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Home My WebLink AboutSW7080223_APPROVED PLANS_20080421STORMWATER DIVISION CODING SHEET POST -CONSTRUCTION PERMITS PERMIT NO. SW(��9��j DOC TYPE ❑ CURRENT PERMIT APPROVED PLANS HISTORICAL FILE ❑ COMPLIANCE EVALUATION INSPECTION DOC DATE YYYYMM D D ROY COOPER Governor ELIZABETH S. BISER Secretary BRIAN WRENN Director NORTH CAROLINA Environmental Quality July 29, 2021 Dare County Airport Authority Attention: Charlie Davidson, Chairman P.O. Box 429 Manteo, NC 27954 Subject: Stormwater Permit Renewal Stormwater Management Permit SW7080223 Dare Airport Hanger and Taxiways — Phase II Dare County Dear Mr. Davidson: A Division of Energy, Mineral, and Land Resources file review has determined that Stormwater Permit SW7080223 for a stormwater treatment system consisting of an infiltration basin serving the Dare Airport Hanger and Taxiway Phase II expansion located at the Dare County Regional Airport in Manteo, NC expires on December 30, 2021. This is a reminder that permit renewal applications are due 180 days prior to expiration. We do not have a record of receiving a renewal application. Please submit a completed permit renewal application along with a $505.00 fee for permit renewal. Also, it was noted in the file review that a designer's certification that the project was constructed in accordance with the approved plans as required by the permit has not been submitted. Please include this with your application. Permit application forms for renewal can be found on our website at: https://deq.nc.gov/about/divisioiis/energy-mineral-and-land- resources/stormwater/stormwater-program/post-construction-2. North Carolina General Statutes and the Coastal Stormwater rules require that this property be covered under a stormwater permit. If you have questions, please feel free to contact me at (252) 948-3923. 1 will be glad to discuss this by phone or meet with you. If you would like, I can e-mail you a copy of the application forms. You can request a copy by e-mailing me at roger.thorppe(a)ncdenr.gov. Sincerely, az . a�� Roger K. Thorpe Environmental Engineer North Carolina Department of Environmental Quality I Division of Energy, Mineral and Land Resources _ Washington Regional Office 1 943 Washington Square Mall I Washington, North Carolina 27889 dW-�' 252.9466481 A �� [� \, January 15, 2008 John Massey, P.E. TALBERT & BRIGHT, INC. 4810 Shelly Drive Wilmington, NC 28405 Re: Report of Additional Subsurface Investigation New Hangars @ Dare County Regional Airport Marren, North Carolina GeoTechnologies Project No. 1-07-1475-EA Dear Mr. Massey: 3200 Wellington Court, Suite 108 Raleigh, North Carolina 27615 919-954-1514 Fax 919-954-1428 MAR 5 2008 DWQ-WARO GeoTechnologies, Inc. previously completed a subsurface investigation for the referenced property on December 18, 2007. Based on the results of this investigation, GeoTechnologies recommended performing some additional site exploration which included extending a few of the borings to greater depths, as well as obtaining representative samples of the potentially highly compressible soil layers encountered in the near surface profile. Between the two investigations, a total of seven soil test borings were performed as shown on Figure 1. The test boring locations were established in the field by measuring distances from existing features, and therefore these locations should be considered approximate. The test borings were extended to depths of about 15 to 35 feet below site grade, and during advancement of the test borings, standard penetration test procedures were performed at selected intervals to evaluate the consistency and density of the subsurface soils. This report presents the findings of our sitework to date, and our recommendations for site grading, pavement design, and foundation support for the project. SITE AND PROJECT INFORMATION The site of the proposed hangars is located southeast of two existing hangars which are located on the south side of Taxiway D. The area is presently grassed and undeveloped. The proposed new hangars consist of a 14 unit T-Hangar and a separate group of three executive type hangars with approximate 60 foot clear spans. We understand that maximum column loads for the new structures will be on the order of 15 to 60 kips, and that grade will be raised across the site by about 0 to 4.5 feet. SUBSURFACE CONDITIONS A generalized subsurface profile prepared from the test boring data is attached to this report as Figure 2 to graphically illustrate subsurface conditions encountered at this site. More detailed descriptions of the conditions encountered at the individual test boring locations are then presented on the attached test boring records. T-Hangar Area (B-1 throueh B-4). The thickness of the topsoil and root mat in this area was approximately 4 to 6 inches. The topsoil was initially underlain predominantly by very loose to medium dense sands interbedded with organic sands and possible peat with penetration resistances of weight -of -rod to more than 10 blows per foot (bpf). The deeper soils in these borings were found to be loose to dense sands without significant organics. These soils exhibited penetration resistances of 10 bpf or higher. Water tables Geotechnical and Construction Materials Testing Services �i; �3'j :� ;!kk' �. Talbert & Bright, Inc. An (� flew Hangars @ Dare Co. Reg. 0 January 15, 2008 Page: 2 were measured at about 4 to 6 feet below the existing ground surface in the T-hangar area at the time of boring completion. Executive Hangar Area (B-5 through B-7). The thickness of the topsoil and root mat in this area was approximately 4 to 6 inches. The topsoil was initially underlain predominantly by very loose to medium dense sands with penetration resistances of 2 to 10 bpf. These borings appeared to contain less organics than the borings performed for the T-Hangar. The deeper soils in these borings were found to be loose to very dense sands without significant organics. These soils exhibited penetration resistances of 10 bpf or higher. Water tables were measured at about 3 to 5 feet below the existing ground surface in the executive hangar area at the time of boring completion. GeoTechnologies performed five test borings at the site in 2000 as part of a plan for a number of new hangar structures. The organic soils were not as prevalent in the 2000 test borings; however, these borings showed zones of wood at two locations, one in the T-hangar area and one in the executive hangar area. Standard penetration resistances from the 2000 test borings were similar to the blow counts from our more recent investigations. These borings and their locations are attached as Figures 3 and 3A. LABORATORY TESTS Two bulk samples of soil from the upper 3 feet of the site were subjected to standard Proctor compaction, laboratory CBR, and standard classification tests. The samples yielded maximum dry densities of 1093 to 110.7 pcf with optimum moisture contents of 13.2 and 13.%. The soils are non -plastic sands with 5.6 to 6% passing the 9200 sieve. Laboratory CBR testing yielded CBR values of 8.9 to 12% at 0.1 inch of penetration and 12.8 to 17% at 0.2 inches of penetration. This laboratory work was completed as part of our December, 2007 investigation. Additional laboratory work was completed during the course of our January, 2008 investigation. This additional work involved performing laboratory consolidation testing on a representative sample of the very loose organic sands from about 8.5 to 10.5 feet in boring B-3. The results of that testing indicated a modified compression index of 0.038, a modified recompression index of 0.0088, a modified secondary compression ratio of 0.00065, and a coefficient of consolidation of about 0.80 ft'/day. Although the specimen tested was the most organic sample obtained from two separate Shelby tubes, the compression properties of the sample appear similar to those which would be expected for very loose sand. RECOMMENDATIONS The following recommendations are made based upon a review of the attached test boring data, our understanding of the proposed construction, and past experience with similar projects and subsurface conditions. Should site grading or structural plans change significantly from those now under consideration, we would appreciate being provided with that information so that these recommendations may be confirmed, extended, or modified as necessary. Additionally, should subsurface conditions adverse to those indicated by this report be encountered during construction, those differences should be reported to us for review and comment. Site Suitability. The results of our test borings and laboratory work indicate that this site marginal for the use of shallow spread foundations to support the proposed structures without the potential for some excessive settlement. Our boring results indicate the presence of some very loose sands and potentially compressible organic soils in the upper 10 feet (or slightly more) of grade, and these materials are susceptible GeoTechnologieslnc. ,: ;albeit &Bright, Inc. New Hangars @Dare Co. Reg. A January 15, 2008 Page: 3 to excessive settlement even under relatively light loads. Based on these considerations, we recommend that consideration be given to removing or improving these soils unless deep foundations will be used. Although organic soils were not as prevalent in the test borings performed for the executive hangar, some organics and very loose sands were encountered. Additionally, this structure will be located reasonably close to the unit T-hangers where more significant amounts of organic soils were encountered. Based on these considerations, we suggest that foundation design proceed in the same manner for both structures. Site Grading Considerations. We understand that grade will be raised by about 0 to 4.5 feet at the site. The foundation support method utilized for the site will have a significant impact upon the type of subsurface repair used within the limits of the building pads. The first option would be to undercut all soft and/or unsuitable soils from within the limits of the building pads. However, this would possibly involve removing in excess of 10 to 15 feet in some areas, with the undercut extending well below the groundwater table. The firmer soils which would then be exposed appear to be poorly graded sands which could become quick resulting in the need for even more undercut. Our past experience with undercut repairs in similar situations has been that proactive dewatering is needed to facilitate the repair. In this case, it is our opinion that dewatering with open ditches and pumping has a much lower probability of success than would the use of well points which could lower water levels several feet below the anticipated undercut depth before the repair begins. If the contractor does attempt the repair with ditching and pumping, it should be recognized that there is a possibility that the repair will be unsuccessful. Another option would involve using a soil surcharge to preload any compressible soils such that typical shallow spread foundation and slab -on -grade support could be utilized. Based on the results of our test borings, the required fill, and maximum column loads, we recommended a soil surcharge height of 4.5 feet be placed across the pads. The surcharge material should have a unit weight of about 125 pcf, and must extend 10 feet outside the building corners before sloping down to meet plan grade. We have estimated that the new fill and surcharge will result in total settlements of about 2 to 3 inches; however, after the surcharge is removed, we have estimated that post -construction settlement (for the 15 to 60 kip column load @ 1,000 psf) will be less than 0.5 inches. We estimate that the fill and surcharge settlement will likely occur in less than 30 to 45 days; however, we do recommend that a few settlement points be monitored by a surveyor on a weekly basis to verify that soil induced settlements have subsided before the surcharge is removed. It is noted tjiat our analysis assumes that all of the new fill needed for the project will be placed at the same time. Alternatively, the structures could be supported on deep foundations. If either of the latter two options are selected, we recommend that site grading consist of initially proofrolling the subgrade soils exposed below the surface topsoil, with appropriate repairs for stability being made. At the same time, we recommend that the contractor use a smooth drum vibratory roller to help densify the sandy soils in the near surface profile. A minimum of five passes each way should be made with the roller which should be equivalent to a CAT531 C. If this operation builds pore water pressures to the point of creating instability, the operation should be suspended until pressures dissipate. Subsequently, the pads can be filled to grade. All new fill should be compacted to not less than 95% of the standard Proctor maximum dry density except in the final foot where this requirement should be increased to 98% of the standard Proctor maximum. Since grade will be raised across the project, we anticipate that fill will be imported from another area of the site, or will be obtained from an off -site source. Foundation Support Considerations. As discussed, subsurface conditions on the site are not well suited for the use of shallow spread footings without very significant and difficult undercut type repair, or Talbert & Bright, Inc. New Hangars @ Dare Co. Reg. January 15,2008 Page: 4 surcharging. Due to the presence of potential peat layers, other organic sands, and some very loose sands we anticipate that fill and structural load induced settlements could be on the order of several inches, and that the settlement may occur over a relatively long period of time as the underlying soils slowly consolidate and are influenced by fluctuations in the groundwater elevation. Settlements would also not be uniform. As such, we do not recommend using shallow foundations unless the poor quality soils are removed or improved as previously discussed. If these soils are removed and replaced, the foundations may be designed for an allowable bearing pressure of 2,500 psf for bearing at least 12 inches below grade. If the soils are improved through preloading, we recommend limiting the maximum design bearing pressure to 1,000 psf All excavations should be evaluated by a geotechnical engineer or their representative to verify that adequate bearing exists. Alternatively, the structures (including the slabs) can be supported utilizing timber piles. Our borings indicate that timber piles would need to be driven to a depth of about 25 to 30 feet to achieve a working capacity of20 tons with a safety factor of 2. If timber piles are used, we recommend that they be driven to a dynamic set indicative of the design capacity based on the Hiley equation or the State Building Code equation, and that at least eight ovedength indicator piles be driven at the site prior to ordering production piles If driven piles are used, we suggest performing pre -driving surveys on adjacent buildings, and monitoring vibrations during the driving operations. Consideration could also be given to utilizing properly designed and installed helical piers at the site. If helical piers are utilized, we anticipate that the piers will likely take up around 15 to 27 feet. The exact pier design and layout would have to be provided by a specialty contractor; however, the design engineer should check the pier section for buckling in poorly supported areas where very soft conditions exist. No matter what type of deep foundation is used, we suggest that a 30 day waiting period be observed after grade is raised before the elements are installed to allow most of the fill induced settlement to occur. This will help to reduce potential drag -down effects on the section. Following preparation, we suggest using a subgrade modulus of 150 pci for design of the slabs. General Pavement Design Considerations. Based on the results of tests performed in our laboratory, and our experience with similar soil types at other locations on the airport, a design CBR value of 12% can be utilized for calculating a pavement section. GeoTechnologies, Inc. appreciates the opportunity to be of service on this phase of the project. Please contact us if you have any questions concerning this letter or if we may be of additional service on this or other projects. -ASS g, �I C = 5"$ 1. ELS/pr-dli/lam Attachments Sincerely, gies, Inc. Ernest L. *_�o titzinger, P.E. NC Registration No. 25534 GeoTechnologies; Inc: 3 3 ` 4 , g Ij� 5 Q 4 j 3 �� r / � e) 4 G/ ,.- BS, tilt TIES COUNT New Hangars Boring Locations Project No. 1-17-1475-EA Dare County Regional Airport Figure No. 1 Manteo, North Carolina Scale: As Shown Depth (Feet) GENERALIZED SUBSURFACE PROFILE LEGEND B-1 B-2 B-3 B-4 B-5 B-6 B-7 Poorly -graded Sand 0 _ 9 10 8 8 9 ; , 9 ; . 7 Silty Sand with Organics 8 • ; 11 SJ ; , 4 6 8 8 - 4 Silty Sand 5 7 7 3 10, 4 10 7 3 ® Topsoil ® Peat 10 • , 11 0 2 T_ _ 4 2 ' , 3 ' , 10 8 Standard Penetration Resista V Groundwater at Time of Boring 15 8 1 J 10 U 20 24 2 25 U 23 20 4 31 10 57 25 4 47 40 30 43 49 35 22 40 PROJECT: SCALE: As Shown New Hangers 9 JOB No:1-07-1475-EA Dare County Airport Manteo, North Carolina FIGURE No:2 / \ _ / s 13-9 s Olkl 6-7 1 \� F" WALE o osz SIDE SLOPES - 12-5' r � n \ SANp \ ` I ONEp TAXIWAY PROJECT: SCALE: Not to Scale Dare County Airport JOB NO: 2-00-0026-EA Manteo, North Carolina �� FIG NO: '3A Depth(Feet) B- 1 0 2 10 4 . 5 6 16 8 10 12 14 16 18 20 14 I 21 GENERALIZED SUBSURFACE PROFILE 6- 2 B- 3 B- 4 B 5 B 6 B- 7 LEGEND ,r• III III ■ - Topsoil 10 III 9 III •„ I I 9 I'I I 10 - 5 8 li III - I I - Poorly Graded SAND I - Slightly Silty SAND 6 fl t 7 7 16 ) I 6 5- Clayey SAND Organic SILT I,� 5 3 2 5 3 .I 4 l Silty SAND 11 5 4 11 3 12 Wood l'1VV T.•uQh%yar (�, 20G10 vc "`err h4S� 1 1 a""�... �io,^%ke[ ( . II,YIA - Clayey to Silty SAND El8- Standard Penetration Resistance - Groundwater at time of boring 4 10 - Fill ID- Possible Fill 11�D - Boring Caved and Dry Dare County Airport Manteo, North Carolina bGALt:A5 bnoWn JOB No:2-00-0026-EA FIGURE No:'-' 3 TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (FT.) (BLOWS/FT.) SIX INCHES 00 0 10 20 40 60 100 17 35 4.2 6.0 110 17.0 27.0 33.0 35.5 Very Loose to Loose Tan Fine to Medium SAND SP ' 2-3-6 4-4-4 3-4-3 4-6-5 5-44 3-2-2 3-2-2 17-19-24 11-12-10 C1- Loose Brown Grav Slightly Silty Fine to Medium SAND with Wood SM OL Loose Dark Grav Fine SAND SM Loose Tan Fine SAND Loose to Medium Dense Tan, Grav Fine SAND SP Loose Light Brown Medium to Fine SAND SP Very Loose Light Brown Coarse to Fine SAND SP Dense Gray Fine SAND with Shells SP Medttun Dense Dark Gray Fine SAND with Trace of Shells SP Boring Termmazed at 35 5'. Groundwater encountered at 6.8' at time of boring. JOB NUMBER 1-07-1475-EA BORING NUD'H3ER B- 1 DATE 11-29-07 PAGE I OF 1 /._// GeoTechnologies,hc. DEPTH (FT.) 0.0 05 18 25 9c lOS 15.5 TEST BORING RECORD DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (BLOWS/FT.) SLY INCHES n to 10 an Fn inn Topsod SM 4-5-6 4-5-6 3-4-3 W OR 8-4-6 2 Medium Dense Orange, Tan & Gray Silty Fine SAND Medium Dense Dark Gray Fire SAND SP ,7 Medium Dense to Loose Gray Fine SAND Very Loose Black Gray Fine SAND with Peat Medium Dense Tan Fine SAND SP Bonng terminated at IS 5' Groundwater encountered at 4.25' at time of boring. UD from 8.5' to 10.5'. JOB NUMBER BORING NUMBER DATE 1-07-1475-EA B- 2 11-29-07 PAGE 1 OF -I TEST BORING RECORD DEPTH (FT.) 00 0.3 20 5.( U 12A 155 DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (BLOWSIFT.) SIX INCHES 0 In 20 an Fn 100 Topsoil Sp 3-4-4 3-2-2 1-I-2 1-I-I 4 8 12 Loose Tan Orange Fme SAND Very Loose Gray Tan Fine SAND Sp Very Loose Slightly Silty Fine SAND with Wood or Peat Very Loose Black Gray Organic Silty Fine SAND SM OL Medium Dense Tan Medium to Fine SAND SP Boring ternimated at 15 5' Groundwater encountered at 4.0' at time of boring. UD from 6' to 8'. JOB NUMBER BORING NUMBER DATE 1-07-1475-EA B- 3 11-29-07 e e e -- PAGE__ 1 OF I a 0 TEST BORING RECORD DEPTH DESCRIPTION ELEVATION PENETRATION (FT.) (FT.) (BLOWS/FT.) 0.0 0 10 20 40 60 0 2 3 a M 1U 220 25.5 BLOWS PER SIX INCHES inn 5 3 Copsoil 0 Loose Tan Fine SAND SP 0 Loose Gray Fine SAND with Organics SM 2-3-5 Loose Gray Tan Fine SAND 3-3-3 Peat 2-2-2 Medium Dense Gray, Tan & Black Silty Fine SM SAND with Wood OL —I 2-2-2 Dae gray Coarse to Fine SAND with Shells SP 9-11-13 14-15-16 Gray Mednun [o Fine SAND $p 16-2t-26 Boring Teemma[ed at 25 5' groundwater not encountered at time of boring. Caved at 6' JOB NUMBER BORING NUMBER DATE 1-07-1475-EA B- 4 11-29-07 /// de,pTechnologies, Inca 3 PAGE 1 OF 1 groundwater not encountered at time of boring. Caved at 6' JOB NUMBER BORING NUMBER DATE 1-07-1475-EA B- 4 11-29-07 /// de,pTechnologies, Inca 3 PAGE 1 OF 1 DEPTH (FT.) 00 0.5 20 8( 170 22.5 30.5 TEST BORING RECORD DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (BLOWS/FT.) SIX INCHES 0 10 20 40 60 100 Topsoil SP 3-4-5 4-4-4 5-5-5 I-1-I 1-I-1 2-4-6 21-17-23 6-23-26 - Loose Gray Fme SAND Loose to Medium Dense Tan Slightly Silty Fine SAND SP Very Loose Silty Fme SAND SM Loose Fine to Coarse SAND with Shells SP Dense Gray Fme SAND with Shells SP Boring Terminated at 30 S'. Groundwater encountered at 5. P at time of boring. JOB NUMBER BORING NUMBER DATE 1-07-1475-EA B- 5 11-29-07 PAGE 1 OF I DEPTH (FT.) 00 0 7 12. 20.5 0 Q F1TEST BORING RECORll DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (BLOWS/FT.) SIX INCHES n in 5 Topsoil wv Loose Tan Fine SAND SP 2-4-5 4-3-5 4-4-3 Loose to Very Loose Brown Medum to Fme SP SAND 1 I-2-1 Medium Dense Gray Coarse to Fine SAND with Sp Shells 8-10-15 34-30-27 Dense Gray Coarse SAND with Shells SP Boring terminazed at 20 5' i i i i F c Groundwater encountered at 2.7' at time of boring. JOB NUMBER BORING NUMBER DATE 1-07-1475-EA B- 6 11-29-07 _PAGE I OF 1 DEPTH (FT.) 00 0 3i 41 of 12d l5.- ( IETEST BORING RECORD DESCRIPTION ELEVATION PENETRATION BLOWS PER (FT.) (BLOWS/FT.) SIX INCHES n to in an rn inn 5 Topsoil Loose Tan Fute SAND Sp 2-3-4 2 Very Loose Black Organic Silty Fine SAND SM . 3-2-2 - Very Loose Brown Silty Fine SAND SM 3-1-2 Very Loose to Loose Gray Medium to Fme SAND SP 85-5 Medium Dense Fine to Coarse SAND with Shells Sp Boring [emtinated at 15.5' 7-12-11 Groundwater encountered at 3' at time of boring. JOB NU11NIBER BORING NUMBER DATE 1-07-1475-EA B- 7 11-29-07 PAGE 1 OF 1 Groundwater encountered at 3' at time of boring. JOB NU11NIBER BORING NUMBER DATE 1-07-1475-EA B- 7 11-29-07 PAGE 1 OF 1 TABLE 1 SUMMARY OF LABORATORY TESTS New Hangars Dare County Regional -Airport Manteo, North Carolina GeoTechnologies Project No. 1-07-1475-EA Depth Maximum Optimum Liquid Plastic Plasticity 4200 Laboratory Unified Soil Sample (ft-) Dry Density Moisture Limit Limit Index Sieve CBR Class. (Pc1) (,70) N (oyo) J-1 u -J 1uV.J 1J.L NH NP NP S-2 0-3 110.7 13.8 NP NP NP 5.6 12 @ 0.1" SP 17 @ 0.2" 6.0 8.9@0.1" SP 12.8 @ 0.2" a c 0 0 a 135 Job No: 1-07-1475-EA Date: 12/13/07 1301T Job Name: New Hangers Dare County Airport \ Job Location: Manteo, North Carolina I Boring No: Sample No: S-1 125 Depth: 0-3' I I i \I TEST RESULTS 120 W, Method of Test: ASTM D 698 Maximum Dry Density: 109.3 PCF Optimum Moisture Content: 13 2% Natural Moisture Content: % Atterberg Limits: LL NP PI NP Soil Description: Brown Medium to Fine CURVES OF 100% SATURATION FOR SPECIFIC GRAVITY EQUAL TO: 0 5 10 15 20 25 30 WATER CONTENT (Percent Dry Weight) MOISTURE -DENSITY RELATIONSHIP GeoTechnologies, Inc. -PA . . 2.80 2.70 WI9 L 1 Ol' 3; U.S. Standard Sieve Sizes 94 #10 #20 #40 #60 #100 #200 00 90 - 80 — 70 so so 40 — 30 20 10 off 100 8 6 4 3 10 8 6 4 I 1 8 6 d 2 0.1 8 6 4 I 0.01 8 6 4 I 0.0018 6 Grain Size In Millimeters 0 GRAVEL SAND FINES COARSE FINE COARSE MEDIUM FINE SILT SIZES CLAY SIZES Boring No. Elev./Depth Nat. W.C. L.L. I P.L. I P.I. II Descrintlon or Claasification GRAIN SIZE DISTRIBUTION S-1 0-3' NP NP NP Brown Medium to Fine SAND Pro'ect�: Job No.: 1-07-1475-EA eN w Hangers Dare County Airport Manteo, North Carolina Date: 12/13/07 GeoTechnologies, Inc. JOB 1-07-1475-EA DATE: 12/3/2007 NOTES: PROCTOR DATA: Opt. Moisture = 13.2% SOIL DESCRIPTION: CBR DATA SHEET JOB NAME: Dare County Regional Airpo t - Hanger SAMPLE I.D. S-1 DEPTH: TEST PROCEDURE: ASTM D 698 Max. Dry Density = 109.3 PCF Brown Medium to Fine Sand CBR SPECIMEN DATA Swell Data MOISTURE CONTENT 13.5% Initial Reading 0.487 WET DENSITY 124.0Ibs./cu.ft. Final Reading 0.487 DRY DENSITY 109.3Ibs./cu.ft. Mold Height 4.571 % COMPACTION 100.0 % % Swell 0.00 LOAD CELL 2000 LB. RATE OF DEFORMATION .05 in./min. SURCHARGE USED 10 lbs. 400.0 350.0 300.0 250.0 200.0 150.0 100.0 50.0 0.0 0.000 0.100 0.200 0.300 0.400 0.500 0.600 CBR @ 0.1- 12.1 CBR @ 0.2- 17.3 % SWELL O.0 1 1 $11 r F- z10 100 95 GeoTechnologies, Inc. Job No: 1-07-1475-EA Date: 12/13/07 Job Name: New Hangers Dare County Airport Job Location: Manteo, North Carolina Boring No: Sample No: S-2 Depth: 0-3' TEST RESULTS Method of Test: ASTM D 698 Maximum Dry Density: 110.7 PCF Optimum Moisture Content: 13.8% Natural Moisture Content: °/ Atterberg Limits: LL NP PI NP Soil Description: Brown Medium to Fine SAND CURVES OF 100 % SATURATION FOR SPECIFIC GRAVITY EQUAL TO: 15 20 25 WATER CONTENT (Percent Dry Weight) i-Ti1 2.70 MOISTURE -DENSITY RELATIONSHIP GeoTechnologies, Inc. PA U.S. Standard Sieve Sizes iV W #4 #10 #20 "a #60 #100 #200 100 90 -- 80 — 70 — 60 60 — 40 ..30 — 20 — 10 0 100 0 6 4 2 10 8 6 4 2 1 0 6 4 2 0.1 a 6 4 2 0.01 0 6 4 2 Q.001 a 6 Grain Size In Millimeters d GRAVEL I SAND I FINES COARSE I FINE I COARSE MEDIUM FINE ISILT SIZES CLAY SIZES Boring No. Elev./Depth Nat. W.C. I L.L. I P.L. I P.I. -- - - - GRAIN SIZE DISTRIBUTION S-2 INP Q-3' NP NBrown Medium to Fine SAND Pro-ec" Job No.: 1-07-1475-EA ew angers Dare County Airport Manteo, North Carolina Date: 12/13/07 Q GeoTechnologies, Inc. JOB 1: 1-07-1475-EA DATE: 12/3/2007 NOTES: PROCTOR DATA: Opt. Moisture = 13.8% SOIL DESCRIPTION: CBR DATA SHEET JOB NAME: Dare County Regional Airport - Hanger SAMPLE I.D. S-2 DEPTH: TEST PROCEDURE: ASTM D 698 Max. Dry Density = 110.7 PCF Brown Medium to Fine Sand CBR SPECIMEN DATA Swell Data MOISTURE CONTENT 13.8% Initial Reading 0.151 WET DENSITY 124.91bs.icu.ft. Final Reading 0.152 DRY DENSITY 109.8 Ibs.icu.ft. Mold Height 4.560 COMPACTION 99.1 % % Swell 0.02 LOAD CELL 2000 LB. RATE OF DEFORMATION .05 in./min. SURCHARGE USED 10 lbs. 350.0 300.0 250.0 200.0 150.0 100.0 50.0 0.0 IF 0.000 0.100 0.200 0.300 0.400 0.500 0.600 CBR @ 0.1" 8.9 CBR @ 0.2- 12.8 % SWELL 0.0 GeoTechnologies, Inc. O 0 PZiPFY�l�l�l_�iiPP ■i �Yi Job Name: New Hangars - Dare County Regional Airport Date: 1/8/2008 Job Number: 1-07-1566-EA I.D. B-2 Depth: 8.5' - 10.5' Soil Notes: Preload = 500 \ Saturate After Preload Rebound \ Remolded Sample RING PROPERTIES Ring Diameter 2.500 Inches Ring Height 0.998 Inches Ring Volume 0.00284 Cu. Ft. Ring Weight 110.42 Grams Ring + Soil 261.47 Grams Initial Reading .0000 Preload Rebound Reading .0032 LOAD / psf RO R6 R100 T90 R90 100 0000 .0095 500 .0095 .0154 100 .0154 .0139 500 0139 .0197 1000 .0197 .0244 .0249 2.40 0.0251 2000 .0249 .0320 .0328 2.70 0.0332 4000 .0328 .0419 .0426 2.40 - 0.0426 8000 .0426 .0529 .0540 3.70 0.0546 16000 1 .0540 1 .0654 .0667 2.70 1 0.0670 8000 .0667 .0668 4000 .0668 .0646 2000 .0646 .0623 1000 .0623 0599 500 .0599 .0576 100 .0576 .0520 LOAD / psf %E Con. Coef. %IC 100 1.0 500 1.5 100 1.4 500 2.0 1000 2.5 0.84 90.4 2000 3.3 0.73 89.9 4000 4.3 0.81 92.9 8000 5.4 0.51 90.4 16000 6.7 0.68 89.8 8000 6.7 4000 6.5 2000 6.2 1000 6.0 500 5.8 100 5.2 NOTE: Consolidation Coefficient in Square Feet Per Day Initial Void Ratio 0.67 Final Void Ratio 0.59 Initial Saturation, % 78.8 Final Saturation, % 100.0 Consolidation Curve B-2, 8.5'-10.5' Vertical Stress, PSF 100 1000 10000 100000 0 I I I I II I II I I I I I I Z I I I I I I I i I I I I I I I I I I I I I I I I I I 3 I I cT q P I rn I I I I I I I 5 I I I I I 6 I I I I I I I I I I I I I I N1il 8 120 _ 1.10 100 ° 0 90 U 0so ° 070 c 060 ° 0.50 U 0.40 030 100 1000 10000 100000 100.0 950 90.0 o` 850 -6 o eo.o o 750 I 700 65.0 60.0 550 500 100 1000 10000 100000 Date I J�otb Nu}m�ber TALBELT&BLIGHT, INC. Checked by Date �t��t mber For Backchecked by Date 4810 Shelley Drive Phone: 910.763.5350 Wilmington, NC 28405 Fax: 910.762.6281 Website: www.talbertandbright.com de by Date TALBERT&BRIGHT, INC. 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WAM avuERrz 4/I5/0 F. .10-152-Aam PxCRc elo-�erssw Rcv. NM CAM Dua mumanrml B REVISIONS LOCATION REFERENCE PUNT O CENTER OF MANHOLE - BAFFLE WALL USED TO BYPASS LOW FLOW STORMWATER CONSTRUCTED WITH 8"X8"XI6" CONCRETE BLOCKS TO BE GROUT FILLED AND PARGED WITH /2 MORTER-3/4" TOTAL THICKNESS TOP ELEV. 70' NEENAH R-2565-F FRAME AND SCUD LID RIM 8.75 INV G( 18' RCP a a a PLAN VIEW BAFFLE WALL TOP ELEV 7.0' PROPOSED 12' PVC INV 6.05 •' • 12' e. G SECTION A —A DRAINAGE STRUCTURE 1 zt 4' DIA PRECAST DRAINAGE STRUCTURE 6 05 #57 STONE 12" DEEP MIN LOCH CENTI PLAN VIEW NEENAH R-2565-F FRAME AND SOLD LID RIM 8.5 INV 562 24' RCP WALL USED TO BYPASS OW STORMWATER IUCTED WITH 8'XB'X16' TE BLOCKS TO BE FILLED AND PARGED 2 MORTER-3/4' TOTAL ESS EV. 7.0' STA' GEESE STA: OFFSET: aDRAINAGE NOTES: 1 PIPE SHALL BE CLASS III EFABRICED CONCRETE PIPE WTH PLASTIC GASKET TYPE JOINTS EACH STOSHP DBEI F11 Q d LRM JOINT WRAPPED PPED WTH A GEOTEXTILE 2. THE UNIT PRICES FOR ALL DRAINAGE PIPE AND STRUCTURES SHALL INCLUDE EXCAVATION, DEWATERING AS NEEDED, G /57 STONE BEDDING. AND SAND BACKFIL_ MM n 1. ALL DRAINAGE STRUCTURES SHALL CONFORM TO SPECIFICATION ITEM D-751, THE REOUIREXENTS OF THESE NOTES W O g AND DETAILS Z 4L CIRCUTAR PRECAST STRUCTURES AS DETAILED ON THESE PLANS SHALL CONFORM TO AASHTO M199/ASPA r/.AT "� C4ANDARD S 5 SHOP DRAWINGS: CONTRACTOR SHALL SUPPLY SHOP DRAWINGS FOR ALL STRUCTURES INCLUDING GRATE AND FRAME, 'd AND A BILL OF MATERIALS FOR REINFORCING STEEL INCLUDING BAR SIZE. LENGTH. AND BENDING DIMENSIONS THE O SHOP DRAWINGS AND STRUCTURAL COMPUTATIONS, PREPARED AND SEALED BY A PROFESSIONAL ENGINEER. SHALL HE W SUBMITTED FOR APPROVAL PRIOR TO FABRICATION OF STRUCTURES. e 6 CONTRACTOR SHALL VERIFY DIMENSIONS PRIOR TO ORDERING FRAMES AND GRATES. ANY DISCREPANCIES SHALL BE 1--1 U COORDINATED WITH THE ENGINEER L J. FOR ALL PRECAST CONCRETE STRUCTURES, THE CONTRACTOR WILL BE REWIRED TO SUBMIT DESIGN CALCULATIONS ul Y AND DESIGN PREPARED AND SEALED BY A PROFESSIONAL ENGINEER PRECAST CONCRETE STRUCTURES SHALL BE DESIGNED FOR H2O LOADING B ALL PIPE -TO -PRECAST STRUCTURE JOINTS SHALL BE MADE USING BRICK AND MASONRY BLOCK IN CONJUNCTION WITH MORTAR TO FILL THE VOID BETWEEN PIPE CULVERTS AND PRECAST STRUCTURES. SUCH MATERIALS SHALL BE n TIROUGHLY WETTED AND BONDED WITH MORTAR. THE REMAINING EXTERIOR AND INTERIOR VOID SHALL BE FILLED WITH MORTAR TO THE CONTOUR OF THE PRECAST STRUCTURE. _ PLAN VIEW PROPOSED 12' PVC INV 5.62 ELEV. J 0' 4DIA PRECAST DRAINAGE STRUCTURE 3.1 31 V 5.0 SEDIMENT =LEAN11THMARK ELEV ST SECTION A —A BAFFLE WALL TOP ELEV 70' A ...�.. �... �. _.. _ _... _ __ ... -INV 562 1B' RCP mm ,.r. ..�..r. r. r..r,..r..r • • • I I • I I • • I I•. Irl pti, a ALL SIDE SLOPES OF INFILTRATION BASIN SHALL BE STABIUZED VATH VEGETATION IN ACI WITHft�p WECT SPECIFICATIONS T-901 AND T-908. ELEVATION AREA VOLUME 5.0 5,000 SF 5,822 CF 6.0 6,656 SF 7,514 CF 7.0 8,384 SF r �ESS'41.. 9; E SEA 026896 +.FNCINEE�%.i MI. RMi11AN. 2MM5 xm. A$ 410W1 Wo. PSC >-k. JMM R.p l Nw Tbl-OJ(X SNee\ Nu 6 31VO5 O1 ION Z dlalS N31113 V—V N01103S H3110 ONLLSIX3 dilaS N3111i N30V38d 13A31 3ALLVL303A 30W ,64 313NJNSJ ,4Z ,Of S ,4S S .OS ,4S S S3J SL C M31A NVId 3NIINRN33 H3110 ONLLSIX3 D T T T T T T T T T T T T m T T T T T T T T T T T T T T T T T dIN1S N31113 3ALLtl13 m T T T T T T T T T .OST T T T T T T T T T T T T T T T T T T T T T T T T T 133HS SIH1 11V130 33S T T T T T T ,46 9 A313 d01 630V38d 13A31 M380WO T T T T T T ,04'9 J,313 64 --. St X ,S NOLLJ3108d 131100 dVHdIN 0 31VOS 01 lON l dlN1S b3l-lld V—V N01133S H3110 ONLLSIx3 d1N15 N31lld N30tl3Nd5 13A31 3ALLV13O3A 30W ,9f 313NJNOJ .4Z eo '03UI33d WUVAA13 3H1 1V 13A31 39 TVHS M38ONO3 30 d01 SNOLLVOHI03dS lOT08d 3H1 d0 019-d 30 S1N3N38I0038 3H1 ONLL33N M380WO HIM 11U OW d330 JZ A9 30W .9 HON381 130NLSNOJ llVHS 801OVaNOJ 31VOS 01 ON 1IV130 N34V38dS 13A31 o 4Z D d(&S N3111d 3ALLVA3O 1 1 9 .ffi S J S./_- MIA NVId 3NCI631N33 H31I0 ONNSIX3 T T T T m T T T T T T T T T T T T T T T T T T T T T T T T T ,sa T dIN1S N31113 31LLtl13OAA T T T T T T T T T T T T T T T T T T m T T T T T T T T T 133H5 SIH1 1IV130 335 .f A313 d01 N30V3Nd5 13A31 31363NOJ T T m T ,09'9 A313 T T T T ,9f St X ,S N01133108d 1311H0 dVNdIN i S I % METER ELECTRICAL BASE 1 TRANSFORMER JI•-', EXISTING .TAXIWAY .,'r:._ PPr / ../w. .I EX STING .. /TAXIWrAY. iTABIIJZED CONSTRUCnON / ENTRANCE /— ACCESS ROAD ---------- I I I I I rJl 0 EXISTING FENCE m UMITS OF DISTURBED C — — I AREA (2.9O,AC) m GRAVEL LEGEND EXISTING PAVEMENT EXISTING CONTOUR 9 PROPOSED PAVEMENT EXISTING BUILDING PROPOSED BUILDING TEMPORARY SILT FENCE -0v SF CUTLET PROTECTION O CHECK DAM CD CULVERT INLET PROTECTION CIP SEOUENCE OF CONSTRUCTION L ESTABLISH STAGING AREA 2 CONSTRUCT NECESSARY ACCESS ROADS AND INSTALL ENGINEER'S FIELD OFFICE, INCLUDING UTILITY CONNECTIONS 3 INSTALL TEMPORARY EROSION CONTROL MEASURES AS INDICATED ON THE PLANS OR AS DIRECTED BY THE ENGINEER COMMENCE SITE STRIPPING AND EARTHWORK ACHVHTES 5 COMMENCE INSTALLATION OF DRAINAGE PIPE AND STRUCTURES CO NOT INSTALL BAFFLE WALL IN STRUCTURE AND INSTALL TEMPORARY PLUG ON 12-BYPASSFNE U, LSNEISSTABIIJZED 6 UPON COMPLETION OF EARTHWORK ACTIVITIES, PLACE AND COMPACT AGGREGATE BASE COURSE AND APPLY PRIME COAT ON FINISHED AGGREGATE SURFACE ] PERFORM SEEDING ANDMULCHING ON ALL DISTURBED AREAS TO ESTABLISH A GOOD STAND OF GRASS 8 COMMENCE CONSTRUCTION OF HANGAR BUILDING FOUNDATIONS AND SLAB 9 COMMENCE CONSTRUCTION OF HANGAR BUILDING 10 BEGIN PAVEM ENT REMOVAL OPERATIONS, SAW CUT PAVEMENT EDGES AS REQUIRED 11 BEGIN PAVING OPERATIONS IMMEDIATELY AFTER PAVEM ENT REMOVAL OPERATIONS ARE COMPLETE 12 COMPLETE HANGAR BUILDINGS * COMPLETE SHOULDER GRADING ACTIVITI ES ADJACENT TO NEWLY CONSTRUCTED PAVEMENT N CONSTRUCT BAFFLE WALL IN DRAINAGE STRUCTURE REMOVE PLUG FROM 12- PIPE AND REMOVE SEDIMENT ACCUMULATION FROM BOTTOM OF CVFILIRKMON BASIN AND 15 PLACE COAL TAR EMULSION SEAL COAT ON APRON ONCE NEW PAVEMENT HAS HAD ADEQUATE TIM ETO CURE IN ACCORDANCE WITH SECTION P-625 OF THE PROJECT SPECIFICATIONS 16 ONCE SEAL COAT OPERATIONS ARE COMPLETE, COMPLETE PAVEMENT MARKING 17 REMOVE ALL HAUL ROADS, ALL MISCELLANEOUS EQUIPMENT. STOCK FILM DEBRIS ETC FROM PROJECT AND PLANT SITE STAGING AREA 18 RESTORE ALL DISTURBED AREAS AND COMPLETE SEEDING AND MULCHING OPERATIONS ONALL DISTURBED AREAS THROUGHOUT PROJECT 19 REMOVE ALL TEM PORARY EROSION CONROLMEASURES SILT FENCE / I 17+00 N 2 Z o N Q, z N O \ Q O Q J ¢ CO w Z Z J O a Z O O lkf / e z d N F ..1..—' 0Q Fa-- OZ a 3 Z U 3 X w W m o H Of w Q TA 0 z Q ,,ggtiH..GR 'fCSsiq.;};1"t`; SEAL 026696 _- tf P+ 't'CINEf;.r- fMxSZ+' Cafe �•••• \�� /�� RBRUApY iCCB I.�b. 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Y N ^S $ PgP 9 m 509 Om u � m z 4 9 S R, 8 ,,m•••°•••,.,• DARE COUNTY REGIONAL AIRPORT ° a c. •••••••.. jJ PR4''' x MANTEO, NORTH CAROLINA T A T D En T ,C_ BRIGHT 1 !'11. LJ 1\ 1 lJl 1J L�1 V 1 1 1 ,^ k i ie F� mm N;�e HANGAR TAXIWAYS AND HANGARS - PHASE II eNcINeenmcarm.NNiNc consuLrnvrs � v 4 • i in e F i A smiNa cancAnons DAseo a+ nmenR ss t? AA .10 NELLE, M. wn ..W ec xnws cauucurs DATE 0 - ••``>' •"•-'^' .••` SEDIMENTATION AND EROSION rA% sio-xax-exm Rnwc s�oaeo-vso Rev, Na MCRIPnON DATE g,,,,,,,,,,,,,,,,, euu� xeI°A.1L. a>I REVISIONS 8 CONTROL DETAILS