Sunday, May 4, 2014

reflection

Thought my experience with my senior project, not only i learned a lot about my project, but a lot about my self. During my research i got to know my mentor even more than i normally do. It was very entertaining on how we got to know each other. The visits down to Stanford were probably the most effective to me because i never really experienced a hard hat working construction site. Showing me around the site was very interesting because, it showed me how everybody worked together as a team to finish the job.

On a personal not i felt that i had a bigger responsibility because of the visits but also the project itself. I had to make time from doing other things like baseball to volunteer. I think the volunteering part was the funnest part of the project because i got to meet new people and got to see what kind of work my mentor actually did.

It was a good experience for me honestly, it gave me a chance to see what life is like out of high school. It gave me a chance to mentally prepare me for what i need to do. It also gave me a idea of what i want to do with life after high school.  I think it was a good experience for me.

Thursday, May 1, 2014

final volunteering blog

This pipe is in the preliminary stages of fabrication. It is cut and sized and then will be welded. It will be used to tie in the pumps.







This is a pump that will move the chilled water. It is mounted on a inertia base that is filled with concrete. The attachment has been calculated due to seismic  activity in California.  



Here shown is the heart of the chill water system. It has tanks, heat exchanges and pumps. They all work together to provide chilled water. Within the next three weeks this will all be online to provide a more energy and cost effective system for Stanford. GO GREEN.

completion updated

This a condensate trap. It is used to drain the water that the coils produce  the pans.







In the earlier pictures of the fan walls there is no wiring. The next step will be to take 12 individual runs of wiring from this VFD to the fans. VFD mean variable frequency drive. The VFD's will control the fan speed. The speed will be activated upon the amount of air needed to cool the building. The heat load is determined by the vices people and outside air temperatures. The control panel (not shown) will determine this. It interacts with the building energy system                                                                                





Tuesday, April 29, 2014

updated pictures

This picture shows the over head chill water piping. These are the risers that tie in the piping to the coils.


















This  picture shows the over head piping after it  has been insulated. the reason chill water piping needs to be insulated is because it will sweat. The temper differential change will make the piping appear to be leaking. The coils pans have been tied together with the copper pipe shown. The copper pipe is necessary from pan to pan, because the air flow through the coils would send the water all over.


















The fan wall has now been assembled. The 12 fans will add up for a combination of 27,000 CFM. This a cost effective way to add or subtract the amount of air needed.

Monday, April 28, 2014

mentor meeting

We are now continuing to weld structural clips to the columns. This will tie the colums, beams, and walls together. It is neccesary for the seizmec retrofit. The chilled water pipes are being installed overhead. We will set and achor the pans, after the pans are ancored we wil installed the coils. There are two types of coils, the first type is the chilled water coil which provides cooling. The other style of coil is a re-heat, which uses existing warm air to be transfered into the air system. It is part of a grren system which re-uses conditioned air. the fitters now will install piping headers. These headers will tie all the coils into a loop system.

Tuesday, April 15, 2014

extended plenum system


 
 The plenum and  ceiling walls of the air handler are  assembled. A connection to the new duct system is shown. This duct acts as another passage way to the existing systems. Instead of building a larger panel and plenum system this will suffice. It is a value engineered judgment to tie in to the existing system.

  Shown here is the 100 by 46 inch duct work. Its acts as a extended plenum, it is hung with half inch all thread and 2x2x1/25 inch angle iron. It has been fabricated in the shop in 4ft joints. They are connected together by a ductmate gasket system. It will hold 8inches wg for pressure testing.

Wednesday, April 2, 2014

job visit (continued)

As the walls and roof plenum panels are installed lighting needs to be provided. In this picture they are installing temporary light for safety and installation purposes. Later on this will be removed and permanent egress lighting will take its place.

 


 
 
 
During the iron fabrication process, welding is needed. This piece is used as a intermediate. It will join the roof panels together in the center of the structure. Shown here is a certified welder attaching the H piece to the iron for the roof structure. After completion it will need to be inspected before installation. The inspector will want to see millcerts for the iron. He will also want to see a welding procedure for this specific application