)

FWIW -- they replaced both bearings (but not those in the motor,
which now that I think of it might have been carrying a lot of the load
which the failed bearing should have handled.)

With that much energy stored in a huge rotating mass, if one bearing
gets hot to the point of seizing up I can guarantee that all nine
circles of hell is going to break loose very quickly....

Let's see -- 4' diameter flywheel, about 6" thick, running at
1800 RPM ... If it had broken free, it would have run through the
external parts of the air conditioners, and then run through the office
section of the computer center across the parking lot. Still -- nobody
was supposed to be there on a long weekend anyway. :-)

It has happened in the past, and it will totally trash the power
room and anything else that gets in the way like a bull in a china
shop - including people running to find out what all the commotion is.
People are soft and squish quite easily in those situations.

It was pure luck that it was the bearing towards the motor which
went, instead of the one towards the flex coupling and clutch.

Enjoy,
DoN.

--
Email: | Voice (all times): (703) 938-4564
(too) near Washington D.C. | http://www.d-and-d.com/dnichols/DoN.html
--- Black Holes are where God is dividing by zero ---

Thanks for your comments. As stated, I want it for the generator. I
am hoping that it is 60 Hz, single or 3 phase, that I can drive with
my Lister Diesel engine for standby or off grid power.

Bob

There are cases on record where the plain flywheels of steam engines (designed to only store the
inertia of 1 revolution) burst with disastrous results. A flywheel burst ranked right up there with
a boiler explosion.

Bob Swinney
"DoN. Nichols" wrote in message
...
On 2008-07-19, Bruce L Bergman wrote:
On Sat, 19 Jul 2008 04:33:40 -0700 (PDT), wrote:

At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

[ ... ]

They were a good low-tech idea in their day, even if they weren't
very efficient considering all that mass you had to keep spinning.

Well ... They could still save money, by improving the power
factor seen by the service meter.

The ones that were motor=clutch=generator=clutch=engine would
provide output with only a momentary frequency and voltage sag as they
switched over - as long as the engine was kept hot and ready, and it
started normally when they dropped the clutch...

Hmm ... the one where I used to work -- used to keep the chem
lab exhaust blowers working during a power outage -- was a little
different:

motor/generator=flywheel=flex-coupling=clutch=diesel-engine

and when the power failed, and the flywheel cranked the diesel to an
instant start, the three-phase motor became the generator.

But make DAMNED sure you rebuild the bearings before you put it back
in service, and have thermostat sensors and alarms on all the shaft
bearings. Top and bottom halves of the shells.

This is not enough, as proven by what happened to ours. There
were big self-aligning roller bearing assemblies in pillow blocks with
lubricant piped into the shells by rubber hose from reservoirs on the
side rails. There was a thermal switch in each pillow block. One day
on a long weekend the rubber hose got brittle enough to break and drain
all of the oil onto the floor from one pillow block (luckily the one
towards the motor, whose bearings provides some support).

The guard force were the only ones there to hear the screeching
noise form the bearings, and they didn't know who to call. (They should
have, but they didn't. :-)

By Tuesday (long weekend, remember) when the fellow who they
should have called arrived, heard the noise, and shut the system down
(there was a bypass, at least) that bearing was *hot*.

How hot? Well ... the rollers were the size of 35mm film
cassettes, and one which I collected had a lip which *looked* like a 35mm
film cassette, smeared off the steel of the bearing -- all blue-black.

The thermal sensors which should have shut this down
automatically? They were depending on the oil to conduct the heat from
the failing bearing to the sensor -- remember -- the oil in a puddle on
the floor? :-)

FWIW -- they replaced both bearings (but not those in the motor,
which now that I think of it might have been carrying a lot of the load
which the failed bearing should have handled.)

With that much energy stored in a huge rotating mass, if one bearing
gets hot to the point of seizing up I can guarantee that all nine
circles of hell is going to break loose very quickly....

Let's see -- 4' diameter flywheel, about 6" thick, running at
1800 RPM ... If it had broken free, it would have run through the
external parts of the air conditioners, and then run through the office
section of the computer center across the parking lot. Still -- nobody
was supposed to be there on a long weekend anyway. :-)

It has happened in the past, and it will totally trash the power
room and anything else that gets in the way like a bull in a china
shop - including people running to find out what all the commotion is.
People are soft and squish quite easily in those situations.

It was pure luck that it was the bearing towards the motor which
went, instead of the one towards the flex coupling and clutch.

Enjoy,
DoN.

--
Email: | Voice (all times): (703) 938-4564
(too) near Washington D.C. | http://www.d-and-d.com/dnichols/DoN.html
--- Black Holes are where God is dividing by zero ---

** Posted from http://www.teranews.com **

DoN. Nichols wrote:
On 2008-07-19, wrote:
At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

Hmm ... unlikely to be used just to clean the power. I'll bet
that it produced 400 Hz as well.

Any reason not to pursue it? Were the old mainframes run off of
anything other than 60Hz AC?

Yes -- some at least ran from 400 Hz to allow smaller lighter
power supplies scattered closer to the points where they were used. 400
Hz in place of 60 Hz results in a major decrease in the iron needed in
transformers. And the components were easier to get at that frequency

smaller filter capacitors as well.

Some standards that were set were blocks away from the water pump or
power generation building. Through bricks and then through buildings
along the way. Massive turning wheel has tremendous moment of inertia.

Flywheel designers / engineers were made to be qualified like boiler makers.
ME and MME grades with in-field training/in-service.

When the power cycle protection types are put into buildings, they are
rotated to be in line with an under ground wall or a stopgap of some sort.

Martin

Martin H. Eastburn
@ home at Lions' Lair with our computer lionslair at consolidated dot net
TSRA, Endowed; NRA LOH & Patron Member, Golden Eagle, Patriot's Medal.
NRA Second Amendment Task Force Charter Founder
IHMSA and NRA Metallic Silhouette maker & member.
http://lufkinced.com/


Robert Swinney wrote:
There are cases on record where the plain flywheels of steam engines (designed to only store the
inertia of 1 revolution) burst with disastrous results. A flywheel burst ranked right up there with
a boiler explosion.

Bob Swinney
"DoN. Nichols" wrote in message
...
On 2008-07-19, Bruce L Bergman wrote:
On Sat, 19 Jul 2008 04:33:40 -0700 (PDT), wrote:

At a local plant, there once was a computer center. The room was fed
with a motor generator to provide clean power to it. I made an
inquiry and the unit might be available.

It has been years since I saw it, but it was a motor, probably 480
3ph, driving a generator with a large flywheel between them.

[ ... ]

They were a good low-tech idea in their day, even if they weren't
very efficient considering all that mass you had to keep spinning.

Well ... They could still save money, by improving the power
factor seen by the service meter.

The ones that were motor=clutch=generator=clutch=engine would
provide output with only a momentary frequency and voltage sag as they
switched over - as long as the engine was kept hot and ready, and it
started normally when they dropped the clutch...

Hmm ... the one where I used to work -- used to keep the chem
lab exhaust blowers working during a power outage -- was a little
different:

motor/generator=flywheel=flex-coupling=clutch=diesel-engine

and when the power failed, and the flywheel cranked the diesel to an
instant start, the three-phase motor became the generator.

But make DAMNED sure you rebuild the bearings before you put it back
in service, and have thermostat sensors and alarms on all the shaft
bearings. Top and bottom halves of the shells.

This is not enough, as proven by what happened to ours. There
were big self-aligning roller bearing assemblies in pillow blocks with
lubricant piped into the shells by rubber hose from reservoirs on the
side rails. There was a thermal switch in each pillow block. One day
on a long weekend the rubber hose got brittle enough to break and drain
all of the oil onto the floor from one pillow block (luckily the one
towards the motor, whose bearings provides some support).

The guard force were the only ones there to hear the screeching
noise form the bearings, and they didn't know who to call. (They should
have, but they didn't. :-)

By Tuesday (long weekend, remember) when the fellow who they
should have called arrived, heard the noise, and shut the system down
(there was a bypass, at least) that bearing was *hot*.

How hot? Well ... the rollers were the size of 35mm film
cassettes, and one which I collected had a lip which *looked* like a 35mm
film cassette, smeared off the steel of the bearing -- all blue-black.

The thermal sensors which should have shut this down
automatically? They were depending on the oil to conduct the heat from
the failing bearing to the sensor -- remember -- the oil in a puddle on
the floor? :-)

FWIW -- they replaced both bearings (but not those in the motor,
which now that I think of it might have been carrying a lot of the load
which the failed bearing should have handled.)

With that much energy stored in a huge rotating mass, if one bearing
gets hot to the point of seizing up I can guarantee that all nine
circles of hell is going to break loose very quickly....

Let's see -- 4' diameter flywheel, about 6" thick, running at
1800 RPM ... If it had broken free, it would have run through the
external parts of the air conditioners, and then run through the office
section of the computer center across the parking lot. Still -- nobody
was supposed to be there on a long weekend anyway. :-)

It has happened in the past, and it will totally trash the power
room and anything else that gets in the way like a bull in a china
shop - including people running to find out what all the commotion is.
People are soft and squish quite easily in those situations.

It was pure luck that it was the bearing towards the motor which
went, instead of the one towards the flex coupling and clutch.

Enjoy,
DoN.



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