Construction Project Essay, Research Paper
After several months of planning and design, excavation for the new
ACES library
on the University of Illinois campus began in May 1999. The project
is sponsored
and will be owned by the Board of Trustees for the University of
Illinois. Six
separate contractors are working together under one general
contractor. The
project, which began in May of 1999, is scheduled to be completed
by February
2001. Through informal interviews with Charles O. Pickar we learned
that the
project is 4-5 weeks behind schedule. Pending weather conditions 25
to 35
workers usually present on site. The typical workday can run
between 6:30am and
depending on deadlines can last until 9-10pm. As of the third week
in January
2000, the concrete foundation and the steel framework for the
five-story
structure, with the exception of the roof, were intact. The
appendix of this
report contains photographs of observed procedures and site
materials. Observed
Operations January 27, 2000 On the morning of January 27, two
massive 18-wheel
trucks carrying various shapes and sizes of steel beams were
unloaded on site.
It took almost two hours to unload each truck. A crane
approximately 200 ft.
high was used to move the steel from the truck onto wooden planks
on the ground.
The steel was separated by shape, and by using the quite large
reaching span of
the crane, the workers were able to deliver the beams directly from
the truck to
their appropriate sides of the site. This operation involved a
six-man crew. Two
men connected the hooks from the crane onto the steel. Two men
guided the steel
onto the planks on the ground. Two men took turns operating the
crane. This
process was very time consuming due to the amount of steel needed
to be lifted
entirely over the five story structure to the other side of the
site, and due to
what seemed to be a lack of experience of the rigging crew. It took
them a very
long time to make the connections on each beam, and check for
security. These
factors may have influenced the unloading time taken that morning.
As these
trucks were being unloaded, another crew of men worked in the
basement. No
equipment was being placed at that time, but people were hauling
down tools and
what looked to be some sort of electrical cords. Perhaps they were
working to
install some piece of equipment already lowered down there, or
maybe they were
moving already dropped equipment away from the opening in the floor
to make room
for more to be lowered. January 28, 2000 Installation of metal
decking floor
supports began on Friday, January 28. By the early afternoon, the
level between
the first and second stories was nearly complete. There were some
openings left,
mostly on the south side of the building, which will serve as
stairways and
elevator shafts. The center of the building also lacked decking,
and judging by
the design drawings, this section was left opened for a skylight,
which will
cover the apex of the roof upon completion. The decking between the
second and
third stories was about half installed by 3:00pm. A two-man team of
welders
worked to secure the union of the decking to the steel framework as
each section
was placed. Special protective masks and eye shields were used to
ensure no
damage was done to the eyesight of the welders during this process.
Decking
sheets lay in bundles on the beams between the third and fourth
floors, awaiting
installation. Upon completion, safety inspectors will come out to
the site to
check the torque on the bolts and the security of the welds. The
sheets were
placed connecting to studs sticking upward from the steel
framework. The outside
beams were such that they remained higher vertically than the
steel
reinforcement going in. This design allows for concrete to be
poured over the
decking without it spilling over the sides of the building. This
entire process,
including the welders, men placing the decking, and one man who was
sweeping
debris from the recently installed supports, entailed a crew of
seven men. Due
to the afternoon increase in snowfall, and the increase of wind,
the crew began
covering their equipment with plastic tarps and prepared to quit
for the day at
around 3:30pm. January 31, 2000 No work was done on this site
during the
weekend, but activity began again early Monday morning, January 31.
The 200 ft.
crane lifted three of six large steel beams onto the top mid
section of the
building, which will eventually support a roof that slants upward
from the fifth
story to the top of the skylight. The crane was attached to the top
of the beams
and lowered them vertically onto the structure. Each beam had three
small steel
ledges, which stuck out horizontally near the top, and were
designed to support
piping that will run above the ceiling. Two men waited, standing on
the fifth
story framework to secure the beams in place once the crane had
placed them.
These men drove spikes into holes in the beam to anchor them to the
structure.
Both wore safety harnesses to ensure that they wouldn’t lose their
balance while
hammering the beams in place. By noon, three beams were set and
secured. At the
same time the mid section steel erection was taking place, another
crew worked
to pump concrete into the basement of the structure. A concrete
mixing truck was
backed up to a pump truck, which had a long arm reaching over into
a hole in the
concrete foundation. Two men watched to ensure that the materials
flowed
smoothly from the mix truck to the pump truck. Two other men stood
near the end
of the long arm of the pump truck, making sure the concrete reached
its final
destination. Perhaps this meant that all the necessary equipment
for that area
of the basement was installed, so the flooring was ready to be set.
February 1,
2000 The afternoon of February 1 was exceptionally slow. The
blowing snow forced
the ironworkers to abandon their placement of any additional
decking. Storage of
steel beams is adjacent to the construction site organized by type
and size. The
steel beams are the main materials being used during this phase of
the
construction and are closest to the workers for convenience and
efficiency. A
few men worked down below in the basement, but no surface activity
was
happening. This delay no doubt forced the schedule back for the
completed
installation of flooring reinforcement, and in effect caused delays
for pouring
the floors. This leads to a domino effect, pushing back the
completion dates of
every other part of the process dependent on the flooring being
secured and the
basement equipment being installed, which in essence, is every
other part of the
project. February 2, 2000 While observing construction on Wednesday
there were
approximately eight workers operating the machinery and working
with the steel
materials. Two men were on the ground going through the piles and
hooking up
pieces of steel to the crane.
The crane operator would move the
beams away from
the steel beam piles to other workers who would bolt the beams into
position.
You could observe today that workers have begun to lay steel sheets
on the
second story that has already been assembled. This steel is placed
over the
floor trusses and then bolted down. Within in the site there was a
concrete
bucket for the crane, which will most likely be used to pour
concrete for the
individual floors. They can only lay the steel and pour one floor
at a time or
the steel from the above floor will be in the way of getting the
concrete bucket
through. Within the construction site were piles of wire mesh and
reinforcement
bars. This probably will be used as reinforcement for the concrete
floors.
Safety remained important through out this phase of construction
and was
demonstrated through rails, which were placed around the floors and
during the
systematic processes used during the hooking and moving of
individual steam
beams. There were four electricity trucks present today and they
appeared to be
digging the power supply line to the building. Three men and a
digging machine
conducted the digging of the power supply line. February 3, 2000 On
the
afternoon of Thursday February 3, the site, just by looking, didn’t
seem to have
made any progress from the previous day. However, workers were
going down into
the basement. Due to safety concerns, visitors were not allowed
down below the
structure. In order to find out what was happening, discussions
with engineer
Charles Pickar of Sebesta Blomberg and Associates, Inc. were used
to fill in the
blanks. He explained that the electricians and pipe fitters were
working in the
basement running conduit and laying pipe. As soon as they were
done, the fire
suppression people could get down there to spray the piping. They
were working
to get the necessary wiring complete so more equipment could be
lowered and
hooked up as soon as weather allowed. As for now, the site was
supplied power
through a shed, which was tapped into a near by permanent power
supply. Some
parts of the basement were already filled in, but one main hole was
left opened
to get the transformers and air handling units down. Also in the
basement, men
were laying diamond supports on the steel footings to prevent
cracking in the
concrete foundation from the stress of the columns. These processes
all
continued underground through the afternoon. February 4, 2000 The
snow and wind
on the afternoon of Friday, February 4 again forced the ironworkers
to abandon
lying any additional floor decking. A crew of three men prepared to
drop a
transformer into the basement. The crane was extendible and looked
to be at
about 100 ft. The riggers took their time securing the connection,
but due to
wind, never attempted to move the unit. Mr. Pickar later explained
that this
particular type of crane is not very stable. If the load sways
while being
transferred, there is a great possibility that it will flip.
Keeping in mind
operator safety, as well as the safety of nearby crewmembers, risks
are just too
great to attempt transfer today. Tarps covered the transistors and
the crane
lowered and folded up. Mr. Pickar also mentioned that a late
delivery of hangers
for the basement earlier in the project was already pushing
everything behind
schedule. The weather problems further added to those delays.
Looking at the
architectural drawings covering several tables in the construction
office, it
was noted that there will eventually be a tunnel running
underground out the
north end of the library and into nearby buildings. Several
revisions had to be
made on these drawings, especially in regards to the structure
itself, to modify
the ideas of the designer with the feasibility of engineering.
Sebesta Blomberg,
which is primarily an engineering company, did most of the
modifications. There
were almost 1000 pages just of architectural design and several
other books of
drawings, such as electrical and mechanical work, which were
equally as thick.
These all seemed to be labeled in an efficient manner to assure
that pages could
be easily located. This is especially useful when phone calls come
in and
someone needs to know something like a dimension on a certain
machine in a
certain room. People with identical books can easily direct another
over the
phone to a specific page. Depending on the type of work it entails,
specific
areas within each book are easy to find just by reading the
markings on the
bottom corners of the pages. Safety Issues In reference to safety
issues other
than the specific situations mentioned before, it was noted that
anyone entering
the site was required to wear a hard hat as well as construction
boots. Every
worker wore thick gloves and some wore safety eyeglasses. All crane
operations
were taken slowly and all ironwork was called off at the first
signs of
slickness or dangerous winds. Anyone operating machinery, such as
the welders or
crane operators were trained and certified prior to working. All
visitors were
required to sign in and out to alert those in charge as to who was
on site in
case of an emergency. The construction office bookcase was filled
with safety
manuals, OSHA guides, project management workbooks, structural
welding guides
etc. All the drawings contained clear markings referring to
placement of safety
equipment, such as fire alarm and hose reels. Safety inspection was
accounted
for in the scheduling process and any sort of risks taken very
seriously by all
members of the working and management crew. Construction
Observation Conclusions
In conclusion, this construction project reflects a complex system
of seemingly
unrelated activities, which in actuality are crucially dependent on
one another.
The timing of the start and finish of every little detail is
scheduled so that
it fits in the order necessary to complete the project in the most
efficient
way. Advanced planning, foresight, and experience are used to
ensure processes
are done in the right order. An example of this is the basement
project. The
design must call for a section of flooring to be left out. Hangers
have to go in
before wire and pipes, which have to go in before machinery, which
has to go in
before fire safety equipment and inspection, which has to be done
before the
floor gets closed up. Each link in the chain is essential. Delays
can easily
build up fast if one link can’t finish the job. It’s the
responsibility of the
construction manager to ensure that materials get there on time and
that workers
have the qualifications and tools necessary to complete the task.
The
construction manager must keep an eye on all aspects of the
project, paying
special attention to safety codes and restrictions, and understand
the
interdependence of each days events in order to avoid delays,
maintain a safe
working environment, and keep the schedule moving smoothly until
every final
detail has reached completion.
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