API 575 Study Guide API 653 Cert Prep This following is a study aid that you can use to help you learn the details and content of API RP-575, Inspection of Atmospheric and Low-Pressure Storage Tanks (2 nd Edition). There will be about 15-30 questions from this document on the API 653 exam. We do not spend much time time in class discussing this publication. So it is important that you become familiar with this content in your personal study sessions. sess ions. The questions in this study aid are in the same order order as API 575. The answer key is in the back of this guide. When you study API 575, read a number of pages and then answer the corresponding questions. You want to keep practicing this study guide until you can score 80+%. Open book questions are highlighted in yellow.
Section 2 Description of Code
Code
1
Old Code used to build riveted tanks
2
Construction code for low-pressure tanks
3
Construction code for atmospheric tanks
4
Cathodic protection of tanks
5
Tank linings
6
Tank venting
7
Safety precautions for tank entry (2 codes)
8
UL tank Construction code
MSTS
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API 575 Study Guide API 653 Cert Prep
Section 3 1.
The generic definition of atmospheric pressure is pressures up to: a. b. c. d.
0.05 psig. 0.5 psig. 2.5 psig. 15 psig.
Section 4 1.
The inspection guidelines of API 572 should be followed when the operating pressure exceeds: a. b. c. d.
2.
As the product temperature increases, the product’s vapor pressure: a. b. c. d.
3.
0.0 psig. a few ounces of pressure. 2.5 psig. 15 ounces of pressure. 15 psig.
While in operation, which tank type roof is supported by internal members? a. b. c. d.
MSTS
decreases. decreases only if specific gravity is less than 1.0. increases. increases only if specific gravity is less than 1.0.
A pressure-vacuum vent is installed on a tank. The PV vent will ensure that the inside pressure or inside vacuum does not exceed: a. b. c. d. e.
4.
0.05 psig. 0.5 psig 2.5 psig 15 psig.
Cone roof Dome roof Floating roof Umbrella
2
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API 575 Study Guide API 653 Cert Prep 5.
Fixed-roof tanks are often self-supporting when tank diameter does not exceed: a. b. c. d.
6.
Which of the following is not an advantage of a geodesic dome roof? a. b. c.
7.
Foam log Mechanical shoe Wiper
Why are internal floating roofs sometimes used? a. b. c. d.
MSTS
Double-deck Pan Pontoon
Which is the most common type of floating-roof seal? a. b. c.
11.
Double-deck Pan Pontoon
Which type of external floating-roof is the least susceptible to sinking? a. b. c.
10.
Less affected by severe weather Less expensive Less maintenance issues Minimizes vapor emissions
Which type of external floating-roof is the most susceptible to sinking? a. b. c.
9.
Low cost roof Keeps snow and rain off of an internal floating roof Can be used on any size of tank
What is the primary reason for using a floating roof instead of a cone roof tank? a. b. c. d.
8.
20 feet. 40 feet. 60 feet. 100 feet.
Lowers construction costs Reduces vapor loss Minimizes effects of weather (rain & snow) Either reduces vapor loss or minimizes effects of weather (rain & snow)
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API 575 Study Guide API 653 Cert Prep 12.
Which of the following floating roofs is normally not constructed from steel? a. b. c. d.
13.
Low-pressure storage tanks are those with a design pressure from: a. b. c. d.
14.
-60 to 40 oF. -50 to 32 oF. -100 to 0 oF. -270 to -60 oF.
Hemispheroidal, spheroidal, and noded spheroidal tanks are commonly used when the design pressure exceeds: a. b. c. d.
MSTS
-60 to 40 oF. -50 to 32 oF. -100 to 0 oF. -270 to -60 oF.
API 620 Appendix Q provides design rules for refrigerated tanks with design temperatures between: a. b. c. d.
17.
high vapor pressure. low vapor pressure. high specific gravity. low specific gravity.
API 620 Appendix R provides design rules for refrigerated tanks with design temperatures between: a. b. c. d.
16.
0.0 - 0.05 psig. 0.05 – 2.5 psig. 2.5 – 15 psig. 5.0 – 25 psig.
Low-pressure storage tanks are normally used for products that have a: a. b. c. d.
15.
Double-deck Internal on floats Pan Pontoon
2.5 psig. 5.0 psig. 10.0 psig. 125.0 psig
4
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API 575 Study Guide API 653 Cert Prep
Section 5 1.
Which of the following codes is not a tank inspection code: a. b. c. d.
2.
A tank pad is installed with cinders. What chemical in the cinders can cause bottom-side corrosion when the pad gets wet? a. b. c. d. e.
3.
MSTS
Clay or wood left in sand pad Faulty installation of sand pad Improperly sealed ring wall Leaking product that is corrosive Operating temperatures below 200 oF Poor drainage in tank area
In order to prevent bottom-side corrosion, which of the following is not recommended? a. b. c. d.
5.
Chlorides Iron Kryptonite Silicon Sulfur
Which of the following is not a common cause of bottom-side corrosion on a tank floor? a. b. c. d. e. f.
4.
API RP 12R1 API 653 STI SP001 UL-142
Asphalt-impregnated fiberboard on top of ring-wall Operating a tank at temperatures above 200 oF Install sand pad using specified ASTM materials that is 3-4” thick Installing tank foundation 12” above grade of area inside tank dike
What are two common causes of severe external corrosion at the bottom of the lower shell course? a.
_____________________________________ ___________________________ __________
b.
_____________________________________ ___________________________ __________
5
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API 575 Study Guide API 653 Cert Prep 6.
7.
What are three types of atmospheres that can cause external atmospheric corrosion? a.
_____________________________________ ___________________________ __________
b.
_____________________________________ ___________________________ __________
c.
_____________________________________ ___________________________ __________
Concentration cell corrosion may occur in the many niches of: a. b. c. d. e.
8.
Most tanks are made from which metallurgy(s)? a. b. c. d. e.
9.
10.
Carbon steel Chromes Carbon steel or chromes Kryptonite Austenitic stainless steel
What are three common vapors that cause corrosion in a tank’s vapor space? a.
______________________________ ___________________________ ___
b.
______________________________ ___________________________ ___
c.
______________________________ ___________________________ ___
Generally in the liquid portion of a tank, internal corrosion is worse at the: a. b. c.
MSTS
cone roof tanks. internal floating roof tanks. low-pressure tanks. riveted tanks. small diameter tanks.
bottom of the tank. top of the liquid. welds.
6
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API 575 Study Guide API 653 Cert Prep 11.
Which of the following tank products does not cause stress corrosion cracking? a. b. c. d.
12.
Which welds on a tank are most susceptible to stress corrosion cracking? a. b. c. d.
13.
acids. chlorides. hydrocarbons. sulfides.
Horizontal uninsulated cylindrical tanks can sometimes experience accelerated external corrosion on: a. b. c. d. e.
MSTS
High design temperature Increased strength Lower cost Maintain product purity
Stress corrosion cracking of austenitic stainless steels can occur in the presence of: a. b. c. d.
15.
Bottom fillet welds Horizontal shell welds Nozzle-to-shell welds Roof fillet welds
Occasionally a tank will be built with alloy materials. Which of the following is a common reason for selecting alloys to build a tank? a. b. c. d.
14.
Benzene Caustic DEA Ethanol
heads. longitudinal welds. nozzles. saddle-to-tank interface. shell-to-roof weld.
7
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API 575 Study Guide API 653 Cert Prep 16.
What type of tank failure has occurred in the past that results in a sudden and complete loss of the product? a. b. c. d.
17.
Which tank weld is most likely to have a leak that is the result of a weld defect? a. b. c. d.
18.
Bottom fillet welds Bottom-to-shell weld Horizontal shell weld Roof-to-shell weld Vertical shell weld
A tank experiences excessive uniform tank settlement. Which area of the tank tank is most likely to be over-stressed? a. b. c. d.
MSTS
Around rivet holes Bracket welds Nozzle welds Roof fillet welds
What weld is most susceptible to cracking in a hot tank? a. b. c. d. e.
21.
Bottom fillet welds Bottom-to-shell weld Horizontal shell welds Vertical shell welds
In which of the following areas are cracks least likely to occur? a. b. c. d.
20.
Annular plate butt welds Bottom fillet welds Horizontal shell welds. Three-plate lap welds
In which of the following welds are cracks most likely to occur? a. b. c. d.
19.
Brittle failure Failure at extensive deep pitting Failure at a localized thin area Thermal fatigue
Nozzles Horizontal shell weld Roof-to-shell weld Vertical shell weld
8
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API 575 Study Guide API 653 Cert Prep 22.
Which of the following is not a common cause of tank settlement? a. b. c. d.
23.
Pressure-vacuum vents and flame arrestors can fail to operate for a variety of reasons. Which of the following is not a cause? a. b. c. d. e.
24.
Corrosion rate from tanks in similar service Corrosion rate from an API or NACE document Corrosion rate from a corrosion probe or coupon placed inside the tank Corrosion engineer’s estimated corrosion rate
Which tank component normally controls the tank’s internal interval? a. b. c. d.
MSTS
mandatory for all tanks. mandatory only on low-pressure storage tanks. considered a "memory jogger" for the inspector.
Which of the following can be used to determine the corrosion rate of the tank bottom? a. b. c. d.
27.
can cause the roof to sink. can cause excessive tank settlement. will significantly increase the stress in the shell. will increase the water in the bottom of the tank.
The inspection checklists listed in API 653 Appendix C are: a. b. c.
26.
Deposits by birds or insects (poop, mud, etc.) Corrosion between moving parts Fouled Ice in cold climates Product specific gravity is increased
A plugged floating roof drain: a. b. c. d.
25.
Frequent freezing and thawing High tides in tidal areas Marshy areas Venus and Mars are aligned with a full moon
Bottom Nozzles Roof Shell
9
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API 575 Study Guide API 653 Cert Prep 28.
Similar service is being used to determine the corrosion rate for a tank bottom. Which of the following statements is true? a. b. c.
29.
Bottom side and top side corrosion rates should be determined independently. Soil-side corrosion on a tank bottom can vary from negligible up to rates approaching: a. b. c. d.
30.
Hydrogen Lead Mercury Pepper Salt Sugar Sulfur
Corrosion rates on a tank bottom will increase if the: a. b. c. d. e.
MSTS
5 mils per year. 10 mils per year. 15 mils per year. 20 mils per year.
What is one common component in BS&W (bottom sediment & water) that increases its corrosiveness? a. b. c. d. e. f. g.
31.
Use the bottom corrosion rate for a tank with exactly the same product. Use an average bottom corrosion rate from several tanks with similar product. Use the bottom corrosion rate for a tank built at exactly the same time period.
fill height is increased. operating temperature decreases. operating temperature increases. tank service is changed to a product with a lower specific gravity. tank service is changed to a product with a higher specific gravity.
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API 575 Study Guide API 653 Cert Prep
Section 6 1.
External CP should be: a. b. c. d. e.
2.
Which document provides additional guidance on inspecting tank appurtances and accessories? a. b. c. d.
3.
practically no stress over the entire floor. practically no stress in the floor away from the shell. equal stresses in floor and shell plates. equal stresses that are equal throughout the shell.
On a 120 foot diameter tank the: a. b. c. d.
MSTS
should never be less than ½”. considers only the specific gravity of the product. considers only the specific gravity of the hydrotest water. considers both the specific gravity of the product and the hydrotest water.
The product in a tank creates: a. b. c. d.
5.
API 652 API 2610 NACE 45R96 STI-008
For new tanks built to API 650, the minimum new thickness: a. b. c. d.
4.
installed on all new tanks. installed on all tanks that are built on a sand pad. installed per API 2015. checked per API 651. checked per NACE CP-005.
pressure is highest at the bottom of the shell. highest stresses are in the tank floor. shell plates will be the same thickness on each course. nozzles flanges should Class 300.
11
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API 575 Study Guide API 653 Cert Prep 6.
A large area on a shell course is corroded corroded below acceptable limits. Which of the following is not an acceptable option? a. b. c. d.
7.
An isolated deep pit in the shell: a. b. c. d.
8.
11.
designed per AISC’s Steel Construction Manual. designed per API 650. made from 3/16” steel. made from pipe.
The two primary factors of risk are: a.
___________________ of failure.
b.
___________________ of failure.
Which of the following is not a normal outcome from an RBI assessment? a. b. c. d.
MSTS
annular plates. floor plates. nozzles. shell plates.
Roof supports are normally: a. b. c. d.
10.
does not appreciably weaken the shell. must always be repaired. never needs to be repaired. Should be evaluated per API 580.
Neither API 650 or API 653 have a method for determining the minimum required thickness of a tank’s: a. b. c. d.
9.
Replace the corroded area Lower the fill height Change to a product with a lower specific s pecific gravity Coat the corroded area with a lining
When to inspect Where to inspect NDE technique(s) to use during the inspection Qualification requirements for individual performing the inspection
12
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API 575 Study Guide API 653 Cert Prep 12.
Guidance on how to perform an RBI assessment can be found in: a. b. c. d. e.
13.
API 579. API 580. API 581. API 579 or API 580. API 580 or API 581.
Which document can be used during fitness for service assessments? a. b. c.
API 579 API 580 API 581
Section 7 1.
Safety precautions dealing with tank entry are discussed in: a. b. c. d.
2.
Inspection paint or crayon markers used on SS should be free of: a. b. c. d.
3.
lock out all pumps near the tank. check condition of overhead structures inside the tank. review the API 653 Appendix C checklist. take external UT readings on the shell.
Prior to entering a floating roof tank, be sure to: a. b. c. d.
MSTS
bromides. chlorides. oxides. sulfides.
Prior to entering a tank, be sure to: a. b. c. d.
4.
API 2015 & 2016 API 2201 API 2601 USDA 4601
check that there is not a significant amount of liquid on the roof. review tank entry guidelines specified in API 579. review the API 653 Appendix C checklist. take external UT readings on the roof.
13
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API 575 Study Guide API 653 Cert Prep 5.
Prior to conducting a tank inspection, the inspector should: a. b. c. d.
6.
Anchor bolts may be subject to what type of degradation? a. b. c.
7.
drilling a drain hole. replacing the platform. adding additional support to “cone-up” the platform. pl atform. removing the platform and providing a rope to hang on to.
The external joint between the tank floor plate extension and a concrete foundation should be: a. b. c. d.
MSTS
UT. UT or RT. MT or PT. scrapper or hammer.
Low spots on a platform that collect water are routine places for corrosion to occur. This can be simply solved by: a. b. c. d.
10.
angle iron. bars t-bars tubular
Crevices in structural members should be checked with: a. b. c. d.
9.
calcining corrosion/erosion crevice corrosion
Which handrail member should be given special attention? a. b. c. d.
8.
read previous inspection records. obtain an API TES certification. obtain an API 650 certification. determine the shell joint efficiency.
covered. grouted. insulated. sealed.
14
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API 575 Study Guide API 653 Cert Prep 11.
Anchor bolt corrosion below the nut can be checked by using: a. b. c. d.
12.
Tank grounding connections should be checked: a. b. c. d.
13.
Blister Bonding failure Holiday Graffiti
Paint blisters occur most often on which of the following tank parts? a. b. c. d.
MSTS
API 651 API 2003 API 2015 API 2201
Which coating problem is the most difficult to detect? a. b. c. d.
16.
5 ohms. 25 ohms. 50 ohms. 250 ohms.
Which document provides information concerning the use of tank grounding to prevent static electricity? a. b. c. d.
15.
per API 651. per API 2601. with an ammeter. visually.
The resistance in tank grounding should not exceed: a. b. c. d.
14.
acoustic emission. eddy current. hammer testing. RT.
Plate extension Nozzles Roof Shady side of the tank
15
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API 575 Study Guide API 653 Cert Prep 17.
Paint blisters occur most often on which of the following tank parts? a. b. c. d.
18.
A tank is insulated. Where is a likely spot for external shell corrosion? corrosion? a. b. c. d.
19.
At the bottom Near the top Below a horizontal weld seam There is not a typical location for external shell corrosion
Which of the following is not a cause of corrosion at the bottom of a tank shell? a. b. c. d.
MSTS
10 - 350 oF. 50 - 150 oF. 120 - 200 oF. 180 - 250 oF.
Where is a typical place for external corrosion on a tank shell? a. b. c. d.
22.
Acoustic Emission or Neutron back-scatter Acoustic Emission or EMAT Guided wave UT or EMAT Thermography or Neutron back-scatter
CUI in carbon steel is most aggressive at a temperature range of: a. b. c. d.
21.
Nozzles Shady side of the tank Sunny side of the tank Top of the tank
What technique(s) can be used to evaluate condition of insulation by finding insulation hot spots? a. b. c. d.
20.
Anchor bolts Paint under insulation Nozzles Side of the tank with the most sunlight
Build-up of soil on shell Build-up of some foreign material on shell Leakage of a corrosion product Spalling of concrete ringwall
16
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API 575 Study Guide API 653 Cert Prep 23.
Rigorous hammer testing of the shell should: a. b. c. d.
24.
The upper shell of a floating roof tank has the potential for atmospheric corrosion on both sides. On floating roof tanks with uncoated shells, special attention should be given to the shell on the upper: a. b. c. d.
25.
MT with prods MT with yoke and dry particles MT with yoke and wet particles PT
A tank is in caustic service. A very common place place for caustic cracking cracking is at: a. b. c. d.
MSTS
hammer tested. visually inspected. hammer tested and visually inspected. not inspected.
If a crack is found in a wind girder, which technique should not be used to determine the extent of cracking? a. b. c. d.
28.
Remove the coating at the UT location Subtract the thickness of the coating from the UT reading Use a multi-echo thickness scope Let someone else take the reading!
Stiffeners and wind girders are normally: a. b. c. d.
27.
12”. 24”. 36”. shell course.
What is the best way to take UT thickness readings through a thin-film coating? a. b. c. d.
26.
never be done. never be done on a tank that is in service. be done by a ASNT technician. be done to stress relieve the hammer tester!
vertical shell welds. nozzle to shell welds. bottom-to-shell weld. connections for internal heating units.
17
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API 575 Study Guide API 653 Cert Prep 29.
Caustic and amine SCC shows up as: a. b. c. d.
30.
Caustic that seeps out of a tank crack will appear as a: a. b. c. d.
31.
external. internal. external or internal. roof.
Hydrogen blistering is most easily found by using: a. b. c. d.
MSTS
bottom and shell. nozzles. roof and shell. heating coils.
Hydrogen blistering occurs on the tank’s: a. b. c. d.
34.
Additional cracking Arc blow Creation of pyrophoric iron Small fire
Hydrogen blistering is most common on the tank’s: a. b. c. d.
33.
brown oxide. green goo. red deposit. white salt.
During an inspection of a caustic tank, cracking has been found at a couple of nozzles. The inspector develops a repair plan to weld these cracks. If the metal in the repair area is not thoroughly cleaned and neutralized what might occur during welding? a. b. c. d.
32.
external cracks. internal cracks. external pits. internal pits.
hammer testing. RT. UT scan. visual and by touch.
18
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API 575 Study Guide API 653 Cert Prep 35.
Hydrogen blistering can easily be found on the shell by: a. b. c. d.
36.
Which of the following is not evidence of a tank shell leak? a. b. c. d.
37.
MT PT RT UT
How can rivets be checked for tightness? a. b. c. d.
MSTS
Bottom-to-shell weld Horizontal shell welds Shell-to-Roof weld Vertical shell welds
When cracking is suspect in an area of tank deformation, which NDE is preferred? a. b. c. d.
40.
Defective vent Earthquate Exceeded product fill height Settlement Wind
Which of the following welds is least likely to crack as the result of tank deformation? a. b. c. d.
39.
Bulge on the shell Paint is missing Puddle of product at base of the tank Shell discoloration
Which of the following is not a cause of tank deformation? a. b. c. d. e.
38.
holding a flashlight within 24” perpendicular to the shell. holding a flashlight against the shell with the beam parallel to the shell. UT A-scan. MFL scan.
By lightly tabbing one side and holding a finger on the opposite side UT straight beam UT shear wave Visually
19
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API 575 Study Guide API 653 Cert Prep 41.
A suitable means of determining the overall integrity of the roof is: a. b. c. d.
42.
Hammer testing the roof: a. b. c. d.
43.
d.
that the tank be high gauged. stay on top of the pontoons. to have two individuals on the roof at the same time. sneak a smoke!
A floating roof tank is in a volatile service and is half full. Which of the following is a requirement when walking on the floating roof? a. b. c. d.
MSTS
in the center of plates. on the weld seams. only if the roof thickness was verified with a few random spot UT readings. lightly.
A floating roof tank is in a volatile volatile service. When walking on the floating roof, it is advisable: a. b. c. d.
46.
2 rafters. 3 rafters. 10 ft. 20 ft.
When walking on a roof, it is advisable to walk: a. b. c.
45.
is an adequate means to determine if the roof will support personnel. might knock roof scale into the product. is a suitable substitute for UT roof scans. should be done with a 4 lb hammer.
Planks used as a walkway on the roof should span at least: a. b. c. d.
44.
hammer testing. hammer testing or MFL. UT examination or hammer testing. UT examination or MFL.
Only walk on planks. Perform a couple of spot UTs on the roof prior to walking on the roof. Personnel on the roof must wear respiratory equipment. Personnel on the roof must be tied off to the shell.
20
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API 575 Study Guide API 653 Cert Prep 47.
If the maximum operating level is exceeded on a floating roof tank: a. b. c. d.
48.
A blocked roof drain on a floating tank can cause: a. b. c. d.
49.
d.
the displayed reading is twice the actual thickness reading. at least two UT readings are taken at each TML. the thickness of the over-lapped portion of a fillet weld is twice the measured thickness. the UT instrument takes both thickness and temperature measurements.
The soil-to-air corrosion corrosion can affect tank farm piping. To check for soil-to-air corrosion, the soil around the pipe should be dug away for: a. b. c. d.
MSTS
roof seams. roof depressions. the roof-to shell weld. rafter locations.
Doubling of an UT instrument is when: a. b. c.
52.
excessive hoop stresses on the tank shell. deformation of the roof pontoons. water to accumulate on in the bottom of the tank. severe roof damage.
External roof corrosion is most common at: a. b. c. d.
51.
excessive hoop stresses on the tank shell. deformation of the roof pontoons. water to accumulate on in the bottom of the tank. the roof to sink.
A floating roof is sitting on its legs. A blocked roof drain on on a floating tank can cause: a. b. c. d.
50.
excessive tank settlement will occur. the stresses on horizontal welds will exceed that allowed by the code. the seal may be damaged. the roof drain will probably be damaged.
6 – 12 inches. 12 – 24 inches. 18 – 36 inches. 6 – 8 ft.
21
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API 575 Study Guide API 653 Cert Prep 53.
Which of the following is a potential cause for significant distortion of pipe connected to the tank? a. b. c. d.
54.
Which of the following is a potential cause for significant distortion of pipe connected to the tank in colder climates? a. b. c. d.
55.
Bees, mud daubers or insects Corrosion build-up Tank over pressure Solidification of tank vapors
Which of the following is not a problem that can occur if a flame arrestor gets plugged? a. b. c. d.
MSTS
Excessive internal corrosion Internal caps melt Internal screens get plugged Incorrect flange class is use
Which of the following is not a common way for flame arrestors to get plugged? a. b. c. d.
58.
Must examine entire distorted area with UT scan Must examine entire distorted area with PT Clean and examine the distorted area for cracks Clean and examine the distorted area for thinning
What is a common problem for flame arrestors? a. b. c. d.
57.
Frost heave of pipe supports Over filling the tank Nozzle corrosion Thinning of shell
What should be done if there is significant distortion discovered at a nozzle? a. b. c. d.
56.
Excessive tank settlement Over filling the tank Nozzle corrosion Undersized flange class
Floating roof sucks in Tank over pressures Tank roof-to-shell weld fails Tanks sucks in due to vacuum
22
August 2012
API 575 Study Guide API 653 Cert Prep 59.
When inspecting a pressure-vacuum vent, which of the following is not something that needs inspected? a. b. c. d.
60.
What is a reliable method for checking the floor for soil-side corrosion? a. b. c. d.
61.
The tank will probably need to be hydrotested The foundation will need to be spark tested This repair must be approved by the inspector and engineer The concrete used in the repair should not slump more than 1-1/2”
The owner elects to tunnel under a tank to see a portion of the bottom side of the tank. What is the primary problem with tunneling? a. b. c. d.
MSTS
The technique requires little training Inexpensive to perform Significant portion of floor can be examined Thickness reading is highly accurate
A tank is lifted in order to repair the tank’s foundation. foundation. Based on this activity, activity, which of the following is correct? a. b. c. d.
64.
Lifting the tank Removal of a few floor coupons Robotic inspection Spot UT’s of a 36” grid
Which of the following is a primary advantage of the MFL floor scan? a. b. c. d.
63.
Lifting the tank MFL (magnetic flux leakage) Removal of a few floor coupons Spot UT
What is a useful method for checking the tank floor for soil-side corrosion? a. b. c. d.
62.
Check for the build-up of solids Check that moving parts are free to operate Check for corrosion Check vent sizing capacity
Cave-ins Difficult to compact the fill Interference with CP systems Increases the likelihood of soil-to-air corrosion
23
August 2012
API 575 Study Guide API 653 Cert Prep 65.
Which of the following is not a reason for lifting a tank? a. b. c. d.
66.
Which of the following is not a cause of internal roof corrosion? a. b. c. d.
67.
Corrosive product in the vapor space Pyrophoric iron Oxygen Water vapor
Sometimes roof coupons are cut out in order to check the condition of the roof rafters. Which of the following is correct when when cutting roof coupons? a. b. c. d.
68.
100% inspection of the soil-side of the tank floor Coat the bottom side of the floor Repair the foundation or pad Fillet weld the bottom seams on the soil-side
The activity must be approved by the engineer and inspector Coupons must be at least 6” x 6” Coupons must have rounded corners Replacement plate must be stitch-welded at least 1” in every 12”
If a floating roof drain gets plugged, the: a. b.
roof may sink. API 653 inspector will not get blamed. (and you believe in the Easter Bunny too!)
c. d. 69.
If there are leaks in a floating roof or the pontoons, which of the following is not likely to occur? a. b. c. d.
70.
The roof may sink. The roof may tilt and damage the seals and roof. The roof may tilt and turn upside down. More difficult to prep the tank for inspections.
Which of the following is not commonly installed on a floating roof? a. b. c. d.
MSTS
API 653 inspector will win the lottery. API 653 inspector will get a raise.
Cathodic Protection Drains Grounding Connections Guides
24
August 2012
API 575 Study Guide API 653 Cert Prep 71.
What is likely to occur to a floating roof tank that has landed on its legs and the drain is plugged? a. b. c. d.
72.
During an outage, the floating roof drain lines should initially be pressure tested for ½ hour. The test should normally be conducted conducted at: a. b. c. d.
73.
c. d.
This is such an important test, that a double check is needed. The joint may be self-sealing at low pressures, but leaks at high pressures. The joint may be self-sealing at high pressures, but leaks at low pressures. Just a good way to collect more inspection man-hours.
When walking on an aluminum internal floating roof: a. b. c. d.
MSTS
2.5 psig. 5.0 psig. 15 psig. 30 psig.
What is the reason for a 2nd pressure test of a drain that has a swing joint? a. b.
75.
2.5 psig. 5.0 psig. 15 psig. 30 psig.
If a drain line contains a swing joint, a second ½ hour pressure test should be conducted at: a. b. c. d.
74.
The roof collapses The roof sinks Excessive top side corrosion occurs The roof inspection will be performed with scuba gear!
add planking prior to walking on the tank. be sure to walk on the seams. take thickness readings prior to walking on the roof. Best to use rope access and suspend from the ceiling.
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August 2012
API 575 Study Guide API 653 Cert Prep 76.
Aluminum floating roof legs must be: a. b. c. d.
77.
Once it is safe to enter the tank, a preliminary inspection should first be conducted of the: a. b. c. d.
78.
floor and top-side of the rafters. rafters and bottom side of roof. nozzles (360 degrees). shell.
Pyrophoric material should be: a. b. c. d.
MSTS
cracking. general metal loss. ignition. pitting.
Pyrophoric material tends to collect on the: a. b. c. d.
81.
on the bottom. at the liquid-level line. inside nozzles. in the vapor space.
Dry pyrophoric material can cause: a. b. c. d.
80.
bottom. nozzles. roof and support system. shell.
Normally internal tank corrosion is least likely to occur: a. b. c. d.
79.
at least 0.250” thick. should be designed per API 620. should be avoided in tanks with non-aluminum bottoms. electrically isolated to from carbon steel to prevent galvanic corrosion.
air dried. kept moist. removed with a dry vacuum. removed per API 2201.
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August 2012
API 575 Study Guide API 653 Cert Prep 82.
Handling pyrophoric material is discussed in: a. b. c. d.
83.
In sour services, corrosion is often occurs in the: a. b. c. d.
84.
acid vapors. hydrogen sulfide. sulfidation. water on top of the acid that creates a weaker acid.
In tanks rarely used, like pipeline breakout tanks, corrosion often occurs: a. b. c. d.
MSTS
floor. top-side of the bottom. vapor space. vapor-liquid interface.
In a 98% sulfuric acid tank, corrosion often occurs at the vapor-liquid interface. This is the result of: a. b. c. d.
87.
chlorides. halogens. hydrocarbons. hydrogen sulfide.
In a 98% sulfuric acid tank, corrosion often occurs in the: a. b. c. d.
86.
floor. nozzles. shell. vapor space.
In sour services, corrosive vapors are formed when moisture and air mixes with: a. b. c. d.
85.
API 653. API 2015 & 2016. NACE 92-432. NACE 99-121.
behind the tank seal. inside nozzles. at the center of the floor. on the entire shell.
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August 2012
API 575 Study Guide API 653 Cert Prep 88.
Which carbon steels are the most susceptible to hydrogen blistering? a. b. c. d.
89.
Caustic stress corrosion cracking becomes prevalent in carbon steel when the temperature exceeds: a. b. c. d.
90.
grounding devices disconnected. floor sandblasted to a NACE 1 finish. floating roof legs placed at the low leg settings. scanning personnel tested to demonstrate their ability to use this equipment.
A statistical method is used to determine the probable minimum remaining thickness. Typically how much of the floor is scanned to gather info info for the statistical analysis? a. b. c. d. e.
MSTS
MFL (Magnetic Flux Leakage. MFL (Magnetic Flux Leakage) with UT follow-up in suspect areas. Spot UT with a statistical evaluation. Visual with a pit gauge.
Prior to performing a tank floor scan it is a good idea to have the: a. b. c. d.
92.
40 oF. 125 oF. 150 oF. 200 oF.
A common way to completely inspect a tank floor is by: a. b. c. d.
91.
Those with mill scale. Those with dissimilar materials. Those that are non-normalized. Those with laminations and slag inclusions.
0.2 – 5% 0.2 – 10% 5-10% 5-25% 10-25%
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API 575 Study Guide API 653 Cert Prep 93.
A statistical method is used to determine the probable minimum remaining thickness. What part of the floor should be included in the statistical analysis? a. b. c. d.
94.
Outer circumference by the shell An “X” pattern across the tank Samples around the tank not exceeding 32’ apart Center of the tank
When is a statistical analysis of a tank floor effective? a. b. c.
Tanks on pads that may have been contaminated with corrosion fluids Tanks with a Galvanic CP system Tanks on pads that have a number clay balls (thanks Tankees for tracking that in our part during installation!)
d. 95.
Pits depth can be estimated by use of a: a. b. c. d.
96.
only top-side corrosion on non-coated floors. only top-side & bottom-side corrosion on non-coated floors. only top-side corrosion on coated and non-coated n on-coated floors. both top-side & bottom-side corrosion on coated & non-coated floors.
MFL scanning equipment may miss: a. b. c. d.
MSTS
bulges. depressions. bulges or depressions bulges and depressions.
MFL scanning equipment is useful for finding: a. b. c. d.
98.
mechanical pencil. pocket knife. pocket ruler. thumb imprint in the pit.
Accelerated tank floor corrosion may occur at: a. b. c. d.
97.
Tanks on pads that have uniform consistency
uniform corrosion. bottom-side pits. small diameter pits. corrosion within 6” of a weld.
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API 575 Study Guide API 653 Cert Prep 99.
Which part of the tank shell is considered the highest stressed? a. b. c. d.
100.
One method to use when checking the shell for cracks is to put penetrant on one side of the shell and developer on the other. How long might it take to detect detect a crack? a. b. c. d.
101.
10 minutes 1 hours 4 hours 24 hours
One method to use to check a tank lining is: a. b. c. d.
102.
Shell near nozzles Shell-to-bottom area Shell-to-roof area Vertical welds
holiday testing. MFL. pressure test. statistical analysis.
Which of the following makes a very “bad day” for an inspector? (Note! If you miss this you are not ready for the API 653 exam.)
a. b. c.
During an internal inspection you find a bottom with absolutely no top-side corrosion. Reviewing tank settlement readings and finding that the whole tank has settled about 1/4” in uniform settlement. You calculate that the maximum corrosion rate on the shell is 0.0001 ipy. (yes 0.1 mpy)
d.
MSTS
You performed you first holiday test on a tank lining and found 537 “holidays”. Look what I found. Then someone points out that each of the holidays looks a bit “burned”, and then they explain that these 537 “holidays” are the result of you having the detector’s voltage set too high. You burned up a good lining. (should have read the directions) .
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API 575 Study Guide API 653 Cert Prep 103.
Which of the following methods should not be used on a glass-lined tank? (Note! Another question if you miss, don’t take the API 653 exam.) holiday testing. a. b. c. d.
104.
What type of lined tanks should be painted on the external with a unique color or stencil a warning to indicate they have a special lining? a. b. c. d.
105.
Eddy current Light hammer taps Hard hammer taps 16 lb. sledge hammer taps
Steam heating coils should be inspected using either RT or UT to detect: a. b. c. d.
MSTS
Corrosion throughout the columns Corrosion at the 30’ level, with a corrosion rate of 4 mils per year Corrosion at the 30’ level, with a corrosion rate of 8 mils per year Corrosion at the 30’ level, with an unpredictable corrosion rate
What is a good method to check the soundness of the roof’s structural members and check the tightness of roof bolting? a. b. c. d.
107.
All lined tanks Glass-lined Lead-lined Rubber-lined
A band of corrosion around the entire tank shell is found on a cone roof tank. The corroded band is about 30’ 30’ above the floor. The corrosion rate in this area is 4 mils per year (0.004 ipy). The roof support columns should also be inspected. What would you expect to see? a. b. c. d.
106.
Hammer testing Visual Visual Visual
build-up of internal deposits. caustic embrittlement. condensate grooving. hydrogen pitting.
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API 575 Study Guide API 653 Cert Prep 108.
A hydrotest is performed on a tank of high alloy. What is one major concern? a. b. c. d.
109.
Chloride stress corrosion cracking Dirt in the water that will settle on the tank floor Flange rating of the nozzle flanges Oxygen pitting in the vapor space
If substituting an air-test for a tank hydrotest the air pressure should not exceed: a. b. c. d.
2 inches of water. 2 ounces per square inch. 2 psig. Tank Roof! Oops!) 15 psig. (there it goes … a UFTR … an Unidentified Flying Tank
Section 8 1.
Which of the following is not a RPB (release prevention barrier)? a. b. c. d.
2.
When visual inspection is performed, the inspector’s eyes should be within: a. b. c. d.
3.
12 inches of the surface to be examined. 24 inches of the surface to be examined. 36 inches of the surface to be examined. as close as the inspector’s truck can get to the surface to be examined.
When visual inspection is performed, the inspector’s eyes should be looking relatively straight-on to the surface. When inspecting the surface the inspector’s eyes should not be at an angle that is less than: a. b. c. d.
MSTS
Concrete reinforced pad Double bottom tank Effective bottom side CP Under-tank liner (yes a diaper!)
10 degrees. 30 degrees. 45 degrees. 60 degrees.
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API 575 Study Guide API 653 Cert Prep 4.
When visual inspection is performed, the amount of light needed for general viewing should be at least: a. b. c. d.
5.
When visual inspection is performed, the amount of light needed for inspecting small anomalies should be at least: a. b. c. d.
6.
15 foot-candles. 30 foot-candles. 50 foot-candles. 100 foot-candles.
A high-penetrating oil is used to check the initial weld pass on one side of the bottom-to-shell weld. The minimum dwell dwell time for this test is: a. b. c. d.
MSTS
15 foot-candles. 30 foot-candles. 50 foot-candles. 100 foot-candles.
10 minutes. 1 hour. 4 hours. 24 hours.
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API 575 Study Guide – Answer Key API 653 Cert Prep Section 2
Section 5
1. 2. 3. 4. 5. 6. 7. 8.
1. 2. 3. 4. 5.
API 12A API 620 API 650 API 651 API 652 API 2000 UL-142
6.
MSTS
e (5.2.1) a (5.2.1) a) settlement so that soil soil contacts shell,
a) Sulfurous (5.2.1) b) Acidic c) Marine Atmosphere
c (3.3)
Section 4 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17.
e (5.2.1)
b) CUI – water wicking wicking up (5.2.1)
API 2015, API 2016
Section 3 2.
d (5.1)
d (4.1)
7.
d (5.2.1)
8. 9.
a (5.2.2) a) hydrogen sulfide vapor vapor (5.2.2) (5.2.2)
c (4.2.2)
b) Water vapor
b (4.2.2)
c) Oxygen
10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25.
a (4.2.3) c (4.2.3) a (4.2.3) d (4.2.3) b (4.2.3) a (4.2.3) b (4.2.3) d (4.2.3) b (4.2.3) c (4.3.1) a (4.3.2) a (4.3.2) d (4.3.2) b (4.3.3)
1
a (5.2.2) a (5.2.2) c (5.2.2) d (5.3) b (5.3) d (5.3) a (5.4) d (5.4) b (5.4) d (5.4) b (5.4) a (5.4) d (5.4) e (5.5) a (5.5) c (5.5)
August 2012
API 575 Study Guide – Answer Key API 653 Cert Prep Section 5 26. 27. 28. 29. 30. 31.
Section 7
(continued)
9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36. 37. 38. 39.
a (5.6) a (5.6) c (5.6) d (5.6) e (5.6) c (5.6)
Section 6 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13.
d (6.1) b (6.1) d (6.2) b (6.2) a (6.2) d (6.2) a (6.2) c (6.2) a (6.2) a Likelihood of Failure b Consequence of Failure (6.3) d (6.3) e (6.3) a (6.4)
Section 7 1. 2. 3. 4. 5. 6. 7. 8.
MSTS
a (7.1) b (7.1) b (7.1) a (7.1) a (7.1) c (7.2.1) d (7.2.1) d (7.2.1)
2
(continued)
a (7.2.2) d (7.2.3) c (7.2.4) d (7.2.5) b (7.2.5) b (7.2.5) b (7.2.6) c (7.2.6) d (7.2.6) b (7.2.7) d (7.2.7) c (7.2.7) a (7.2.8) d (7.2.8) b (7.2.8) b (7.2.8.1) c (7.2.8.1) c (7.2.8.2) a (7.2.8.2) d (7.2.8.3) b (7.2.8.3) d (7.2.8.3) a (7.2.8.3) a (7.2.8.4) c (7.2.8.4) d (7.2.8.4) b (7.2.8.4) a (7.2.8.5) c (7.2.8.5) b (7.2.8.5) a (7.2.8.5)
August 2012
API 575 Study Guide – Answer Key API 653 Cert Prep Section 7 40. 41. 42. 43. 44. 45. 46. 47. 48. 49. 50. 51. 52. 53. 54. 55. 56. 57. 58. 59. 60. 61. 62. 63. 64. 65. 66. 67. 68. 69. 70.
MSTS
Section 7
(continued)
71. 72. 73. 74. 75. 76. 77. 78. 79. 80. 81. 82. 83. 84. 85. 86. 87. 88. 89. 90. 91. 92. 93. 94. 95. 96. 97. 98. 99. 100. 101.
a (7.2.8.6) d (7.2.9) b (7.2.9) a (7.2.9) b (7.2.9) a (7.2.9) c (7.2.9) c (7.2.9) d (7.2.9) d (7.2.9) b (7.2.9) a (7.2.9) a (7.2.10) a (7.2.10) a (7.2.10) c (7.2.10) c (7.2.10) c (7.2.10) a (7.2.10) d (7.2.10) b (7.3.1) c (7.3.1) c (7.3.1) a (7.3.1) b (7.3.1) d (7.3.1) b (7.3.3) c (7.3.3) a (7.3.3) c (7.3.3) a (7.3.3)
3
(continued)
a (7.3.3) d (7.3.3) b (7.3.3) c (7.3.3) a (7.3.3) d (7.3.3) c (7.4.2) c (7.4.2) c (7.4.2) a (7.4.2) b (7.4.2) b (7.4.2) d (7.4.3) d (7.4.3) d (7.4.3) d (7.4.3) a (7.4.3) d (7.4.3) c (7.4.3) b (7.4.4) d (7.4.4) b (7.4.4) a (7.4.4) d (7.4.4) a (7.4.4) b (7.4.4) d (7.4.4) c (7.4.4) b (7.4.5) d (7.4.6) a (7.4.7)
August 2012
API 575 Study Guide – Answer Key API 653 Cert Prep Section 7 102. 103. 104. 105. 106. 107. 108. 109.
MSTS
Section 8
(continued)
d (7.4.7)
1. 2. 3. 4. 5. 6.
a (7.4.7) b (7.4.7) c (7.4.8) b (7.4.8) c (7.4.9)
c (8.1) b (8.2.1) b (8.2.1) a (8.2.1) c (8.2.1) c (8.2.2)
a (7.5) a (7.5)
4
August 2012