HomeMy WebLinkAboutDrainage Report UNIT 16II
LLOYD AND ASSOCIATES
ENGINEERS AND SURVEYORS
REPORTS
DESIGNS
SUPERVISION
APPRAISALS
CONSULTATIONS
ROBERT F. LLOYD
REGISTERED CIVIL ENGINEER 3538
REGISTERED LAND SURVEYOR 944
(305) 562-4112
1 B 3 S 2 0 T H STREET
VER❑ BEACH, FLORIDA
32960
DRAINAGE ANALYSIS
SEBASTIAN HIGHLANDS - UNIT SIXTEEN
1970 VS. 1980 PROPOSED DRAINAGE SYSTEMS
This report is an analysis of the inherent advantages vs, dis-
advantages which would result from implementation of the revised 1980
Sebastian Highlands, Unit 16 drainage system in comparison with the 1970
Sebastian Highlands, Unit 16 drainage design.
The proposed subdivision, Sebastian Highlands, Unit Sixteen, con-
sists of approximately 450 acres. For clarity in accurately assessing the
1970 vs. 1980 drainage designs, Unit Sixteen should be separated, as it
is physically, into the East and West components of Sebastian Highlands,
Unit Sixteen. (See attached map illustrating these areas. )
The proposed changes to the West Component of Sebastian High-
lands consists of the removal of rip -rap, revision of pipe sizes and the
elimination of crosspipe, which was changed to standard outfall pipes. These
revisions will create erosion problems in the areas where concentrated
quantities of water discharge, the pipe size changes are simply equivalency
areas and do not affect the capabilities of the storm water system. Removal
of rip -rap headwalls will promote damage to pipe by traffic running off
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shoulders and striking the unprotected pipe. For most practical purposes the
1970 design has not been altered significantly enough to impact the storm water
management capabilities of the western portion of Sebastian Highlands, Unit
16.
The proposed changes to the East Component of Sebastian Highlands,
Unit 16, are much more extensive and thereby potentially capable of signifi-
cantly affecting the quality of storm water management as it impacts the
residents of Sebastian Highlands, and thereby the City of Sebastian. It should
be mentioned that no design negligence as it relates to the overall capacity of
the system is inferred, only the quality of storm water management as it
affects the relationship between residents and their environment are discussed
to aid the citizens of Sebastian and their elected officials in rationally deciding
what design parameters are viable for them. The East Component changes and
their effects are discussed below:
1. An overall grade change of a few inches to three (3) feet is pro-
posed for the entire eastern subdivision.
2. Concrete curbs and valley gutters as opposed to swales
with culverts at intersections.
3. Valley gutters as opposed to culverts at street intersections.
4. Soil cement ditch bottoms for rear lot drainage easements.
5. Elimination of the bulkhead for lots fronting on Lake Schumann
is proposed.
6. Additional culverts as opposed to ditches is proposed, along
with catch basins.
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7. Rip -rap is eliminated.
8. Culvert sizes changed to reflect new drainage design.
9. Grades for roads, swales and ditches have been changed
to meet new design conditions.
10. Sidewalks have been added.
Soil cement ditch bottoms historically create maintenance problems.
At joints and with time, contraction cracks occur which sprout vegetation; sand,
silt and debris deposits create unsightly surfaces difficult to clean and main-
tain. Settling occurs which creates pools of stagnant water which is only
disposed of by evaporation. Without the soil cement ditch bottom, percolation
would be promoted both by direct contact with the soil and the delayed run-off
caused by vegetative growth.
The first flush, or 1", of rainfall contains 90%n of the pollutants from
roads, driveways, roofs, lawns and other areas. With swaled right-of-ways
and grassed ditch bottoms, storm waters infiltrate back into the soil and are
cleansed in the infiltration process. By providing only impervious surface
contact for all water falling on pavement and soil cement ditch bottoms,
fertilizers, petroleum products, debris and other pollutants are discharged
directly into Lake Schumann. In time this could kill plants and fish in the lake.
It should be noted that many small cities experiencing rapid growth
are adopting drainage requirements for developers, requiring retention of the
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r
first inch of rainfall. As noted earlier, 90%n of pollutants resulting from
storm waters occur in the first inch of rainfall, and infiltration from storage
ponds designed to retain the first inch help the natural hydrologic cycles, in
addition to minimizing drainage structures usually maintained by City personnel.
CONCLUSION
A. The plans for Sebastian Highlands, Unit 16, Western section, as revised
April, 1980, show a minimum change from those approved in June, 1970,
and in effect have not lowered the standards except for the elimination
of rip -rapped headwalls and ditch drops. It is believed that serious con-
sideration should be given to reinstate their use for physical protection
and safeguard against accidents.
B. The plans for the Eastern section of Unit 16, have been upgraded to
metropolitan standards worthy of complimentary approval.
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