I look forward in the electrical industry that I am in, trying to stay ahead of the game as far as changes in the electrical industry.
It is a lot easier to stay up to date on what is changing, than to not be aware of the changes, and then an owner of some big company says "Why don't you use the latest technology? ".
You have to be able to respond with a good answer, like "Yes, this new switchgear type is good for your installation", or "No, this new switchgear design is not a good fit for your facility".
The trend in switchgear is to compact everything into a very tight enclosure, and sometimes a pressurized enclosure.
There is a great deal of pressure in the architectural world to minimize space used for services, and maximize spaces used for income generation.
And so often in things like highrise buildings and similar applications, this small-footprint switchgear goes in, and then if it fails, you either don't have access to even get new gear into the building, or you have to replace the entire lineup of gear because it fails catastrophically.
For large industrial/municipal facilities, the old tried and true metal clad fused switchgear has been proven to be modular and reliable over long periods of time. For a large facility, space is generally not an issue when you have millions of square feet of space.
The same metal clad switchgear has been around for at least 50 years, and I am not aware of any new compacted switchgear that is modular and reliable.
You can easily add on to either end of existing switchgear, if you allocate space on either end in the original construction.
So its like driving a car down the highway.
You have to look ahead and see what is coming.
From a hobby standpoint, I wonder what the future holds, given the dramatic changes I have seen in computers and software just since 1980.
Some of this hobby has become virtual engine building/running, and I have seen complete steam locomotives virtually operated in this fashion.
I can see more virtual things in this hobby.
It seems to me that 3D modeling is a lot like virtual machining.
.
It is a lot easier to stay up to date on what is changing, than to not be aware of the changes, and then an owner of some big company says "Why don't you use the latest technology? ".
You have to be able to respond with a good answer, like "Yes, this new switchgear type is good for your installation", or "No, this new switchgear design is not a good fit for your facility".
The trend in switchgear is to compact everything into a very tight enclosure, and sometimes a pressurized enclosure.
There is a great deal of pressure in the architectural world to minimize space used for services, and maximize spaces used for income generation.
And so often in things like highrise buildings and similar applications, this small-footprint switchgear goes in, and then if it fails, you either don't have access to even get new gear into the building, or you have to replace the entire lineup of gear because it fails catastrophically.
For large industrial/municipal facilities, the old tried and true metal clad fused switchgear has been proven to be modular and reliable over long periods of time. For a large facility, space is generally not an issue when you have millions of square feet of space.
The same metal clad switchgear has been around for at least 50 years, and I am not aware of any new compacted switchgear that is modular and reliable.
You can easily add on to either end of existing switchgear, if you allocate space on either end in the original construction.
So its like driving a car down the highway.
You have to look ahead and see what is coming.
From a hobby standpoint, I wonder what the future holds, given the dramatic changes I have seen in computers and software just since 1980.
Some of this hobby has become virtual engine building/running, and I have seen complete steam locomotives virtually operated in this fashion.
I can see more virtual things in this hobby.
It seems to me that 3D modeling is a lot like virtual machining.
.
