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Home My WebLink AboutPROSPECT HEIGHTS #5 S-5710 MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH & ENVIRONMENTAL PROTECTION ENVIRONMENTAL HEALTH CASE REVIEW WORK SHEET PLATTING BOARD E~] PLANNING & ZONING CASE NUMBER S-5710 DATE RECEIVED April 29, 1981 COMMENT TO PLANNING BY May 14, 1981 NAME Prospect Heights FOR MEETING OF CASE OF Subd ivisio~ J~-~ [] PUBLIC WATER NOT AVAILABLE TO PETITION AREA [] PUBLIC SEWER NOT AVAILABLE TO PETITION AREA REVIEWER'S COMMENTS: 71-014 (Rev. 2/78) ENGINEERING · AND TESTING John M. L~ambe P.E. 4101 Arctic Boulevard · Suite 205 · Anchorage, Alaska 99503 907-276~4113 April 27, 1981 Besse, Epps & Ports 2220 E. 88th Avenue Anchorage, Alaska 99507 Attention: Dave Grenier / Subject: Soils Investigation - Tracts B & C, Prospect Heights Subdivisio~ #1. Dear Mr. Grenier, ~ This letter presents the results of the soils investigation that we performed on Tracts B & C, Prospect Heights Subdivision. This work was performed in accor- dance with our proposal dated April 14, 1981. 'In response to your request, eight borings were performed on the subject prop- erty. The borings were drilled by'Denali Drilling, Inc. with a Nodwell mounted, Mobile B-50 drill fitted with 6" O.D'. continuous flight auger. The borings were located by reference to the preliminary topographic information and the stakes on the proposed property corners that you provided. As directed, the borings were located where access allowed without damage tosignificant trees. The approximate locations of the borings are shown on the Boring Locati~on Sketch attached as Plate 1. The borings were logged by Mr. Roy McDonald, technician of. our staff.' Samples were taken in each boring at intervals'of five feet by removing the auger from the boring then removing the sample from the flights of the auger from near the bit. The samples were sealed in plastic bags and transported to our laboratory where the moisture content of each sample was determined. The samples were visually classified by a laboratory technician, then sorted into groups according to similarities in color and texture. Each gnoup was. assigned an arbitrary letter designation. Selected samples of the group were analyzed for particle size distribution. The distribution of the samples within the groups and th6 schedule of particle size analyses are as follows: GROUP BORING A I ~uesse, Lpps & Ports Tracts B&C, P~ospect Hts. TRACTS B & C PROSPECT HEIGHTS SUBD.'#1' DEPTH CLASSIFICATION 3,0I 5.0' 15.0' 20.0' 2 3.0' 2 5.0' 2 7.5'* 2 10.0~ 2 15.0' 2 20.0' 3 3 3 3 3 3 2.5' 5.0' 7.5' 10.0' 12.5'* 15.0' 20.0' 5 5 5 6 6 6 5eOI - . 7.5' 5.0' 10.0' 15.0' 6 20.0' [~ .- 5 20.0' 10.0' '. ' . 7.5' ' ' 15.0' - ' "- 20.0' SILTY SANDY GRAVEL, GM SILTY GRAVELLY SAND, SM (48.5% Gravel) SILTY GRAVELLY SAND, SM (44.6% Gravel) SILTY ·SAND, SM Groups Continued.,, GRouP · BORING Besse, £pps & Ports Tracts B&C, Prospect Hts. DEPTH 10.0' 15.0' CLASSIFICATION 6 . 7.5' 7 5.0' 7 7.5' 7 10.0'* 7 20.0' SILTY GRAVELLY SAND,SM 8 2.5'* 8 5.0'* D 6 2.5' * Particle size An alyses Performed. SILTY GRAVELLY SAND, SM SILTY GRAVELLY SAND, SM ORGANIC SANDY SILT, OL - '- ' :'" .... Besse, £pps & Ports Tracts B&C, Prospect Hts. The field logs were modified by the laboratory analyses. :'Th~ fiights of the auger used by Denali Drilling, [nc. were worn smaller than the bit.of the auger. This, coupled with'the method of sampling, may not have returned all of the coarse fractions of the soil matrix to the surface for sampling and analysJs. 6onsequently, the interpretation of the lab and field data is biased toward the field observations with regard to gravel content. Due to the glacial origin of the soils, cobbles and boulders can be expected to occur frequently throughout the area. The logs of the borings are,presented on Plates 2 through 9. The results of the particle size analyses are presented on Plates 10 through 16. All field and laboratory classification were performed according to the Textural Classification System presented on Plate 17 and the Unified Soils Classification System presented on Plate 18. In addition to logging and analyses of the soil types enco'untered"in our ex- ploration, percolation testing was performed adjacent to each boring..The per- colation test procedure was to drill a shallow percolation test hole to the desired depth'apProximately five to ten feet away from the test boring, placing gravel in-the bottom Of the percolation hole then placing, four inch perforated pipe ih the hole. Gravel was then placed around the perforated pipe and the pipe was filled with water. The soils were allowed to saturate overnight. Mr~ Mark Hall of our staff monitored the drop in the water level within the percolation hole over a period, of one to four hours on the following .day. Wate~ was added ~o'the percolation test as required to try.to maintain six inches.of water over the gravel in the'bottom of the percolation hole~ ~The results of M~. Hall's percolation testing are .attached as Plat'es 19 and 20. All borings were left open. When Mr. Mark Hall viewed each boring subsequent .to dril'ling~ observations to the'depth of the free water level,~-if any, were re- .. corded.-'These, data are presented'on the boring logs and on the'fiel'd'percolation .'. test.~results,: presented. . .°n Plates 19~ .. . and 20~ The-wording~ no free Water..observed .above 14 5"i! means' that the boring sloughe~ below 14'5' and the'holeap'~ea~e~'dry. 'i' It should be noted however, that the free water l'eVel may'flQclba~e S~asonally'and annually in~'response to.seasonal run-off or heavy rainfall:'r The data presented on. our logs is only intended to represent to level of the free'water observed in ' the borings at the time of the observations. ~ ~. · . · ~Page 5 Jesse, Epps & Potts Tracts B&C, Prospect Hts. No free water was observed in the borings during or after drilling, however, as noted before, often the borings sloughed immediately after drilling. The free water in Boring 5 was assumed due to difference in drilling and observations of the cuttings during drilling. The percolation rates, presented on Plates 19 and 20, are generally good. In Some instances, the percolatio'n test accepted water as fast or faster than it could be packed in and the test went dry. These tests are just denoted as having a "good" percolation rate. The percolation rate in Test 4 was the slowest, 160 minutes per inch. This agrees with the boring log and laboratory analyses in- dicating more silty soils. This repor~ is intended to be a preliminary transmittal of the field observa- tions and soils analyses that were performed on the subject propertY. The scope 'of this effort was determined by discussing the project with Mr. David Grenier of Besse, Epps and Potts and. Mr. Les Buchholz. of the Department of Health and Environmental Protection (DHEP). As we discussed, the purpose'of this investi- gation was to provide preliminary data With which to assess the suitability-of the property for subdivision and the development of On-site sewer systems and to define areas where'additional analyses may be required..To this end, rigorous field percolation testing was performed, i.'We trust the foregoing is sufficient to your immediate needsl While qntended to be comprehensive, it may not be ex- haustive of-the possibilities. If questions arise or if we can be 6f further service, please feel free to call. Very Truly- Yours, John M. Lambe, P.E. Civil Engineer 4254-E TEST HOLE.LOCATION DIAGRAM PROSPECT HEIGHTS SUBDIVISION TRACTS' BS~ C TEST HOLES NOT LOCATED BY ,sURVEY' M'ETHODS ZERMATT AVE. T,H.7 TR. C' T. H6 'r.H. 5 / /I T.H. 2 TR. B T.H. 8 ./&c ?~/ PLATE 1 Laboratory Tes~ Percolation Test A 5.9 4.0-4.5' A 3.7 C '9.1 C 9.0 A 6.8 A .4.7 JOHN'M. LAh BE, P.E.' JobNo. 81-310.01 Appr:.WEP Date_4/27/81 LOG .OF BORING I Equ[pmentMobile B-50, 6" AUGER. Elevat;onExistinq Grnd. Date PEAT, PT Brown SILTY SANDY GRAVEL, GM moist Brown SILTY GRAVELLY SAND, SM moist Brown SILTY SANDY GRAVEL,-GM moist, w/random cobbles TOTAL DEPTH OF BORING - 20.0' No free water observed, boring sloughed below 9.1' LOG OF BORING 1 BESSE, EPPS & POTTS TRACTS B &.C, PROSPECT' HTS. SUBD. ~NCHORAGE', PLATE 2 ~ ~ LOG .OF BORING 2 ~: ~ ~' '-' ~ Eau~r~ment ~ ~ ~ ~=-&-~ -r Hobile B-50, 6" AUGER o :~c ~E r,,-' 0 Laboratory Te~t~ c~ u ~ ~ ElevatlOnExistinq Grnd. Date 4/20/81 0'- ~ ~ Seasonal Frost to 0.9' ~ Brown PEAT, PT A 7.8 ~ i.J A 6.4 5-_~ t Perc. Test @ 6.0' Sieve Analysis A 4.5 't~ Brown SILTY SANDY GRAVEL, GM 14.9% -#200 ~ : moist w/random co6bles . A 4.8 IO- A 4.6 · 20-~ J'~ TOTAL DEPTH OF BORING - 20.0' No free water observed, boring ~ sloughed below 10.5' 2_5- 30- 40~ LOG OF BORING 2 PLATE , · JOHN M. LAMBE, P.E. BESSE, EPPS & POTTS JobNo. 81-310.01 _Appr] WEP Dine. 4/27/81 TRACTS B & C, PROSPECT HTS. SUBD. Laboratory Tes~ Percolation Test 4.7 -5.3' A 5.7 A 6.5 A 4.4 LOG .OF BORING 3 _= ~ Equipment Mobile B-50, 6" AUGER , ~ ~ EJevaHonExisting Grnd. Date 4/20/81 0-[ JlJ~JlJlJSeasonal Frost to 0.5' / I"l'T'~-[Brown ORGANIC SILT Brown SILTY SANDY GRAVEL, GM moist w/random cobbles A 5.9 10- A 4.1 Sieve Analysis A 4.0 20.7% -#200 15_ A 4.4 20 TOTAL DEPTH OF BORING - 20.0' No free water observed, boring Sloughed below 13.0 JOHN LA/ I E, RE. Job No. 81-310.01 ApPr:.IgEP Date 4/27/81 LOG OF BORING3 BESSE, EPPS & POTTS TRACTS B & C, P~0SPECT HTS. SUBD. ANCHORAGE, ALASKA PLATE 4 Laboratory Tests Sieve Analysis 26.5% -#200 A 25.2 Percolation Test C 23.7 4.0-5.0' C 10.2 Sieve Analysis 42.8% -#200 B 9.4 C 11.3 C 7.3. NO. JOHN M. LAMBE, P.E. 81-310.01 Appr: WEP Date4/27/81 LOG .OF BORING 4 Equipment Mobile B-50, 6" AUGER ElevatlonExistinq Grnd. Date 4/20/81 m __Brown PEAT, PT Brown SILTY SANDY GRAVEL, ~M wet w/random fiberous organics Brown SILTY GRAVELLY SAND, SM wet w/random fiberous organics 10- 15_ Brown SILTY SAND, SM moist w/random gravels Brown SILTY GRAVELLY SAND, SM moist w/random cobbles TOTAL DEPTH OF BORING - 20.0' No free water observed, boring sloughed below 14.0' LOG OF BORING 4 BESSE, EPPS & POTTS TRACTS B & C, PROSPECT HTS. SUBD. ~NCHORAGE. ~a~a PLATE LoborotorY Tests Percolation Test @ 4.0' A 12.8 A 4.4 A 3.3 C 9.2' C 3.8 B 11.5 , , JOHN M. LAMBE, P.E. Jc~oNo. 81-310.01 Ap~: WEP Date. 4/27/81 .OO .OF BORING 5 Equ;pment Mobile B-50, 6" AUGER Elev°r~°nExistinq Grnd. Dare 4/20/81 Brown PEAT, PT saturated Brown SILTY SANDY GRAVEL, GM moist to wet IO- Brown SILTY GRAVELLY SAND, SM moist w/random cobbles Free Water 'Assumed @ 17.5" Brown SILTY SAND~ SM moist w/random gravels TOTAL DEPTH OF BORING - 20.0' No free water observed, boring Sloughed below 13.0' LOG OF BORING 5 BESSE, EPPS & POTTS TRACTS B & 'C, PROSPECT HTS. SUBD. NCHORAGE, ALAS~ PLATE 6 Laboratory Tests Percolation Test 4.3 - 4.8' D 32.5 A 9.4 LOG .OF BORING 6 Equipment Mobile B-50. 6" AUGER ElevatlonExisting Grnd. Date 4/21/81 Seasonal Frost to 1.0" Brown SANDY ORGANIC SILT, OL moist C 8.8 A 7.1 I0- SILTY SANDY GRAVEL, GM moist w/random cobbles. A '8.6 A 4.1' 'OTAL DEPTH OF BORING - 20.0' No free water observed, boring sloughed below 14.0' JOHN M. LAMBE, P.E. Jc/oi",k). 81-310.01 Appr: WEP Date 4/27/81 LOG OF BORING 6 ' BESSE, EPPS & POTTS TRACTS B & C, PROSPECT HTS. SUBD. ANC'HORAGE, AIAq~A PLATE 7 Laboratory Tests LOG .OF BORING 7 Equ[pmentlqobile B-50~ 6" AUGER ElevaH°nExistinq Grnd. Dote 4/21/81 Percolation'Test 4.8-5.3' B 15.3 C 9.7. C 8.6 Sieve Analysis C 9.7 36.5% -#200 A 4.4 C 6.7 . ~ 20 Brown SILTY SAND, SM wet w/random gravel t6 0.5' Brown SILTY GRAVELLY SAND, SM moist Brown SILTY SANDY GRAVEL, GM :moist w/random cobbles Brown SILTY GRAVELLY SAND, SM moist TOTAL DEPTH OF BORING - 20.0' No free water observed, boring sloughed below 12.5' JOHN M. LAMBE, P.E. JobNo. 81-310.01 Appr:WEP Date 4/27/81 LOG OF BORING 7 BESSE, EPPS & POTTS TRACTS B & C,.PROSPECT HTS. SUBD. ~NCHORAGE, ALASKA PLATE 8 Laboratory Tests Sieve Analysis 35.2% -#2O0 Percolation Test 3.8 - 4.9' Sieve Analysis 25.9% -#200 C 9.8 C' 6.6 A 7.6 LOG .OF BORING 8 _=~ Equipment Mobile B-50, 6" Auger r~ ~ ElevatbnExisting Grnd. Date 4/21/81 I,t,/,t,lBrown ORGANIC SILT, 0L wet Brown SILTY GRAVELLY SAND, SM moist A 5.2 10- Brown SILTY SANDY GRAVEL, GM moist w/random cobbles A ' 5 . 0m. DEPTH OF BORING - 20.0' No free water observed, boring sloughed below 14.0' JOHN &t. LAMBE, P.E. LOG OF BORING 8 BESSE, EPPS & POTTS TRACTS B & C, PROSPECT HTS. SUBD. ANCHORAGE, ALASKA PLATE 9 JobNo. 81~310.01 Appr: WEP Date. 4/27/81 U-S-SfandardSieveOpeningSize J ' U.S. Standard Sieve Numbers 'H drometet 11111111 II1~1tl !1111111 · IIIII/// I111.1111 ~ol111.1/// 'llll~,ll It111111' IIIIIIII III1'1 ~ ~1111// I'11111~ . IIIIIIII IIIIIIII ' ~ 1/111/// IIIIIII I~-~11111111 i1111//I~ IIIIIII1 ~ r. ' ~1 IIIIII ' IIIII I1111 ' IIIII. '11111 I i'.~ IIIIII IIII _ 11111 IIIIII /111 -IIHII/ '11111-/ o11111/// IIIIIl//~ IIIIII/I IIIIIII/. IIII///// I00 ~0 fO 5 GRAIN ~IZE INO'MSILLIMETER$OI 005 C~OI 0.005 0001 Symbol* · Somple Source Clossification · BORING 3, Sample #5 @ 12.5' SILTY GRAVELLY SAND, SM j · JOHN U. LAUI]F P.£. .PARTmLE $~Z~' AN~LYS~S PLA TE BESSE, EPPS & POTTS TRACTS B &.C, PROSPECT HTS. SUBD. 10 JobNo. 81-310.01 ApI:"':~EP Date 4/27/81_ ANCHORAGE, ALASKA U' S' Slandard Sieve OP enin9 Size I' U.S. Standc~rd Sieve Ifil/l/I/ IIIlll ~ Illlll// IIllll//' IIlll Jill/I/I/ IIIII/ ~ IIIIII// IIIIII// IIIIII llllll/// Illll/, ~[/// Illllll./ Illlll '~JIIlll/// IIIIIId IIIIII ~1111'111/ 'llllll ~1111//t IIII11 ] IIII/ IIII/./ . ~1111/// IIIIIII 11111 Itl IIIit/ .~1111/// IIIIIIt IIIII III · IIIIII ~MEDIUM ~ SILT OR CLAY Symbol :'Somple Source Clossificolion ' BORING 8, Sample ~2 ~ 5.0' SILTY GRAVELLY SAND, SM JOHN ~. [A~E P.~. . PARTICLE.SIZE ANALYSIS PLA TE BESSE, EPPS & POTTS ~,~c~ ~ ~ c. ~,o~c~ ,~. ~. 11 ~No._. 81-3i0.01 Ap~: WEP Date. 4/27/81 ANCHORAGE, ' ALAS~ U.S. Standard Sieve Openm9 Size U.S.Standard Sieve Numbers *Hydrometer ,,,',~'3 2 g'~,,~ ~ ',~ 'e~o ~e ~o~o ~o~ ~' ~ ~I~11~1'1"~'~1111~1 I' ,'11'1111'11 '11~'11'111 IIIIlll "" 1111 IIIII '"""' HIIIt l l I II1~11 Illlltl / III ~o111111111 I~11111 I ~111~111 IIIIIIII .~ IIIIIIIII IIIIl/// ~111 IIIII/// IIIIIII ~,oHllllll I- IIIIIIII · Illll~ i11,11111 IIIIIll ~ llllllll/ IIIIII// -. IIIIII1-~, IIIII/// IIIIII/ ~,oHlllll l I It111111 IIt1111'/~11111//t IIIIII/ ~ IIIIIIIII II111111 Iit11111 ~1111' IIIII ""11111 lllllltl '"""" '"""' ""/1 ""11 11 """""""" ~ ' GRAIN SIZEIN MILLIMETERSOI 005 001~ 0.005 ~1 SAND GRAVEL ICOARS~ MEDIUM J FINE Symbol , Sample Source Classification ' BORING 8, S.amp]e ~1 ~ 2.5' S~LTY GRAVELLY SAND, JOH~ U. LAU~E P.E. .,P~RT~CLE SiZE A~ALYS~S Pg*T~ TRACTS B. & C, PROSPECT HTS. SUBD. ~.. 81-310.01 Appr:NEP Date. 4/27/81 ANCHORAGE, ALAS~ 11 $.Slandard Sieve Opening Size I U S Standard Sieve Numbers I 'Hydromelet 11111//// 'IIII-IIN I IIIIIII/ IIIIII// I1'111 ~o11111//// IIIIIII I~1. IIIIIII/ IIIIII// IIIIII/ IIIIIt/// IIit1111 ~1111/1// IIIII/// IIII11 / ~o11111//// IIIII/1/ I ~111// IIIIIIII IIIIII/ ~ 11111t/// IIIII/// I II1~1/ IIIII/// IIIIII/ ~1111//./ IIIII/// / IIII1~ IIIIIl// IIIIII/ ~ 111111/// . III1.1l/// .'1111111 I~ .~~ IIIIII/ ,,,,,,,, FINE SILT. OR CLAY Symbol: Sample Source Classification BORING 7~ Sample ~4 ~ 10.0' S~LTY GRAVELLY SA~D, SH JOHN M. LAMBE P.E. .PARTICLE SiZE A~ALYSlS PLATE ,~s~, ~ ~ ~o~ 13 TRACTS B & C, PROSPECT HTS. SUBD. ~.. 81-310.01 ~:~EP Date 4/27/81 ANCHORAGE, ALAS~ I1 S. Standard Sieve Opening Size I ' U.S.Standard Sieve Numbers I ~Hydrometer .111111/t/ IIIII/// IIIIIIN iiiiiJ] IIIIIII1 ~ ilt11//// IIIII/// IIIIIII ~ iiiiiil IIIIIIII ~ IIIIIi1.1 ,,,,,,,, 111111111 IIIIIII/ ,1111111'/ IIIII// IIIII1[ ,,,,,,,,, ,,,,,,,, ,,,,,,,, ,,,,,,, ,,,, ,,,,,,,, """"" '"""'" """// " .. ,,,,,,,, ,,,,,,,, ,,,,,,, ,,,, Jllll//// IIIII/// IIIIII// IIIII// IIIII FIN~ SILT O~ CLAY BESSE, EPPS & POTTS TRACTS B & C, PROSPECT HTS. 'SUBD. 14 ~No. 81-310.01 Ap~:. WEP Date 4/27/81 ~NCHORAGE U.S. SlandardSieve Opening Size , j, U.S. Standard SieYS Numbers J 'Hydrornetet_ ~ llll'lllll I iiJlilll'~lll I// ~ IIIIlll'/ IIIIIII IIIIII IIIII Symbol · Sample Source Classification BOEING ;,' Sample ~[ ~ 2.5' SILTY GRRV[LLY. SA~D, SH JOHN M. LAMBE P.E. ' .PART;CL[ S~Z[ ANALYS~S PLA;E TEACTS B & C, PROSP[CT HTS. ~.. 81-310.01 Appr: WEP Date 4/27/81 ANCHORAGE, ALASKA . U-S. Stond. o. rd$[eveO.pening_$iz. J ' ;U.S.$tondordSieyeNumber$ I I i i I I I I I I - Hlll'lllt I~ III1[111 IIlllll lllllll Illll} ~111111 I ~lllllll l I1~1111 IIIIIII ' IIIIII ~ ~1111.111 I IIIlllll ~llltlll ' WIll Illlll- Ill~ 'llllll Ifil ] · 11111////-/- IIIII/// IIII/// ' IIIIIII IIII ~11111///// IIIII///-' IIII/// · IIIIIII IIIIIIII I00 ~ [0 5 , I 0,5 QI ~05 ~01 0.005 Q~, . , . ~ GRAIN SIZE IN ~ILLIMETERS . Symbol Sample Source Clossificollon · mple ~3 ~ ' ' ' ' BORING 2, Sa ' SZLTY GRAVELLY SAND, JOHN~. LAMBE P.E. .,PARTICLE SIZE ANALYSIS PLATE BESSE, EPPS & POTTS. ~No. 81-310.01 Appr?EP Date 4/27/81 TRACTS B & 'C, PROSPECT HTS. SUBD. 16 .......................... A~CHO~A~ ENGINEERING ANDTESTING John M. Lambo, P.E. 4101Arctic Boulevard · ull 5 · c · SOIL ~L ~ ~;l{j I Ff~ ~l~lasl~ ~,~1' OR 907-276-4113 CLAY \ \, 31LTY .\ \ 'GRAVELLY \ \ // \ SAN DY. -\ L"; 0 I0 20 50 40 50 60 70 ................................. GRAVEL (+~4SCREEN) % BY WEIGHT CORPS OF ENGINEERS FROST DF. SI ON SOIL CLASSIFICATION .AND USCS EQUIVALENT GROUPING' 80 90 I00 TYPICAL SOIL TYPE~ FI F4 0.02 MM, Gravelly soils 3 Io 10 GW, GP. GW-GM, GP-GM (a) Gravclly soils 10 Io 20 GM. GW-GM. GP-GM (b) Sands 3 lo 15 SW, SP, SM, SW-SM, SP-SM (~') GraVclly'so~s ~20 GM. GC sl]ly sands (c) Clays. Pi > 12 -- CL, CH (a) All silts -- ML, MH (b) Very fine s~ty sands (c) Clays, PI ~ 12 -- CL, CL-ML (d) Varied clay% and -- CL other 6~c-l:ra]ne_d, C~ ~.,'r . :,-~ ~. 17 JOHN MAJOR DM,~ON $ J TYPICAL NAMEs WITH LITTLI G'AVIrL~ NO,IN,, GP t~.'~:'~:?t' 'OC~tLYO/~AOEDGRAV,L$, OILAVEL.~AN0 CO*~,! ~LACTIO~ ~u Jll~ J llL,Y O~AVEL$, POORLY G&AD~D O~AVIL. ~AND. SAN 0 $ NO FINE, $~ e., ~LY O~O ~Nffi, ~VELLY ~N~ IN~GANIC SlL~ AND VErY FI~ ~N~. ~O~ -- I [ ~J~ C~Y SIL~ WITH 5LIGHT SILTI AND CLAY~ ~/~ IN~OANIC C~ OF L~ SILTS AND CLAYS OH ~NIC C~ ~ ~DJ~ TO HIOH HIGHLY OHGANIC S01L~' Pt ~%ANDO~HIGHLy~NIC$~ UNIFIED SOIL CLASSIFICATION SYSTEM Can,el m Con,olldotlon LL ~ Llqvld Limit (In %) PL ~ Pie,tlc Limit (In %) *Tx 320 (2600~ TxCU 320 (2600) 05 2750 (2000) FV$ 470 'UC 2000 LV$ 700* (1) Al ~t~ea~tk te,t~ on 2.1" er 2.4" dlemet.~ ,wmple, (2) * Indicate, 1.4" diameter ,emple. / KEY TO TEST DATA M LAMBE P.E.J.: O L CLASSIFI(~ATION CHART. IAND KEY TO TE~iT DATA Appr: Date PLATE 18 TRACTS B & C, PROSPECT HEIGHTS PERCOLATION TEST RESULTS BORING DATE TIME DEPTH TO WATER COMrdENTS. 4/23/81 8:40 52-1/4" Dry 10:12 42-3/8" 10:41 52¼" Dry · 10:42 21¼" 11:12 49½" 11:42 52¼" Dry No Free Water Observed Abov~ 9'1" Test at 4.0 to 4.5' Added 40-7/8" Water 'Added Water Percolation Rate - Good 4/23/81 2:57 55½" 3:27 72½" Dry 4:27 33¼" Added 39¼" Water 4:57 60½" 5:27 72½"'Dry No Free Water Observed Above 10'6" 'Percolation Rate - Good Test at 6' 4/23/81 2:52 3:22 3:52 4:52 5.:22 5:52 6:22 6:52 No Free Water Observed Above 13' Test at 4'8½" to 5'3-3/4" 47-3/8" Dr~ · 48" 48-7/8" 50" 50-3/4" 51½" 52½" 53½" Percolation Rate-30 minutes/inch Added 13-3/8" Water 5 4/23/81 2:45 3:15 3:45 4:45 5:15 5:45 6:15 ' 6:45 No Free Water Observed Test At 4 to 5' 4/23/81 9~55 10:19 10:21 10:55 11:19 No Free Hater Observed Above 11'2" Test at 4' 41" Dry 41¼" 41¼" 41½" 41-5/8" Adde~)15¼~Water 42" 42-1/8" .~ ~-- - ~' 14 5 Percolation ~t~160 minutes/inch 36¼" Dry ~d~d~d~Wate~--~' 50½" Dry 19" 50½" Dry ' Percolation Rate - Good PLATE 19 BORING 8 DATE 4/23/81 TRACTS B & C, PROSPECT HEIGHTS PERCOLATION TEST RESULTS TIME DEPTH TO WATER COMMENTS 9:34 9:59 10:29 10:59 11:29 11:59 12:29 12:57 12:59 1:29 1:59 65" Dry 53½" 55-3/4" 57¼" 58-3/4" 59½" 60" 60¼" 58" 58¼" 58½" Added 11½" Water Water Added No Free Water Observed Above 13'9 Test at 4'3" to 4'9" 4/23/81 10:03 10:33 11:03 11:33 12:03 12:33 1:03 1:33 2:03 " Percolation Rat~ - 120 minutes/inch 50" Dry 51½" 52½' 54" 56-3/4" 59-1/8" 60½" 61¼" 62" Added 18½" Water No Free Water Observed Above 12'5" Test at'4'9¼" to 5'4" 4/23/81 10:07 45-3/4!' Dry 10:37 47" 11:07 48" 11:37 49" 12:07 49-3/4'~ 12:37 50¼" 1:07 50-3/4" 1:37 51-1/8" 2:07 51-5/8" No Free Water Observed Above 13' Test at 3'9-5/8" to 4'10½" Percolation Rate - 40 minutes/inch Water Added Percolation Rate 60 minutes/inch PLATE 20 ~ MUNICIPALITY OF ANCHORAGE ~ · ~ DEPARTMENT OF HEALTH & ENVIRONMENTAL PROTECTION ENVIRONMENTAL HEALTH CASE REVIEW WORK SHEET []] PLATTING BOARD []] PLANNING & ZONING CASE NUMBER NAME S-5710 Propsec~ Heights Subdivision #5 DATE RECEIVED July 1, 1981 COMMENT TO PLANNING BY July 21, 1981 FOR MEETING OF CASE OF ) [~] PUBLIOWATERNOTAVAILABLETOPETITIONAREA/L.~t~.,.:.,.'? ~ / ' ':,.."'. [] PUBLICS~/~ERNOTAVAILABLETOPETITIONAREA/ [ ~, '' REVIEWER'S C~MMI NFS'~(I ' 71-014 (Rev. 2/78) SOIL AND MATERIALS ENGINEERING AND TESTING John M. Lambe, P.E. July 9, 1981 Besse Epps & Potts 2220 E. 88th Ave Anchora9e, Alaska Attention: Hr. Dave Grenier 4101 Arctic Boulevard * Suite 205 * Anchorage, Alaska 99503 907-276-4113 Subject: Prospect Heights Subd #5 Case No. 5710 Gentlemep, In response to your request, we drilled six additional borings numbered 9 through 14 on Tracts B and C, Prospect Heights Subdivision to supplement the eight borings we drilled in late April. The purpose of the additional exploration was to supplement the data with regard to the percolation rates of the soil. To this end, we drilled one deep boring (generally 20' in depth) at each test location to observe soil stratification and depth to free water. One and one-half inch I. D. slotted pipe was placed in the deep boring to allow observation of the seasonal free water level. Adjacent tO each deep boring, a shallow percolation test hole was drilled with 6" O.D. continous flight auger. Gravel was placed in the bottom of the percolation hole. Four inch perforated pipe was placed on the gravel. The annular space around the pipe in the boring was filled with gravel. Water was placed in each percolation test the evening prior to testing. The results of the tests are presented on the attached sheets. The locations of the tests are presented on Plate 1 from our report dated April 27, 1981 revised to show the additional borings. We trust the foregoing is sufficient to your needs. Please call if we can be of further service or if you have any questions. As requested, one copy of this letter was transmitted directly to the DHEP. TEST HOLE-LOCATION DIAGRAM PROSPECT HEIGHTS SUBDIVISION TRACTS as~ C TEST HOLES NOT LOCATED BY SURVEY METHODS ZERMATT AVE. T.H. I~ "--~8 'r.H? H.I · T.H. 2 TR, C T.H. 9 T.H. 5 TR. B T.H. T.H. II T.H. 4 TH. I0 ~ -N PLATE 1 MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L. Street, Anchorage, Alaska 99501 264-4720 SOILS LOG-- PERCOLATION TEST ~ SOILS LOG PERCOLATION TEST 7 8 9 10 12 13 14 15 16 17 18 19~ 20- COMMENTS ~'~V~wAS GROUND WATER . / ' S ENCOUNTERED? ~' L IF YES, AT WHAT i - E DEPTH? J ~ ~l ~ SLOPE SITE PLAN PERFORMED BY: L~ML~ Reading Date Gross Net Depth to Net Time Time Water ~ Drop ~0~ ~ 0 ~,~ o, ~ ~ PERCOLATIoyTE / ,..~__ ) (minutes/inch) MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L, Street, Anchorage, Alaska 99501 264-4720 SOILS LOG- PERCOLATION TEST SOILS LOG PERCOLATION TEST PERFORMED FOR: "~'~_..'~,~ ~__. LEGAL D E SCR I PTI O N :'~::;~ t~'~*-T- 1 DATE PERPORMEO: SLOPE SITE PLAN 7 8 9 10 -11 12 13 14 15 16 17 18 19 20¸ ENCOUNTERED? O P ~F ~ES, AT WRAT , E DEPT,.~ t '7 Reading Date Gross Net Depth to Net Time Time Water Drop 7/z/~ I I,' I~, .~o ~--'~4. 4~ ~ ~o ,~,~'/~z,~ ~,s1 ~ ~ I~ 30 x~,77 o,~7 DATE: PERCOLATION RATE ~. M (minutes/inch) TEST RUN BETWEEN ~"~"=~FT AND ' -7 FT CERTIFIED BY: MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L. Street, Anchorage, Alaska 99501 2644720 SOILS LOG -- PERCOLATION TEST SOILS LOG PERCOLATION TEST 3 4 5 6 7 8 9 10 11 12 13 SLOPE SITE PLAN wAS GROUND WATER S ENCOUNTERED? ~,,I ~ OL P E IF YES, AT WHAT DEPTH? 14 15 16 17 18 19, 20 Reading Date Gross Net Depth to Net Time Time Water Drop /' ~ PERCOLATION RATE ~ ~ (minutes/inch) TEST RUNBE~EEN ~ FTAND I O FT MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L. Street, Anchorage, Alaska 99501 264-4720 SOILS LOG - PERCOLATION TEST SOILS LOG PERCOLATION TEST 1 2 3 4 5 6 7 9 10 SLOPE SITE PLAN 11 12 13 14 15 16 17 18 19 2O COMMENTS WAS GROUND WATER ENCOUNTERED? IF YES, AT WHAT DEPTH? Reading Date Gross Net Depth to Net Time Time Water Drop ~o~/~ 7 ~o ~/~ 7~ PERCOLATION RATE f 4 "~ ~ ~ 4,.=.~ (minutes/inch) TEST RUN BETWEEN AND FT CERTIFIED BY: / MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L. Street, Anchorage, Alaska 99501 264-4720 SOILS LOG- PERCOLATION TEST SOILS LOG Id PERCOLATION TEST LEGAL D ESCR I pti 0 N:~~~L~L~ _z~-..~ ~ -~'r= SLOPE 8 9 10 11 12 13 14 15 16. 17 18 19- 20 DATE PER EORMED=. / / I- ~-~__~__'t'-.t.o -5'-'7 I0 SiTE PLAN L O P E }~ ~ I WAS GROUND WATER ,~~-~ ~ DEPTH? COMMENTS Reading Date Gross Net Depth to Net Time Time Water Drop PERCOLATION RATE_I ~r- ~ (minutes/inch)' TEST RUN BETWEEN ~ FT AND ,~ IRT_.. FT CERTIFIED BY: DATE: 72-008 (6/79] SOIL AND MATERIALS ENGINEERING AND TESTING John M. Lambe, P.E. July 9, 1981 Besse Epps & Potts 2220 E. 88th Ave Anchorage, Alaska 4101 Arctic Boulevard · Suite 205 · Anchorage, Alaska 99503 907-276-4113 MUNICIPALITY OF ANCHORAGE DEPT. OF HEALTH & ENVIRONMENTAL PROTECTION JUL 1 5 198i RECEIVED Attention: Mr. Dave Grenier Subject: Prospect Heights Subd #5 Case No. 5710 Gentlemen, In response to your request, we drilled six additional borings numbered 9 through 14 on Tracts B and C, Prospect Heights Subdivision to supplement the eight borings we drilled in late April. The purpose of the additional exploration was to supplement the data with regard to the percolation rates of the soil. To this end, we drilled one deep boring (generally 20' in depth) at each test location to observe soil stratification and depth to free water. One and one-half inch I. D. slotted pipe was placed in the deep boring to allow, observation of the seasonal free water level. Adjacent tO each deep boring, a shallow percolation test hole was drilled with 6" O.D. continous flight auger. Gravel was placed in the bottom of the percolation hole. Four inch perforated pipe was placed on the gravel. The annular space around the pipe in the boring was filled with gravel. Water was placed in each percolation test the evening prior to testing. The results of the tests are presented on the attached sheets. The locations of the tests are presented on Plate 1 from our report dated April 27, 1981 revised to show the additional borings. We trust the foregoing is sufficient to your needs. Please call if we can be of further service or if you have any questions. As requested, one copy of this letter was transmitted directly to the DHEP. TEST HOLE-LOCATION DIAGRAM PROSPECT HEIGHTS SUBDIVISION TRACTS B& C TEST HOLES NOT LOCATED BY SURVEY METHODS -N- ZERMATT AVE. T.H. 1:5 _~8. TR. C T. E9 'r.H. 5 TR. B T.H. 4 'IH. I0 PLATE 1 /'%, ~,] ~ SOILS LOG MUNICIPALITY OF ANCHORAGE ~ DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION ~' PERCOLATION 825 L. Street, Anchorage, Alaska 99501 264-4720 TEST SOILS LOG -- PERCOLATION TEST SLOPE SITE PLAN 1 2 3 4 5 J6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 ~\/'1~ ~ ~"~WAS GROUND WATER M.~:' ,.,,,,,~/~ O ~.,~ ~,..,~:~ ,~_ ~.~.. ,~ ENCOUNTERED? COMMENTS DEPTH? 0 ~ ' E Reading Date Gross Net Depth to Net Time Time Water ~ Drop PERCOLATION RATE / '~ (mlnutes/inchl TEST RUN BETWEEN ~' ET AND ~ FT PERFORMED BY: L.,~ML~5~,~ 72-008 (6/79) DATE.' MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L, Street, Anchorage, Alaska 99501 264-4720 SOILS LOG-- PERCOLATION TEST PERFORMED FOR: '~__~ ~___ LEGAL D E SC R I PTI O N :~O~::) ~_'T 1 2 3 4 5 6 7 8 9 SOILS LOG PERCOLATION TEST 10 SLOPE SITE PLAN 1 11 12 13 14 15 16 17, 18 19 20 WAS GROUND WATER ENCOUNTERED? IF YES, AT WHAT DEPTH? Reading Date Gross Net Depth to Net Time Time Water ' Drop 7/Z/~ I 1! I~-T,. .~0 ~ 7_: 5-~ PERCOLATION RATE ~ {minutes/inch) TEST RUN BETWEEN ~ FT AND ' 7 FT CERTIFIED BY: '/-"~ /'-'""1 ~ SOILS LOG DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION ~ PERCOLATION ~/ 825 L. Street, Anchorage, Alaska 99501 264~,720 TEST SOILS LOG- PERCOLATION TEST 1 2 3 4 5 6 7 8 9, 10 11. 12 13 14 15 16 17 18. 19 2O SLOPE SITE PLAN WAS GROUND ATER ENCOUNTERED? IF YES, AT WHAT DEPTH? Reading Date PERCOLATION RATE TEST RUN BETWEEN Gross Time Net Time Depth to Water (minutes/inch) .// /.'// Net Drop '/-~/ /--~" J~ SOILS LOG MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION J~ PERCOLATION TEST 825 L. Street, Anchorage, Alaska 99501 264-4720 SOILS LOG- PERCOLATION TEST PERFORMED fOR: ~.~ ~____~'~'_~ ~,~ ~::~ ~ DATE "ERFORMED: ~/~./~ -- LEGAL DESCRIPTION: ~;::~J~,~::~l~_'"~"--' ~'"~...~t.~-'"~'--~ ~0~[~> ~"~'""- /.,,~,,~,~ 1 2 3 4 5 6 7 8 9 10 SLOPE SiTE PLAN 11 12 13 14 15 16 17 18 19 2O WAS GROUND WATER , ! S ENCOUNTERED? . ["~1 <~ L O P IF YES, AT WHAT E DEPTH? ~ Reading Date Gross Net Depth to Net Time Time Water Drop I~',j~- ~ ~ ~ ~ PERCOLATION RATE ~ ~ {minutes/inch) TEST RUN BETVVEEN ~ FT AND . FT PERFORMED CERTIFIED BY: ~~----~ MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L. Street, Anchorage, Alaska 99501 264-4720 SOILS LOG- PERCOLATION TEST SOILS LOG PERCOLATION TEST 1 2 3 4 5 6 7 8 9 lO 11 12 13. 14 15 16 17. 18 19 20 COMMENTS ~_~: ~ SLOPE DATE PERFORMED=. '/ /'S t -- SITE PLAN WAS GROUND WATER ENCOUNTERED? ~,,~ S L O P IF YES, AT WHAT E DEPTH? Reading Date Gross Net Depth to Net Time Time Water Drop ~o~a~O I(-,, ~"z~S/¢ ~z:~ ~ ~ t ~/~ PERCOLATION RATE TEST RUN BETWEEN PERFORMED MUNICIPALITY OF ANCHORAGE DEPARTMENT OF HEALTH AND ENVIRONMENTAL PROTECTION 825 L. Street, Anchorage, Alaska 99501 264-4720 SOILS LOG- PERCOLATION TEST SOILS LOG 14 PERCOLATION TEST /¥ LEGAL DESCRIPTION:'~m~ 1 2 3 4 5 6 7 8 9 10 SLOPE 't',,.t,o 5-'7 SITE PLAN 11 12 13 14, 15 16 17 18 19 2O COMMENTS WAS GROUND WATER ENCOUNTERED? IF YES, AT WHAT DEPTH? Gross Net Depth to Net Reading Date Time Time Water Drop ~ ~0 ~ ~ '-J PERCOLATION RATE d' {minutes/inch) TEST RUN BETWEEN '~ FT AND 4 '/~--- FT Dense Trees March 29, 1976 W.O. 8956 Grid 2441 S.J.L. Land & Oil Ventures c/o DOWL Engineers 4040 B Street Anchorage, AK 99503 Attention: Mr. Maurice P. Oswald Subject: Subsurface Investigation, Prospect Heights Addition No. 3, Located within the NE 1/4, Sec. ~13, Township 12 N, Range 3 W, Seward Meridian, Alaska Gentlemen: In accordance with your instructions, a subsurface investiga- tion was performed on January 27 through January 29, 1976 for the Prospect Heights Subdivision Addition #3. The include the following: vicinity Map Test Hole Location Sketch Idealized Soil Profiles Grain Size Distribution Curves Test Holes Logs Explanatery Information Test Hole Logs (By Others) Figure 1 Figure 2 Figures 3-5 Sheets 1-3 Table A Appendix A Appendix B CONCLUSIONS 1) Based on our experience, we believe individual on-site wastewater disposal systems are feasible for this site. 2) Since all lots in this project will be larger than 1-1/4 acres, the limiting percolation rates presently required by the Anchorage Municipality Department of Environmental Quality are: ae less than 30 minutes/inch if septic tanks are to be used; be less than 60 minutes/inch if package treatment plants are to be used. S.J.L. Land & Oil Ventures March 29, 1976 Page Two 3) Judging from the test hole logs, we believe percolation rates, as determined by our current testing methods will probably be: Se Less than 30 minutes/inch for test holes 1, 3, 4, 5, and 6; bo Less than 60 minutes/inch for test hole 2 and probably even less than 30 minutes/inch for test hole 2. Septic tanks and drain fields will probably be adequate for all lots in the subdivision, though, (depending on results of percolation tests performed on individual lots after roads are constructed), package treatment plants may be required for a few lots in the area of Test Hole 2. DISCUSSION The exploration was conducted using a "Mobile Drill" model B-50 d''~.~- ....... "~- ~ ~ = ~]~v~r~-Nodwell tracked vehicle. The rig was equipped with a continuous flight solid stem auger. This equipment is owned and operated by Denali Drilling Inc. Mr. O.M. Hatch, geologist with Alaska Testlab, suPervised the drilling and logged .test holes 3, 4, and 5. For test holes 1, 2, and 6, supervision and logging was done by Mr. Wallace Oliver, staff technician with Alaska Testlab. The approximate location of the test holes is shown on Figure 2. Table A is the logs of these test holes. As samples were recovered, they were sealed in plastic bags to protect the samples and retain the natural moisture prior to being transported to the laboratory. In the laboratory the samples were visually classified and the moisture content and dry strength determined. For easy reference samples of similar color, texture, and particle size distribution were given an arbitrary group designation. Additional laboratory analyses for grain size distribution were performed on a composite sample of each significant group. The compostion of ~ndividual samples can vary somewhat from that of the group as a whole. Three general soil types were encountered and are listed below by their group designation for reference to test holes. /?~S.J.L. Land & Oil Ventu Group A Group B is a brown gravelly sand with a trace of silt and also includes some brown silty gravell~ sand. Frost susceptibility is sl~ghtto moderate with frost classification ranging from NFS to F-2. Unified classification is SP to SP/SM. This group was typically poorly graded, damp to saturated, had a medium to high density and was composed of subrounded particles. Although mechanical analysis of the composite Group A sample showed 13.5% fines (-#~200), it is the writer's opinion that some of these samples were cleaner in their natural state and were mixed during is a brown silty, gravelly sand. It is moderately frost susceptible rated F-2. Unified classification is SP/SM to SM. This group was typcially poorly graded, damp to wet, had medium to high density, and was composed of subrounded particles. Although the grain size distribution curves for Groups A and B are very similar, Group B was visually much siltier than Group A. is a ,~ery ~]~v ~r~v~]]v ~nd. Individusl samples within this gr~u~ include silty gravelly sands, (SM); gravelly sandy silts, (SM); and possibly sandy silts, (ML). However, frost classification ranges from F-2 to F-4. Particular attention-should be called to the soil description in the test hole logs when they make mention of cobbles and boulders because these larger particles are not recovered by the auger and are detected by indirect means (drilling action). Thus, samples sent to the laboratory do not include any cobbles and boulders. In sandy gravel and gravelly sand soils, some of the larger gravel particles occasionally roll from the auger flights. "Grab" samples of these soils some- times contain more sand and less gravel than actually exist in place. Referring to the logs of test holes 3 and 6, the silty sandy gravel (GM), materials encountered in the field were classified as a silty gravelly sand (SM)~ in the labora- tory, but may be closer to a silty sandy gravel in the natural state. Additionally, there may be some contamination of samples. When a granular NFS soil is overlain'by silty materials, some of the siltier soil may be scraped from the wall of the test hole as the auger is raised. This can cause the laboratory sample to have a higher fines (-~200) content that actually exists in the field. For example, test hole #5 of this project shows an NFS gravelly sand (SP) soil existing in the S.J.L. Land & Oil Ventures March 29, 1976 Page Four field at the 12'-15' depth. However, .the samples recovered from the 12.5' and 15' depths in test hole #5 were classified in the laboratory as a silty gravelly sand with a frost classification of F~2 and unified classification of SP/SM. This is probably due to contamination of the sample. For aid in interpretting the test hole logs, explanatory informa- tion is contained in Appendix A of this report. The soil gradations shown on the attached grain size distri- bution curve are for qomposite disturbed samples and do not reflect stratification which causes the soils to be more-or- less sorted in the field. Water levels were measured during drilling and approximately one week after drilling. The water levels given should be used with caution as the water level may tend to fluctuate with percipitation and runoff as well as seasonally. Unseasonably warm weather during exploration, causing snowmelt, may have affected some of the water levels. Due to steep topography of the project site, percolation tee.° ...~ ~. ~o~m~ ~,~* ~ q,/~ ~b.: ~~°~ Pvc pipe casing was left in each hole to facilitate future percolation tests. Except at the test hole locations, the idealized soil profiles (Fig. 3-Fig. 5) are only estimated. Wide variations between the soil profiles shown, and actual field conditions may and, in fact, probably do exist. Two of the test holes used for the profiles were dug and logged by others. Records of these holes were obtained from the Municipality of Anchorage Department of Environmental Quality. We trust the foregoing is sufficient and meets your present needs. Should questions arise~or if we can be of further service, please feel free to contact us. Very truly yours, APPROVED: H'ar~~rT.~e ~ PE ALASKA TESTLAB R. Mark Hansen RMH: HRL: nun THIS PROJECT '~' Test H°les bY A'T'L' ! [] Test Ho les by -- . Other~ --~ / ~ I ' /- TEST I HOLE LOCATION SKETCH SCALE 1"='100' Fig. '2 Z l,o N~. OLd O~ ~! 0 =_.z id _J 8-'H~ J J J 0 Z S~3H10 A8 6 -'H '1 o· 9-*H '.L UJ Ou~ ~ 0 _o ~o ~o o ~o ~o o m.w ~ --i ,u- ~ co o o o o o .I Test Hole Table A WO #8956 Date: 1-27-76 Depth in Feet From To 0.0' - 0.8' 0.8' - 10.0' 10.0' - 11.0' Soil Description Peat and Roots F-2, slightly Silty. Gravelly Sand, SP/SM brown, poorly graded, damp, subrounded particles to 2". Boulders from 5.0' to 7.0' F-2, Silty Gravelly Sand, SM, brown~ poorly graded, saturated, subrounded particles to Bottom of Test Hole: Frost Line: Free Water Level: 11.0' 10.0' while drilling 8.2' after one week Sample Depth I 5.0' 2 10.0' Type of Dry Blows/6" M% Sample Strength Group Unified -- 5.8 Grab .N A SP/SM -- Sat. Grab -- B SM Remarks: Type of Sample, G=Grab, SP = Standard Penetration. Dry Strength, N=None, L=Low, M=Medium, H=High. Group refers to similar material, this study only. · Test Hole #2 Depth in Feet From To 0.0' - 1.0' 1.0' - 5.0' 5.0' - 10.0' 10.0~ - 15.0' Bottom of Test Hole: Frost Line: Free Water Level: Table A WO #8956 Date: 1-27-76 Soil Description Peat and Roots F-2, ~ilty Gravelly Sand, SM, brown, poorly graded, occasional cobbles and boulders, damp. F-4, Gravelly Sandy Silt, ML, brown, damp, subrounded particles to 2". F-4, Gravelly Silt, ML, brown, damp, sub- rounded particles to 3". 15.0' ~ 3.0' None Observed.during drilling 14.5,' after one week ~mple Depth I 5.0' 2 10.0' 3 15.0' Type of Dry Blows/6" ~.~ S__a~ple ~rengt~ Group Unified -- 10.5 Grab N B SM -- 8.2 Grab N B SM -- 9.2 Grab L-N C ML Remarks: Type of Sample~ G=Grab, SP = Standard Penetration. Dry Strength, N=None, L=Low,. M=Medium, H=High. Group refers to similar material, this study only. Test Hole #3 Table A WO #8956 Date: 1-28-76 .Depth in Feet From To 0.0' - 2.0' 2.0' - 4.0' 4.0' - 8.0' 8.0' - 20.0' Soil Description F-4, Sandy Silt with trace gravel, ML, brown, damp, stiff, NP. F-l, Silty Sand~ Gravel, GM, brown, damp, medium to high density, subrounded particles to 3". F-2, very Silty Gravelly Sand, SM, brown, poorly graded, ~dium density, subrounded particles to 2" Silt content is 35%± at 5.0' and 15-20% at 7.5' F-2, ~ilty Gravelly Sand, SM, brown, poorly graded, damp, medium density~ subrounded particles to 2". Silt content is 15-20% at 10.0', 25%± at 12.5', 15%± at 13.0', 15.0' and 20.0' Bottom of Test Hole: Frost Line: Free Water Level: 20.0' 4.0' None Observed Sample .Depth 1 5.0' 2 7.5' 3 10.0' 4 12.5' 5 15.0' 6 20.0' Remarks: Type of Dry Blows/6" M% Sample Strength Group -- 9.0 Grab N B -- 8.6 Grab N B -- 8.2 Grab N B -- 7.9 Grab N C -- 7.6 Grab N A -- 8.7 Grab N A Unified SM SM SM SM sp/sM SP/SM Type of Sample, G=Grab, SP = Standard Penetration. Dry Strength, N=None, L=Low, M=~{edium, H=High. Group refers to similar material, this study only. · Test Hole #4 ~epth in Feet From To 0.0' - 1.5' 1.5' - .3.0' 3.0' - 8.0' 8.0' - 11.0' 11.0' - 13.0' 13.0' - 20.0' Bottom of Test Hole: Frost Line: Free Water Level: Table A WO #8956 Date: 1-28-76 Soil Description Peat, Pt, brown, damp, soft. F-4, Sandy Silt, M~, brown, damp, stiff, NP. ' -' F-2, Silt_y_ Gravelly Sand, SM, brown, poorly graded, damp, medium density, subrounded particles to 3" Silt content 20%+ at 5.0' 15%! at 7.5' (more gravel). F-2, very silty Gravelly Sand, SM, brown, poorly graded, damp, medium density, sub- rounded particles to 1" Silt content 35%±. F-2, ~lty Gravelly Sand, SM, brown, poorly graded, dam~', medium'density, subrounded particles to 2" Silt content 20%±. F-2, very Silty slightly Gravelly Sa~d, SM, poorly graded, damp~ medium dens~hy: ~h- rounded particles to 1" Silt content 40%± at 15.0', 20%± at 17.0' to 20.0'. 20.0' 3.5' None Observed ~ampl~ Depth 1 5.0' 2 7.5' 3 10.0' 4 12.5' 5 15.0' 6 20.9' Remarks: Type of Dry ~lows/6" M% Sample ~trengt~ ~roup Unified -- 9.0 Grab N A SM -- 8.1 Grab N C SM -- 9.8 Grab N C SM -- 8.0 Grab N C SM -- 10.5 Grab N C SM -- 9.4 Grab N B SM Type of Sample, G=Grab, SP = Standard Penetration. Dry Strength, N=None, L=Low, M=Medium, H=High. Group refers t6 similar materJal~ this study only. 'Test Hole #5 Table A WO #8956 Date: 1-28-76 Depth in Feet From To 0.0' - 1.5' 1.5' - 3.0' 3.0' - 6.0' 6.0' - 8.0' 8.0' - 12.0' 12.0' - 15.0' Soil Description Peat, Pt, brown, damp, soft. F-4, Sandy Silt, ML, brown, damp, stiff, Np. F-4, Gravelly Sandy Silt, ML, brown, damp, stiff, NP. F-2, Silty Gravelly Sand, SM, brown, wet, medium density, subrounded particles to 2", probably wet from snowmelt. NFS/F-2, slightly Silty very Gravelly Sand, SP/SM, brown, poorly graded, damp, medium density, subrounded particles to 2". NFS, slightly Gravelly Sand with trace silt, SP, brown, poorly graded, damp to saturated, medium to high density, subrounded particles to 1" Gravel not recovered in Sample #4. Bottom of Test Hole: Frost Line: Free Water Level: 15.0' 3.0' Saturated at 14.'0' during drilling Sample. Depth 1 5.0' 2 7.5' 3 10.0' 4 12.5' 5 15.0' Remarks: 1. 2. 3. Blows/6" Type of Dry M% Sample. Strength Group Unified 16.9 Grab L-M C ML 13.7 Grab L-M C SM/ML 7.9 Grab N A SP/SM 4.4 Grab N A SP/SM Sat. Grab -- A SP/SM Type of Sample, G=Grab, SP = Standard Penetration. Dry Strength, N=None, L=Low, M=Medium, H=High. Group refers to similar material, this study only. .Test Hole #6 pepth in Feet From To 0.0' - 1.0' 1.0' - 7.5' 7.5' - 20.0' Bottom of Test Hole: Frost Line: Free Water Level: Table A WO #8956 Date: 1-29-76 Soil Description Peat, Pt, brown, damp, soft. F-l, slightly Silty Sandy Gravel, GP/GM, brown, poorly graded, occasional cobbles, damp, medium density, subrounded particles. NFS, Gravelly Sand, SP, brown, poorly graded, fine sand, damp, medium density, subrounded particles to 1" Saturated at 17.5'. 20.0' 3.0' 17.5' during drilling 15.2' after one week .S. ampie. Depth 1 5.0' 2 7.5' 3 10.0' 4 12.5' 5 15.0' 6 20.0' Biuws/'6" Type of Dry 4.7 Grab N A SP/SM 5.2 Grab N A SP/SM 4.0 Grab N A SP/SM 3.8 Grab N A SP/SM 4.0 Grab N A SP/SM Sat. Grab -- B SM Remarks~ Type of Sample, G=Grab, SP = Standard Penetration. Dry Strength, N=None, L=Low, M=Medium, H=High. Group refers to similar material, this study only. APPENDIX A Test Hole Log- Description Guide The soil descriptions shown on the logs are the best estimate of the soil's characteristics at the time of field examination and as such do not achieve the precision of a laboratory testing procedure. If the log includes soils samples, those samples receive an independent textural classification in the laboratory to verify the field examination. The logs often include the following items: Depth Interval - usually shown to 0.1 foot, within that zone no significant change in sol type was observed through drill action, direct observation or sampling. Frost Classification - NFS, FI, F2, F3, F4, see "Soft Classification Chart" Texture of Soil - An engineering classification of the soils by particle size and proportion, see "Soil Classification Chart", note the proportions are approximate and modifications to the soil group due to stratification, inclusions and changes in properties are included. Moisture Content - this is a qualitative measure: dry. no or little apparent surface moisture, damp, mo'~st ure forms portion of color, less than plastic limit, wet, no free water, often soft, if cohesive soil, saturated, free water may be squeezed out, ifa free draining soil; sand. (The moisture content is further dcfinedby reference to PI, LW, NP, M% or dilatency.) Density - refers ro more-or-less non-cohesive soils, such as sand gravel mixt~es with or without a fine fraction, derived from drilling action and/or sample data; usually described as: very loose, loose, medium dense, very dense. General intent is to portray earthwork characteristics. Stiffi~ess - refers to more-or-less cohesive sglls and fine grained silts of the clay-silt grocps. Derived from drill action and/or sample data. Very soft, soft, stiff, very stiff and hard arc commonly used terms. Particle size - The largest particle recovered by the split spoon is ~1-3/8", Shelby tube 3", auger flights (minute-man) 2", Auger flights (B-50 hollow stem) 6"-8". Larger particles are described indh-cctly by action of the dzilling and arc referred to as cobbles, 3" to 8", or boulders 8"+. Therefore when reviewing the gradation sheets, if any, the description on thc hole log must be considered for an indicatiou of larger particles. Unified Soil Classification - This is a two letter code. See Unified Classification sheet for further definition. In some cases AASHO and/or FAA soil chxssiz~.cations may be shoxw~ as well as the unified. Atterbcrg Limits - useful for fine grained and other plastic soils. PI; natural moisture content believed to be less than plastic limit PI+; natural moisture content believed to be between plastic and liquid [-~mits L~w-Vl natural moisture content believed to be greater than liquid limit N__P_; non-plastic, useful as a modifying description of some silty materials. Dil~tcncy - is the ability of water to migrate to the surf'acc of ~ saturated or nearly saturated sod sample when vibrated or j~dtcd - used as ~n .aid to dc~crminc if a fine grained soil i~ a ~lightly or nmi-plastic silt or a volcamc ash. Rock flour - finely ground soil that is not plastic but otherwise appears similar to a clayey silt. Organic Content - usually described as Peat, PT, sometimes includes discrete particles such as wood, coal, etc, as a modifier to an inorganic 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. ~uck - a modifier used to describe very soft, semi-organic deposits usually occuring below a peat deposit. Amorphus peat - organic particles nearly or fully disintegrated. Fibrous Peat - organic particles more-or.lesa intact. Bottom of Testhole - includes last sample interval. Frost Line -- seasonal frost depth as described by drfiim~ ,~on ,~nuiot samples at the time of drilling. Frozen Ground - other titan frost linc, 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 the static water table at the time of drilling or ar other seasons. Static water table determination in other than very permeable soils requires observation wells or piczometcr installations, used only in special cases. Blow/6" -- The number of blows of a 140 weight free falling 30" to advance a 2" split spoon 6"; the number of blows for a 12" advance is, by definition, thc standard penetration. M% - natural moisture content of the soil sample, usually not performed on .clean sands or gravels below the water table. Type of Sample. - S__P, refers to 2" split spoon driven into the soil by 140 pound weight, a disturbed sample, S, thin wall tube, "Shelby" used to obtaiu undisturbed samples of fine grained soil, .G., "grab" disturbed sample from auger flights or wall of trench, (:2, cut sample, undisturbed sample from wall of trench. Dry Strength - a useful indicator of a soil's clayey fraction, N=None, L=Low, M ~Medium, l-t~ High G-nu[~ - Thc sampl¢~ are placed into apparently similar groups based on color and texture and arc ;~rbitrarily assigned a group letter. Further disturbed tests including Attcrbcrg Limits, gsain size. maid,ute.density relationship, etc. may be performed un the gr~up and arc a~sumed reflect the ge~¢ral distruhed cbaraeteristic~ of thc soils as::igned to the group. This is an important phase of the soil ;maly~is ,md is u~¢d to standardize thc various qualitative dcterminatinlLs alid to reduce thc number of quantitative tests necessary to describe thc soil m;a~s. SOIL CLASSIFICATION CHART · 30% GRAVEL / CLAYEY, ?% / X ~( GRA~LLY SAND g SANDY GR~VEL ~ 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 mm. F3 a. GRAVELLY SOILS CONTAINING MORE THAN 20% FINER THAN 0.02 mm. AND SANDY SOILS (EXCEPT FINE SILTY. SANDS) CONTAININ¢~ MORE THAN 15% FINER THAN 0.02 mm. b. CLAYS WITH PLASTICITY INDEXES OF MORE THAN 12. EXCEPT VARVED CLAYS, F4 a. ALL SILTS INCLUDING SANDY SILTS. b. FINE SILTY SANDS CONTAINING MORE TF4AN 15% FINER THAN 0.02 mm. c, LEAN CLAYS WITII PLASTICITY INDEXES OF LESS THAN ]2. d. VARVED CLAYS, APPENDIX B R&M ENQ JRERING & GEOLOGIC-, ,L CONSULTANTS 229 EAST 51st. AVE. - P.O. BOX 6087 - ANC;HOh~,GE, ALASKA 99503 TELEPHONE 907-279-0483 TELEX 090-35419 Civil Engineers Geologists Land Surveyors JAMES W. ROONEY. P. E, MALCOLM A. MEHZISS. P.E., L.S. JAMES H. WELLMAt,I, P.E. July 26, 1973 RECE~¥ED R &'.[..i. Project No. 36639 RALPH R. MIGL. IACCIO Kincaid & Son Construction 7801 Jodphurst Anchorage, AK 99502 Re: Test Hole and Soil Log Report for Sanitary System Lot 14, Block 2, Prospect Heights Subdivision -Dear Mr. Kincaid: We are submitting hereQith the test boring results and our comments regarding soil conditions encountered at the subject site. This investigation was performed in accordance.with your request of July 26, 1973, and those procedures outlined in a letter dated September 13, 1971 by Mr. Rolf strickland of the Grea~e~- Anchorage Are~ ~orough ~epartment of Ep~iron- mental Quality. A single test hole was'put down within the Lot 14 area for the purpose of defining general subsurface soil conditions for the proposed sanitary system. Excavation was accomplished with a tractor-mounted backhoe and the test hole was extended to a total depth of 14.5 feet below ground, surface. The final log prepared for the test hole has been included in Drawing A-01. Ground water was not encountered in the test hole. We aPpreciate being given this opportunity to be of service to you. Should you have any questions with regard to the above, please do not hesitate to contact us. Very truly yours, R & M ENGINEERIMG & GEOLOGICAL CONSULTANTS a:ae~ W. Rooney / zc: GAAB V/ T.H.- I 7 - 26-7:~ SANOY SILT, WITH SO'ME SAND AND GRAVEL TRACE ORGANICS (S1'4) o.d 2.01 GRAVELLY SAND WITH TRACE TO SOME SILT AND COBBLES ( S P - GM } Test hole excavated Engineering ~ Geological Consultants 14.5' No Water Table T.O, with tro¢lor mounted backhoe, KincrJid And Son Construction LOGS OF TEST Anchorage BORINGS Alaska GRE,,'"-"~E'R ANCHORAGE AREA BC-'OUGH DEPARTMENT OF ENVIRONMENTAL QUALITY 3330 "C" STREET ANCHORAGE, ALASKA 99503 TELEPHONE 274-456 I PERMIT NO, SEWAGE DISPOSAL SYSTEM APPLICATION AND PERMIT ~A'UNG ADDBESS P~O,x'/ff/'/O'd' PHONE, INSTALLATION OF: SEPTIC TANK TYPE AND SIZE OF F~CILITY TO BE SERVED SEEPAGE. PIT- , . DRAIN FIELD OTHER FINANCED THROUGH SOiL TEST BESU'TS COMPLETION DATE ANTICIPATED. NOTr:% THIS PERMIT IS NOT VALID WITHOU.T SOIL TEST ' FINAL INSPECTION: 24 HOUR NOTICE REQUIRED. BACKFILLING OF ANY SYSTEM WITHOUT FINAL.INSPECTION BY THE DEPARTMENT OF ENVIRONMENTAL QUALITY AUTHORITY WILL bE SUBJECT TO PROSECUTION. RIIN~I~IUM DISTANCES, REQUIREMENTS FOUNDATION TO SEEPAGE PIT , ~O ! DRAIN FIELD. SEPTIC TANK TO SEEPAGE PIT WALL ~EPTIC TANK ~-- I · SEEPAGE PIT ~ I TO NEAREST LOT LINE. W~kL TO SEPTIC TANK . /~ W/.TER MAIN TO SEPTIC T NK /~ I DRAIN FIELD · Z .eo l Z SEPTIC TANK SIZE TYPE /~1), ~'~/~E SEEPAGE AREA SIZE TYPE DIAGRAM OF SYSTEM , DRAIN FIELD ./O · SEEPAGE P'T · ALSO CONSIDER AREA WELLS. · SEEPAGE PiT CAST IRON INTO AND OUT OF SEPTIC TANK AND INTO CRIB CROSSING GAP OF SEPTIC TANK. ? /¢)~'~ , SEEPAGE PIT . /OD DRAIN FIELD TO BIVER. LAKE. STREAM. EXCAVATION S FEET INTO UNDISTURBED SOIL. 4 INCH DIAMETER CAST IRON SIPHON PIPES ON SEPTIC TANK AND SEEPAGE PiT FITTED WITH AIRTIGHT REMOVABLE CAPS. CONFORM TO BOROUGH REGULATIONS REGARDING INSTALLATION. I Cr-RTIFY THAT I AM FAMILIAR WITH THE REQUIREMENTS OF (~REATER A~CHORAGE AREA BORO/U.~H ORDINANCE NO 28-68 AND DESCRIBEDi SYSTEM/ IS IR ACCORDANCE WITH SAID COD~-'I~ . -"'' ~ · THAT THE A~OVE GREATER AI,ICIIOICA[;I:i ?,RLA I;OROU,... Department of Lnvi ronn)c, ntal (~-~'t i Ly 3330 "C" Street Anchorage, Alaska 99b03 · ";()II,$ 1,0(~ -. I'EI~.OI,ATION TE?;T This form reports: Soils ]o9 Percolation ~est Dep th Feet 1- 2- 3- 4- 5- 6- 7- 9- 11- .12 - 1.3- Was ground water encountered? If yes, at whaC depth? Reading Date Gross.Time Net Time e.pth to Water Net iJrop Percolation rate minute. 'Proposed installa~T~'n-.'- Seepa'ge Pit Drain Field Del)th of Inlet ., Depth 'ti)']~'i-t%~n-qJ'f-i)it or trench ~-" -'-' '?."c' 7, ,.., ..~, ..~, ./ t.,-.<~/ ._,~,,¥,,.,.. COH/1ENTS: l'>' '.' ~,. ~,,'"'~" ...... -'--~ '~ ' .... .___-.-_ r ........ ' ....... - o _ _ -7,,~_ _ _ ~.t" .......... _._ .~ .... a,._ .... r .~.rrd.~_£ ............... X" ' '"--'"':---- ' ,-,,.Z..., Pe-fo~,,,d'm,- /[g.-~'.. '~ //-/-,~o.~' Certified By-: ' "~, /'~ · z' ....----..": .... ' EO-O4n ~nl?a~ DEPARTM[NT OF ENVIRONIqFt.IYAI_ OU~I.I'I'¥ Case /! JU.I~ 6 1974 ~1 /--~, 3330 "C" Street ~ ANCHORAGE, ALASKA 99503 Performed For BobO~ali Dated Performed June4, ~97~ Legal Description: Lot 2 Block ~ Subdivision B~aspactHai~hts This Form Reports SOilS Lag XX Percnlation Test Soil Test Must Be Logged To 4' Below Proposed Seepage System- Depth Feet Soil Characteristics 5-- 6-- .8 9 10'-- 11-- 12-- 13-- 14-- 16 Peat, etc, Light brown sandy silt with occasional coarse gravel SP-GM Coarse gravel, coarse sand GW Grey sandy siltwith cobbles and coarse gravel ML-G Dark brown sandy silt with clay CH-SM Coarse gravel and cobbies GW Was Ground Water Encountered? No · If Yes, At What Depth? Reading Date Gross Time Net Time Depth to H20 Percolation Rate Mi nul:e Proposed Ins'f. aliat~-~-: Seepage Pit XX Drain Field Depth of Inlet Depth to Bottom ~-f--Pit or Trench' ~0biMENTS: Based on Borough regutations, wa recommend 168 sq. ft. per bedroom. Net Drop 16' Test Performed BY Joll.nJg~_LLe$on Date Certified BY: Date: This Fcrm Reports Was G~ound %:ater Encountered? .... .~_(~. i,o.:at '~c."'i 3Le.'.ch GRE,?'~ER ANCHORAGE AREA BC ~UGH ...... :-- -' .'- DEPARTMENT OF ENVIRONMENTAL OUALIT~ PERMIT NO. 3330 "C*' STREET ANCHORAGE, ALASKA 99503 TELEPHONE 274~455! SEWAGE DISPOSAL 5¥STEM APPLICATION AND PERMIT INSTALLATION LOCATION /~/~) ~/)~-~- INSTALLATION OF: SEPTIC TANK _ SEEPAGE PIT , DRAIN FIELD . OTHER "7~ _.-~- ~ ~ - SOIL TEST RESULTS ~' --' /%~l~.~[ ~'~,~'~7~ NOTE: THIS PERMIT IS NOT VALID WITHOUT SOIL~ FINAL' INSPECTION: Z4 HOUR NOTICE REQUIRED· BACKFILLING OF ANY SYSTE~ WITHOUT FINAL.INSPECTION BM TH~ D~PARTMENT OF ENVIRONMENTAL QUALITY AUTHORITY WILL BE S~T FOUNDATION TO SEPTIC TANK FOUNDATION TO SEEPAGE PIT 2~) SEJ~TIC TANK TO SEEPAGE Pit WALL TO NEAREST LOT LINE. DRAIN FIELD 'WA.TEE MAIN TO SEPTIC TANK DRAIN FIELD · DRAIN FIELD 20 / /0 / .. DRAIN FIELD / ALSO CONSIDER AREA WELLS. SEEPAge PIT / O_O'/ DRAIN FIELD CAST IRON INTO AND OUT OF SEPTIC TANK AND INTO CRIB CROSSING GAP OF EXCAVATION 5 FEET INTO UNDISTURBED SOIL. 4 INCH DIAMETER CAST IRON SIPHON PIPES ON SEPTIC TANK AND SEEPAGE PIT FITTED WITH AIRTIGHT REMOVABLE CAPS. (;RAVEL BACI(FILL CONFORM TO J~OROUGH REGULATIONS REGARDING INSTALLATION. DIAGRAM OF S¥STE~I I CERTIFy THAT I AM FAMILIAR V/ITH THE REQUIREMENTS OF GREATER At~/C~I~t~AGE ~REA BOROUGH ORDINANCE ~10. 2B.60 AND THAT THE ABOVE DAT~ APPLICANT'S SIGNATURE ~ ........ _~.~ 103 ~. 26TH AVE.~-~;CHORAGE 272-891~ NEIL~-~,~.GhT BUILDING~ PALME'R 7~S-/[417 April 16, 1974 Mr. Earl J. Clabo P.O. Box 3-4056 Anchorage, Alaska 99501 Re: Soils Log Lot 8A Block ~1 Prospect Heights Subdivision Dear Nr. Clabo: Transmitted.herewith is the soils log for a test hole taken on the above referenced property per your request. It should be noted that the gravel thickness in the ho]e widened from three (3') feet on the north side of the hole to six (6') feet on the south side of hole. l'his would indicate that the gravel would increase in thickness in the location you propose to place the seepage pit. - Leo//Schebdn Jr., P.E., L.~. Partner LS/m~ Enclosure ~.ORDON D. UNWIN, P.E. LEO £CI~EBEh~ J~.~ P.E. · 12. 13 ..15 19 23. '...... S'O I E S L 0 u-. ' 'CLi'~T E.J. C1J-~, .,--~TEST tt0LE NO. · . ' '".7. DATE ^pr11 16, 1974'. PROJECT Test' I{ole " .... ' ..... · . ...: .... ~.. . '<.. .. . :. ."~].~.. ~OP O~ HOLE"Lowest ~ec{~on 'of Lot' W.O~ .NO..74106 ~-i~"pe~ &'Ove'r"¢~¢Sen' "' .' ' . .......... . ................ .... ..... '- .' ..'~. '. " . .... ~.Zi'% ......... ¢. .S./C ~, ' ....... = ................. ' · ~'~ · - .l..=..:: ,.. ',='. .... ::=-/.'.~ ~_'2.d.[~ ..... = .......... .= ............ ~. - : .' ... .'":. _~.__._.. ...Lf--L ....... ~-. -f ....."' =: .... · Wet Sandy, SJ.I.~,.& .~r.a.V~J~ODD.J~_I~-~~- ~. ] - -- 0 1 2 1 7 7 350 ~ PROSPECT HEIGHTS SUBDIVISION ADDITION NO. 5 1982-1421 1982-2709 1 z 3 7 4 SURVEYOR'S CERTIFICATE // DE'TAIL PROSPECT HEIGHTS SUBDIVISION ADDITION NO. 5 LOTS ~t~uS, Block I~ LOTS Ith~uS~10ck2 -5'7to