CONCEPT DESIGN REPORT INTERNATIONAL AIRPORT PROJECT
MUSCAT, OMAN, YEAR 2007
AUTHOR: EDUARDO H. PARE, BSCE, HAU, EPCC, PMC
CIVIL/STRUCTURAL ENGINEER
DESIGN & CONSTRUCTION
Call Girls In Jp Nagar ☎ 7737669865 🥵 Book Your One night Stand
EDUARDO H. PARE CONCEPT DESIGN REPORT INTERNATIONAL AIRPORT PROJECT
1. Forecourt Complex Concept Design Report
Introduction
The Forecourt Complex is two (2) complexes that house the two (2) Multi-Storey Car
Parks including their Administrative Office Buildings. The two (2) Car Parks are almost
identically mirrored at North-South direction and are symmetrical about the centre line of
the Passenger Terminal Building. The Forecourt Complex has relative levels corresponding
to the ground floor level of the PTB which defined as Level 0.000 (R) = 7.800.
Each Multi-Storey Car park building will be structured mainly with a reinforced concrete
moment resisting frames consists of cast-in-situ columns, beams and slabs and will be
supported by tied-strip footings. The Ramps roofing systems shall be structural steel frames
with prefabricated roofing panels and insulations. Car Park Shades structures shall be
tapered built-up steel T-Beams supported on pipe struts with purlins and prefabricated
roofing panels. Any walls attached within the structures will be disregarded in the analyses
owing to their very minimal restraining effects on the Forecourt complex.
Adjacent to the Multi-Storey Car Park buildings are the Administrative Office Buildings.
Each Office building, though aesthetically connected to each Car Park building, will be
structurally isolated to contain the effects of seismic movements and thermal expansion of
structural frames. Accordingly, two (2) movement joints, one along each lateral direction
but with a covered floor area of application not exceeding 3600 m², shall be applied also on
each of the Car park buildings owing to the design assumptions requirement that induced
seismic lateral displacements would have to be contained enough in any applied lateral
directions, in addition to the presumed thermal expansion stresses brought upon by
difference in temperatures and the estimated ground settlements. Similarly, each Ramp
shall have a minimum two (2) transverse isolation joints, with isolated longitudinal length
not exceeding 60 m, to restrain any lateral longitudinal movements.
The facades of the Car Park Buildings are open facades with no concrete up-stands or
perimeter walls along the slab edges. The structural slabs will have a trowelled finish of
high quality able to receive suitable abrasion resistant moisture proof concrete protective
coating and indication stripes directly.
Outline Specification
The Forecourt Complex structural frames will be supported by rectangular and square
reinforced concrete strip foundations embedded 2.50 m. (min) from undisturbed or
compacted ground surface. The lateral size of the pad foundations will vary from 2.50 m. -
5.0 m, with depth range of 0.85 m. (min) to 1.70 m (max). Ground Beams will connect all
the structural frames on each building in the Forecourt Complex. Each structural column
will be tied together with a ground beam, the size of which is approximately 0.60 x 0.75 m.
Columns that form the structural framing system on the Forecourt Complex will be
reinforced concrete square columns with sizes of 0.70 m x 0.70 m (min) to 0.90 m x 0.90 m
(max).
Ground slabs at the Car park lowest level will be 0.20 m thick reinforced concrete slabs
2. panels with isolation and thermal joints applied at both directions to contain the effects of
slabs expansion stresses.
Beams that frame the Forecourt Complex structural system will be reinforced concrete
beams with width range of 0.40 - 0.70 m., and a depth range of 0.75 - 1.00 m.
The structural floors will be framed by reinforced concrete slabs with thickness range of
0.30 m - 0.50 m (max). Each floor slab system will be restrained at edges to stiffen the
whole structural system.
A reinforced concrete parapet shall be applied along exterior edges of the Car Parks and
Ramps that serves as safety barrier to contain any accidental impact loadings.
To restrain the forces brought upon by seismic, thermal, uneven base settlements and
applied moving loads, the Ramps shall be considered as isolated structures restraining
independently such applied stresses; with sufficient flexibility against any lateral and
vertical movements with respect to the overall behavior of the interfaces of structural
systems on the Forecourt Complex.
Block Walls in the Administrative Office Buildings shall be insulated walls.
Structural Concepts
The Forecourt Complex Structural Systems are conceptualized based from the structural
systems behavioural aspects of responses on the applications of applied loadings on the
structures. It is assumed that the application of Framed Reinforced Concrete Structural
System on the Forecourt Complex shall sustain enough the needed flexible resistances of
the structures against the applied loadings coupled with sidesways and plumb
displacements. Owing to the lesser degree of behavioural applications of the presumed
lateral loadings that are ascertained to act on the Structural Systems - since the ratio of the
total exposed building height and applied lateral displacements is considered minimal, the
assumptive need for a structural shear walls to lessen the amount of applications of the
estimated displacements is therefore eliminated. Accordingly, since the required bearing
pressure constraints for equilibrium to contain the applied combined stresses on the
Structural Systems supports points have been assumed not going beyond the nominal
parameters of the allowable independent bases of resistance then an application of mat
foundation as base of supports is disregarded; instead spread pad footings will constitute
the bases of supports for the Structural Systems. Similarly, due to the symmetries of the
floor modules continuities a large imbalance stresses are not foreseen - a lesser degree of
rotations and tensile developments at supports base points are therefore sustainable enough
with strip foundations.
To render the Forecourt Complex Structural Systems points of restrains adequately feasible
enough to contain the magnitudes of the applied displacements in any course of actions
brought upon by the imparted joints and assumptive points stresses resulted from the
applications of the applied seismic, thermal and uneven ground settlements stresses, each
Car Park building will be isolated quadrupled with movement joints; with distributed
covered floor area of isolation application not exceeding 3600 m² and with an isolated
length not exceeding 60 meters and with due considerations on the effects of induced
seismic torsional moments that shall perceive to act on each isolated unit of the building if
the unity ratio of mass and rigidity coincidence could not achieve owing to movement
joints asymmetrical locations. Movement joints load transfer and interface points shall be
3. capable enough to restrain any lateral and vertical displacements stresses in any direction in
addition to the induced reactions due to combined ultimate stresses. Accordingly, each
Ramps Structural Systems shall also be isolated from the Car Park Structural Systems, with
at least two (2) transverse movement joints and with an isolated longitudinal lengths not
exceeding 60 meter in length. Similarly, the Administrative Office building structure
adjacent to the Car Park shall also be isolated from the Car Park Structural Systems with
the provision of movement joints capable enough to sustain any induced lateral and vertical
displacements stresses. Owing to aesthetic requirements the movement joints shall be
applied with due consideration on the elimination on the needs of additional column and
foundation supports along the joints of isolation lines. It is therefore concluded that without
the application of such movement joints the Forecourt Complex Structural Systems would
need to have much greater amount of resistances against induced lateral and vertical
displacements stresses, which would require the system to have bigger member sizes with
added reinforcements to restrain such displacement stresses, in addition to the application
of much bigger bases of supports such as raft foundation to contain the wide-coverage
uneven ground strata settlements.
To restrain the side sways and plumbs strain effects of seismic movements and uneven
ground settlements stresses including any instability and imbalance stresses, in addition to
the isolation joints, all the Structural Systems Reinforced Concrete Columns shall be tied
together with a grade beams adequately enough to resist any compression, tension and
torsion stresses brought upon by such induced stresses. If the Structural Columns are opted
not to be tied with ground beams then bigger sizes of Structural Columns are foreseen in
addition to the application of Mat Foundation in lieu of Strip Footings as support bases and
instability and imbalance controller at the most critical structural systems joints.
Accordingly, Structural Steel Columns are chosen not quite feasible to be used on the
Forecourt Complex Structural Systems due to the following technical engineering aspects:
firstly - ductility demand - the elastoplastic response of the structural system on seismic
forces; is the ratio of the inelastic movement of the structure to the elastic movement which
requires the structural system, in addition to the seismic additional detailing requirements
on its complex connections, to be rigid or braced enough to attain such demand for
ductility, of which bigger sizes of steel columns are foreseen for rigid frames and lateral
braces for braced frames which would affect the aesthetic requirements on the Forecourt
Complex, and secondly - deflection considerations - owing to effects of moving loads
including impact stress though minimal in applications, will brought upon on the structural
systems nominal cyclic long term deflections which would require the system to have
bigger member sizes with added complex seismic detailing connections and adequate
braces to lessen the magnitude on buckling and slenderness requirements, in addition to the
corrosion and fireproofing protection systems that also would affect the aesthetical aspects
of the Forecourt Complex. Similarly, Precast or Prestressed Concrete Structural System is
disregarded due to its design requirements on complex establishment of overall seismic in-
plane force paths, complex applications on its connections including large amount of
needed movement tolerances to restrain the induced seismic stresses and displacements,
provision of overall vertical tension ties which would require the establishment and
application of seismic effective ground and base interface connections.
Reinforced Concrete Beams and Slabs shall frame the Forecourt Complex Structural
Flooring Systems. Owing to the induced lateral and vertical displacements stresses in
4. addition to the combined applied ultimate stresses, it is assumed that the applied Flooring
Systems shall have conceivable rigidity - enough to contribute to the overall restraining
stiffness of the whole Structural Frame Systems in terms of joints, interfaces and
correlational assumptive robustness behavioral aspects. Accordingly, composite slab
systems is not considered owing to elastoplastic response requirement on the structural
system, applied deflection considerations, additional seismic detailing requirements on
complex connections, and corrosion and fireproofing requirements. Similarly, flat slab
structural systems is not considered as the best feasible floor framing option due to, in
addition to its economic disadvantage comparison implications, the establishment of
complex concentrated edge points connections requirement along the lines of movement
joints - concentrated stress transfer at isolation lines support points.
Though there are some walls on the sets of buildings on the Forecourt Complex such as
external perimeter walls and safety barrier walls on the Car Parks external edges, such
walls are considered incapable to contribute on the overall strain stiffness of the Forecourt
Complex Structural Systems and hence structurally disregarded relevant to the overall
assumptive behavioral functions and capacities of the structural system against induced
stresses brought upon by applied service and ultimate loadings on the buildings and ramps.
Roofing System and Car Shades structural systems shall be of steel structures and built-up
tapered roof beams with prefabricated insulated aluminum roofing panels - lightweight
enough to lessen the needed restraining stresses on its bases which shall be absorbed by the
supporting slabs on the Car Park decks. Accordingly, owing to wind and seismic induced
forces including thermal stresses, the Car Park Roofing Systems shall have supports joints
flexible enough to contain any transverse and longitudinal lateral displacements brought
upon by such applied movements on the roof framing systems. However, even though the
Car Shades Roofing systems, with built-up beams and rolled steel purlins roofed with
prefabricated roofing panels but without insulation, are similarly lightweight enough will
have their bases fix to the slabs due to the large assumptive concentrated induced surface
point loads and flexural stresses acting on their single struts base supports points brought
upon by the cantilevered actions of the whole framing systems. Accordingly, the Car
Shades roofing systems shall have transverse movement joints at every 60 meter maximum
longitudinal distance capable to restrain any lateral transverse and longitudinal side sways
displacements brought upon by transient seismic and wind loadings coupled with combined
ultimate permanent applied stresses on the car shades structures. The effects of material
corrosions due to environment and utilization factors on members strains sustainable
competence on the Car Park roofing system and car shades structural steel frames shall be
taken into account in the whole assumptive behavioral restraining capacities applications,
of which the minimum thickness of any aspects of rolled sections will be 8 mm and 10 mm
for built-up sections.
To guard against the decaying effects of material strain corrosions and hence to prevent the
impairment and dissipation of energy restrains on affected members reinforcements, all
foundations and grade beams of the sets of buildings in the Forecourt Complex will be
waterproofed and dampproofed in accordance with their applied levels of embedment
corrosion exposures to soil water and chemical seepages proportionate to the estimated
mean sea level. Waterproofed membrane materials shall be technically sophisticated
enough to contain any water and chemical exfiltration and infiltration seepages in addition
to its shredding adequacy - tensile and compressible capacity to restrain any surface applied
5. stresses on the members. Accordingly, all building decks directly expose to environmental
climate factors shall be waterproofed with due consideration on the amount of periodic
accumulated rainfall and any water pondings on the affected building decks.
Interfaces
Interfaces between adjacent buildings in the Forecourt Complex shall be by movement and
slip joints with adequate flexibility to restrain any induced lateral and vertical
displacements brought upon by applied seismic and thermal stresses including any
calculated deformations due to uneven ground settlements. Such movement and slip joints
shall be capable enough to provide the needed aesthetical floor continuities between
isolated floor edges with sophisticated expansion/contraction material properly installed on
the joints. Effects of building configurations on affected adjacent buildings will be taken
into consideration on the magnitude of application on such movement and slip joints to
restrain any induced tearing, crushing and battering stresses due to seismic oscillation
rotational forces.
Architectural interfaces with the structural frame systems shall take into considerations all
aesthetical finishes material installations and applications with respect to the effects of
frames deflections, sways and expansions due to applied loads. Architectural finishing
materials including roof waterproofing shall be in accordance with manufacturer's
instructions and installed with enough flexibility to retain its designed levels, forms and
line of axes with the use of sophisticated hinges and fixers against any movements on the
frame systems. Aesthetical floor tiling systems including its mortar shall withstand, in
addition to the designed applied floor loadings, any imbalance loadings brought upon by
the structural frame systems movements.
Mechanical interfaces with the structural frame systems shall be by hangers, inserts and
other applicable methods of interfaces but such interfaces shall not impair the design
strength capacities of affected members of the frame systems. With due considerations on
the members tension and compression sides and the effective concrete compression
strength, inserts near the supports and for pipes passing through slabs shall be installed
above the beams neutral axis and within the zone of half of the maximum shear distance
from the face of supports. Accordingly, inserts near to mid-portions of beams shall be
installed below the beams neutral axis and within half of the beam middle length.
Electrical interfaces shall
Information Technology interfaces will be
Civil interfaces with the structural systems
6.
7. PAGE
NUMPAGES
Normal
Normal
Default Paragraph Font
Default Paragraph Font
Table Normal
Table Normal
No List
No List
ÿBody Text,Body Text Char1,Body Text Char Char,Body Text Char Char3 Char
Char,Body Text Char Char Char Char Char Char,Body Text Char3 Char Char Char Char
Char Char,Body Text Char1 Char Char Char1 Char Char Char Char,Body Text Char2 Char
Char,Body Text Char
ÿBody Text,Body Text Char1,Body Text Char Char,Body Text Char Char3 Char
Char,Body Text Char Char Char Char Char Char,Body Text Char3 Char Char Char Char
Char Char,Body Text Char1 Char Char Char1 Char Char Char Char,Body Text Char2 Char
Char,Body Text Char
êBody Text Char1 Char,Body Text Char Char Char,Body Text Char Char3 Char Char
Char,Body Text Char Char Char Char Char Char Char,Body Text Char3 Char Char Char
Char Char Char Char,Body Text Char1 Char Char Char1 Char Char Char Char Char
êBody Text Char1 Char,Body Text Char Char Char,Body Text Char Char3 Char Char
Char,Body Text Char Char Char Char Char Char Char,Body Text Char3 Char Char Char
Char Char Char Char,Body Text Char1 Char Char Char1 Char Char Char Char Char
4Body Text Char Char Char2,Body Text Char1 Char1 Char
4Body Text Char Char Char2,Body Text Char1 Char1 Char
Header
Header
Footer
Footer
8. Page Number
Page Number
*€urn:schemas-microsoft-com:office:smarttags
*€urn:schemas-microsoft-com:office:smarttags €PlaceName
*€urn:schemas-microsoft-com:office:smarttags €PlaceType
Unknownÿ!
Times New Roman
Times New Roman
Symbol
Symbol
÷The Multi Storey Car park Building (MSCP) comprise of two (2) building structures
namely the North Car park and the South Car park each four (4) storeys high situated at the
front corners of the Passenger Terminal Building at the arrival concourse
÷The Multi Storey Car park Building (MSCP) comprise of two (2) building structures
namely the North Car park and the South Car park each four (4) storeys high situated at the
front corners of the Passenger Terminal Building at the arrival concourse
Eduardo Pare
Eduardo Pare
Eduardo Pare
Eduardo Pare
The Multi Storey Car park Building (MSCP) comprise of two (2) building structures
namely the North Car park and the South Car park each four (4) storeys high situated at the
front corners of the Passenger Terminal Building at the arrival concourse
Eduardo Pare
Normal.dot
Eduardo Pare
Microsoft Office Word
The Multi Storey Car park Building (MSCP) comprise of two (2) building structures
namely the North Car park and the South Car park each four (4) storeys high situated at the
front corners of the Passenger Terminal Building at the arrival concourse
Root Entry
1Table
1Table
WordDocument
WordDocument
SummaryInformation
SummaryInformation
DocumentSummaryInformation
DocumentSummaryInformation
CompObj
CompObj
Microsoft Office Word Document
MSWordDoc
Word.Document.8
Root Entry
Root Entry
9. 1Table
1Table
WordDocument
WordDocument
SummaryInformation
SummaryInformation
the South Car park each four (4) storeys high situated at the front corners of the Passenger
Terminal Building at the arrival concourse
DocumentSummaryInformation
DocumentSummaryInformation
CompObj
CompObj
Microsoft Office Word Document
MSWordDoc
Word.Document.8
The Multi Storey Car park Building (MSCP) comprise of two (2) building structures
namely the North Car park and
10. 1Table
1Table
WordDocument
WordDocument
SummaryInformation
SummaryInformation
the South Car park each four (4) storeys high situated at the front corners of the Passenger
Terminal Building at the arrival concourse
DocumentSummaryInformation
DocumentSummaryInformation
CompObj
CompObj
Microsoft Office Word Document
MSWordDoc
Word.Document.8
The Multi Storey Car park Building (MSCP) comprise of two (2) building structures
namely the North Car park and