HomeMy WebLinkAboutDON JACK Lots 1-3 Tract A S-5345
MUNICIPALITY OF ANCHORAGE
DEPARTMENT OF HEALTH & ENVIRONMENTAL PROTECTION
ENVIRONMENTAL HEALTH CASE REVIEW WORK SHEET
[] PLATTING BOARD [] PLANNING & ZONING
CASE NUMBER
S-5345
DATE RECEIVED
April 2, 1980
NAME
1, 2, 3 and Trzct A Don
Jack
COMMENT TO PLANNING BY
April 14, 1980
Subdivision
FOR MEETING OF CASE OF
~j~lC WATER~LQ.T..AVAI LABLE TO PETITION AREA
~"PUBLIC SEWER NO,___T.T AVAILABLE TO PETITION AREA
REVlEWER'S COMMENTS:
71-014 (Rev. 2/78)
MUNICIPALITY OF ANCHORAGE
DEPARTMENT OF HEALTH & ENVIRONMENTAL PROTECTION
ENVIRONMENTAL HEALTH CASE REVIEW WORK SHEET
[] PLATTING BOARD [] PLANNING & ZONING
CASE NUMBER
S-5316
DATE RECEIVED
January 3r 1980
COMMENT TO PLANNING BY
January 21, 1980
NAME
~ Don
Jack Subdivision
FOR MEETING OF CASE OF
[] PUBLIC WATER NOT AVAILABLE TO PETITION AREA
[] PUBLIC SEWER NOT AVAILABLE TO PETITION AREA
REVIEWER'S COMMENTS:
71-014 (Rev. 2/78)
unicipality of Anchorage
MEMORANDUM
DATE: July 11, 1980
TO: John Lynn, DHEP "t
FROM:. .Jo Ann ¢6ntrera Planning Department
SUBJECT: Don Jack Subdivision S-5316 & S-5345
This is a memo to verify that Don Jack Subdivision has preliminary
approval from the Platting Authority and has been submitted by the
engineer for final filing.
91-010 (5/78)
4040 "B" STREET
ANCHORAGE, ALASKA 99503
(907) 278-1551
June 10, 1980
W.O. #A19294
Mike More
SRA Box 473-J
Anchorage, Alaska
99507
Re:
Perc Test
Lot 3, Don Jack Subdivision
Dear Mr. More:
We ran a percolation test in the test hole cased with slotted
plastic pipe on the above referenced lot. The test hole had
previously been drilled and logged by Jim Dowling°of Dowling and
Associates.
The test hole was saturated, left overnight, saturated again and
the rate the water dropped in the test hole monitored over a
period of one hour, at ten minute intervals. The percolation
rate measured was 5.0 minutes/inch.
Please feel free to contact us should' you have any questions.
~~.~ /.~/,//i~~fl ~ ~ Very truly yours,
MRN/mg /~~~~ ~'~ · ~ Manager
GEOLOGIC SOIL INVESTIGATION
of
NWl/4 NE1/4 NWl/4 SE1/4, Section 3, T11N, R3W, S.M.
REFERRED TO AS DON JACK SUBDIVISION
Updated to include Lot 3 and Tract A
Prepared by:
DOWLING AND ASSOCIATES
804 East 15th Ave. Suite 2
Anchorage, Alaska 99501
December 1979
(REVISED May 30, 1980)
TABLE OF CONTENTS
INTRODUCTION
SITE DESCRIPTION
SUB-SURFACE SOILS AND CONDITIONS
CONCLUSIONS
SOILS LOCATION MAP
LOGS OF TEST HOLES
ADDITIONAL INFORMATION
INTRODUCTION
This report is the result of a field t'rip investigation conducted on
And May 28, 1980
December 21, 1979 on the proposed subdivision. This area is located
within Section 3, T11N, R3W, S.M. Alaska, generally about 1600 feet
West along 164th from Golden View Drive.
This subdivision is a further subdivision of alloquit parts lands (2.5
Plus an additional 6.25 acres
acres into two 1.25 acre lots). The subdivision is planned exclusive
of public water and public sewer. The Don Jack Subdivision is a newly
proposed subdivision surrounded by basically unsubdivided lands. It is
located on a hillside facing to the west. Development of adequate
sanitary facilities will be the responsibility of the individual property
owners. The sewage disposal will consist of conventional septic tanks
draining into a seepage pit and/or drain field. Drawings from the
Department of. Health and Enviornmental Protection, Municipality of
Anchorage have been included as a part of this report of the septic
system required. The water source will be from individually drilled
wells.
The purpose of this report is to define the soils conditions within
the property and to determine the area requirements for proper sewer
seepage in that particular soil.
SITE DESCRIPTION
Don Jack Subdivision is located Off Golden View Drive about 1600
feet to the west on 164th Avenue. It consists of a 2½ acre parcel
of land to be broken into two 1¼ acre lots. The land slopes gently
to the west on the most of the lot. The easterly side of the lot
has a somewhat steeper slope formed by a knoll. The land is in its
natural state. It is covered with. Large Birch and Spruce with plush
under brush consisting of willows, nettles and other small shrubs.
The area seems to be a good setting for two units.
Additional land for the subdivision adds 6.25 acres. This land is to the
south and east of the original subdivision. The total parcel is basically
the same as stated above for the smaller tract of land.
SUB-SURFACE SOILS AND CONDITIONS
The surface of the soils found in this area is a very dark brown humus
topsoil with a lot of organic materials in the top 6 inches. The
humus is from I foot to 1½ feet deep. This humus overlays a layer
of sandy gravel or silty sandy gravel. The westerly portion of the
lot is somewhat benched. The natural slope being to the west tends to
substantiate that there is a bowl effect with the build up of topsoil
within the bowl and exposed gravels (little topsoil on the breaks) on
the areas where there seems to be more of a break. This bowl holds
some surface water that will probably run off as soon as the dike is
broken. The area is fairly consistant in that there is quite a bit
of silty sandy gravelly material. Just where a person will encounter
some of these layers of different materials will take some study of the
overall hillside. The layer of gravel found in the upper level of test
hole 2 seems to be the same gravel layer found at the lower level of
test hole !. The water found in both holes in the upper layers is ground
water and runoff from the hillside. It does not show up in the soils
below to any avail. The soils in Hole I show a definite indication
of silty conditions in the whole general area. The layer of pure
silt would seem to be local and not consistant with silty sandy gravels
found else where. The remainder of the hole to the 10.5 foot level
would seem to be the basic soil of the area. The gravel at the bottom
of the hole could be a pocket holding the water of it could be a layer
extending into the hill where there would be basic water runoff from
the upper hill.
Hole #2 was taken at the top side of the bottom of the bowl effect
explained before. The gravel was very clean of fines and at the bottom
of this gravel was a small amount of water lying on top of the silty
sandy gravel. This silty sandy gravel with rocks and boulders to 2'
extended to a depth of 16 feet. The materials seemed to get harder as
the depth increased. Whenever a boulder was encountered the digging
got very hard, even though the boulder may have been only 1' on diameter.
The hole was dry while digging in the lower depths with no indication of
water to be encountered.
There was no frost in either hole nor would frost be expected. There
was also no bedrock nor would 'there be any expected.
Additional InfOrmation acquired 28 May 1980
Test Hole #3
This hole was drilled with an au. ger suppl~ied by Denali Drilling.
The Hole was placed in a location where the individual owner wishes to
place his septic system. A 2" x 20' plastic pipe was placed in the
hole when the auger was extracted. This pipe is to be used for a perk
test. The soils were very dry. There was a l'ayer of gravelly sand
between 4 and 7 feet.which should make for very good septic location.
Material below 7 feet was all basically the same silty sandy graVel
(hard pan) very dry and easy to auger through. A sample was taken from
the bottom of the hole. Moisture content was quite low. The material
would not ball-up when squeezed from lack of water content. There were
more rocks at the top of the hole than at the bottom. It seemed that
the farther the drilling the less rocks encountered.
Test Hole #4
This holed was drilled with the same auger as hole 3. The hole was placed
in a location where a septic system might be anticipated and a 2"x20'
plastic pipe was placed in the hole for easy perk testing.
The surface material gave way to very large rocks and boulders. The
depth of the rocks extended to 5 feet. Very hard drilling materials.
The material seemed to get smaller therdeeper the hole. Finally at a
depth of 7 feet there seemed to be no mo~e rocks to hold up the auger.
A sample was taken at the bo~om of the hole. No water was encountered
in the hole a~d the material was quite dry all the way.
CONCLUSIONS
The two test holes on this property show that there is an inconsistancy
in the layers of the soils, but they do show that the general type of the
soils in the area is of a silty sandy gravel mixture (GM). I would
expect to have some low percolation rates within the area unless a good
layer of the gravel can be encountered where the septic tank is to be
located. Specific information will have to be formulated at the specic
septic tank location determined by the owner as to percolation and size
of leech field.
These holes display specific conditions encountered at the specific
location; however, the sub-surface conditions are subject to major
change.
Based on the information obtained in these holes, it is felt that a
specific location should be located for the septic system. If hard
pan is encountered in the enti.re depth of the hole, percol~ation should
be attempted before moving to another location abandoning the original
hole. By searching and prudent judgement in the location of the septic
system, a septic location should be available. If this criteria is
followed these lots should be suitable for on-site sewerage disposal.
Specific location will require an on-site permit from DEQ, Anchorage
Office.
The additional two holes taken 28 May 1980 show fair to good matemial
for septic systems showing dry conditions and fair soils.
The M of A should have the records for the ~ ~
septic system located on proposed Tract A. // ~
//James K. Dowling P.E. ~ J
/ / DOWLING & ASSOCIATES ~
(/ 804 East 15th Ave. Suite2
26 December 1979 v Anchorage, Alaska 99501
29 May 1980 (Revision)
amp h'n .~
DOWLING & ASSOCIATES,
Engineers -- Surveyors
Anchoro~e, . Alaska
Hole Mo /
s*.~.~ , , /, . o~ ' ~ "
Total Depth · ~/'; ~? '
Ground I'/~l~r Toble
[:"" I.
[)[SC,C( IP Y l ON
Soil ;/pe~ color, texture,
sump/ur dr/v/ny not=,&
depths circ~l~lion lost~
~o,~ on drilh~g eos%
bH~ used, etc.
Locoh'oo t,b.'es E Dx~2fom..
r.F'l
'"ion
.,9 droo.
DOWLING & ASSOCIATES
Engineers --. Surveyors
~nchoroge, . ,zllosko
~cot[on
ethod Used
'_old Perry
__ Gootoeis;
-?' . of... ; "
Shee ; ~
Totol Depth '- ......
DESC,P/p £I ON
.Poll ly.oe, co/or, texture,
esfkm ate d p or,'icle sizea
sarn,Her"drJ'~iT~,j note~t
depths circu/et~On losS
boles' on dril}in~ oos9~
bus u~ed, etc.
Local:On [,'o,'es E
~ ........ ~ ................. ,~.:
~.."~
Vegel~l/o n .'
Standard ,°cnelro;t:en Sampler Eriven ~../]'~0 lb. hammer, d$O~ drop.
LOG OK I'EST h'OHING
tie. w/It V Louasbury ~ ~ssociotes
Engineers -- Surveyors
~nchoroge, . Alusk~
~roject N~me,
.ocot]on ..
~4ethod Used
-'-~eld Party
Veo~hsr .
Somp ling
DESCRIPTION
est hn otc d p urh'cle
Sompter drivh~g notes~
noh.,s on d~ ilhng eose~
VC'~lC luh u n .'
>to le No.
Sheet -
Total Depth
D~epth Ground Woter
in Ft.
l
Time
Locoh~n MO/cs cc D/~grom: ~
?~ble
30'* dron,
,.? ComDIeted
· Wect No ~"rr'P - J'~' O .z~nchoroge, . Alos~'o
.%'m,o h'n9
Goolo~ist
Ground IValor Toble
DI~SCRIP£10H
Soil type, color, texture,
eslimoted porh'clo size~
$orn,9/e~* driving ootes~
dopths circulation Iost~
notes on drilling oose~
bils used, otc.
LO¢OIIO0 [}O/os
,Test Hole Lo~l - Description Guide
~e soil descriptions shown on thc logs are the best estimate of the ~oil's
,.aractcristics at thc time of field examination and as such do nat achieve the
cession of a laboratory testing procedure, if the log includes soils samples,
ose samples receive an independent textural classification in the laboratory
verify the field cxaminatmn.
logs often include the following items:
D.~th interval - usually shown to 0.1 foot, within that zone no
sign~tge m soil type was observed through drill action, direct
observation or sampling.
Frost Classification - NFS, Fl, F2, F3, F4, see "Soil Classification
Chart"
Texture of Soil - An engineering classification of the soils by particle
stze and proportion, see "Soil Classification Chart", note the
proportions .,re approximate and modifications to the soil group due to
stratit'tcatiou, inclusions and changes in properties are included.
Moisture t:ontt'nt this is a qualitative measure:
dr__..v.. ,,,, or little apparent surface moisture,
damp, moisture forms portion of color, tess than plastic limit,
wet, uo frec water, often soft, il'cohesive soil,
saturated, free water may be squeezed out, if a free draining soil;
ddatent at natural moisture content, if.a non-plastic silt or fine
saud. (]'he moisture content is further defined by reference tu
LW, NP, M%or dilatency.)
Density -- refers to more-or-less non-cohesive soils, such as sandgrayel
mixtut~.'s with or without a fine fraction, derived from drilling action
and/or sample data: usually described is: very loose, loose, medium
dense, very dense. General intent is to portray earthwork
character itl its.
Stiffness - refers to more-or-less cohesive soils and fine grained silts of
~ clay-silt groups. Derived from drill action and/or sample data, Very
soft, soft, stiff, very stiff and hard are commonly used terms.
Particle ~ize -- Tile largest particle recovered by the split spoon is
1-:3/8", Shelby tube Y', auger flights /minute-man) 2", Auger flights
(1'550 hollow stem) 6'.8", Larger particles are described indtrectly by
action of tit,: drdling and are teferrud to as cobbles, Y' to 8", or
boulders 8"+. Therefore when reviewing the gradation sheets, if any,
the description on the hole log must bt considered for an'indication of
larger particles.
Unified Soil Classification - This is a two letter code. See Unified
Clasfification ~hect 1'o"7']'~her definition. In some cases AASHO and/or
FAA soil classltications may be shown as well as the uni/ied.
Atterberg Limits - useful for fine grained and other plastic soils,
PI; natusal moisture content believed to be less than plastic limit
natural moisture content believed to be between plastic and liquid
~-; natusal moisture content believed to be greater than liquid limit
. NP; non-plastic, useful as a modifying
materials.
description of some silty
Dilatencv - is the ability of water to migrate to the surface of a
laturated or nearly saturated sod sample when vibrated or johed -- used
as an aid to determine il' a fine grained soil is a slightly or non-pla,tic
silt or a volcanic ash.
Rock flour - finely ground soil that is nut plastic but otherwise appears
ilm r---~a clayey silt.
Organic Content - usually described as Peat, PT, sometimes includes
disi:rei~ partic']~ such as wood, coal, etc. as a modifier to .tn inorgamc
soil. Quantity described as', trace, or an estimate of volume, or, in case
of all organic, - as Peat. This may include tundra, muskeg and bog
material.
Muck - a modifier used to describe very soft, semi-organic deposits
u~u-'~ly occuring below a peat deposit.
~A,rnorphus pear -. organic particles nearly or fully disintegrated.
Fibrous Peat - organic particles more-or-less intact.
Bottom of Testhole - includes last sample interval.
Frost Line - seasonal frost depth as described by drilling action and/or
samples at the time of drilling.
Frozen Ground - other than frost line, described by samples, usually
includes description of ice content, often will include modified Unified
Classification for frozen soils - this is a special case related to
permafrost studies.
Free Water Level - The free water level noted during drilling. This is
not necessarily tile static water table at thc time of drilling or at other
seasons. Static water tahle determination m other than very permeable
soils requires observation wells or piezometer installations, used only m
special cases.
J'~low/6" -. The nu,nbcr of blows of a 140 weight free falling 30" to
advance a 2" split spoon 6"i the nurnber of blows for a 12" advance is.
by definition, thc standard penetration.
,4% - natural moisture content of the soil sample, usually not
p-~"rformed on clean sands or gravels below the water table,
Type of Sample .-
S__P, rcte~s to 2" split spoon driven into the soil by 140 pound
weight, a disturbed sample,
S, thin wall tube, "Shelby" used to obtain undisturbed samples
of fine grained soil,
C,, "grab" disturbed sample from auger flights or wall of trench,
.G., cut sample, undisturbed sample from wail of trench.
Dry Strength - a useful indicator of a soil's clayey fraction, N=None,
L=Low, M=Medium, H=High
- The samples are placed into apparently similar groups based
or and texture and are arbitrarily assigned a group '.etter, Further
disturbed tests including Atterberg Limits. grain ~ize, moisture-density
relatiom;htp, etc. may be performed on the group and are assumed to
reflect the general di~trubed characteristics of the soils assigned ~o
group. 'l'hN ~ an important phase of thr sod analysis and *s u~cd
~tandardize the varmus qualitative determinations and to reduce the
number of quantitative tests necessary to describe the ~uiJ mall.
SOIL CLASSIFICATION CHART
30% GRAVEL
CLAY
~/
/ ,?
CLAYEY ,? CLAYEY CLAYEY CLAYEY
\ OR
OR
SILTY SILTY
SILTY SILTY
SAND
GRAVEL
GRAVELLY SAND SANDY GRAVEL \/
/ \/ \
\/
/
SAND GRAVELLY SAND SANDY GRAVEL GRAVEL
\ \ \ ~ \ \
0 10 20 30 40 50 60 70 80 90 100
GRAVEL (+~4 SCREEN) % BY WEIGHT
NONFROST SUSCEPTIBLE SOILS ARE INORGANIC SOILS CONTAINING LESS THAN 3% FINER THAN 0.02 mm.
GROUPS OF FROST-SUSCEPTIBLE SOILS:
F1 GRAVELLY SOILS CONTAINING BETWEEN 3 AND 20% FINER THAN 0.02 mm.
F2 SANDY SOILS CONTAINING BETWEEN 3 AND 15% FINER THAN 0.02 nlm.
F3 a, GRAVELLY SOILS CONTAINING MORE THAN 20% FINER THAN 0.02 mm. AND SANDY SOILS
(EXCEPT FINE SILTY, SANDS) CONTAINING MORE THAN J5% FINER THAN 0.02 mm.
b, CLAYS WITH PLASTICITY INDEXES OF MORE THAN t2. EXCEPT VARVEDCLAYS.
F4 a. ALL SILTS INCLUDING SANDY SILTS.
b, FINE SILTY SANDS CONTAINING MORETFtAN 15% FINER THAN 0.02 mm.
c. LEAN CLAYS WITH PLASTICITY INDEXES OF LESS THAN 12.
d. VARVED CLAYS,
LL~ Itli1 itl Il I ~.~
'~---------~ 4- Municipality of Anchorage
DEPARTMENT OF HEALTH & ENVIRONMENTAL PROTECTION
PRE-INSPECTION CHECK SHEET
264-4720
MINIMUM
CJ
LEVEL
4" CAST IRON SIPHON
SEPTIC / PiPE WITH AIRTIGHT
/ Crib or Log
TANKi'"~'~ .~-~'~" CAPS [] '"-...h~l,
'CAST O TO O 0 0
,
'
i5' MINIMUM TO EDOEOF
EXCAVATION U~ '-1
CAST iRON REQUIRED WHENEVER LINE
CROSSES UNDER DRIVEWAY[]
GRAVEL BACKFILL []
CRIB 4' MINIMUM ABOVE WATER TABLE []
6' MINIMUM ABOVE BEDROCK~
MINIMUM WELL DISTANCES:
INDIVIDUAL
TO TANK 100"E3
TO PIT 100' Q
NO SEWER LINE 10'[]
PUBLIC - Under 25
Service or Less
Than, 15 Connects
TO TANK 100' ( )
TO PIT 150'
75'-100' ONLY CAST
IRON SEWER LINE
PUBLIC -'Over 25
Service or More
Than 15 Connects
TO TANK 200' ( )
TO PIT 200' ( )
100'-200' ONLY
CAST IRON SEWER
LINE
!00' NO SOURCE OF
CONTAMINATION
NOTE: 100'MINIMUM
FROM TANK AND PIT
RIVER, LAKE OR
STRE~t ( )
Individual
4" SEWER LINE []
CONSIDER DISTANCE TO AREA WELLS & SEWER SYSTEMS ~
PiT EXCAVATION BASED ON SOILTEST []
SEPTIC TANK MUNICIPALITY APPROVED []
HOUSE
INLET & OUTLET MUST 5'
BE WAIERTIGHT
SEPTIC
TANK
GRADE: 2'PER100'O~
¼" PER FOOT EXCEPT I
PRECEEDING TANK AN
SHOULD NOT EXCEED
B" PER 100' ON FL
TERRAINS []
SEEPAGE
PiT
SEEPAGE PIT
CRIB
SCREENED
½" - 2%"
GRAVEL
20' MINIMUI~I TO NEAREST LOT LINE []
~ §9.79
~ 59.8:5' (R) PLAT 78-294
IO',TELEPHONE ~ ELECTRIC EASEMENT
N O0° .10 (R)
N O0e 08\3
BASIS OF~ BEARINGS PLAT