Take A FREE Online Piping Inspector API 570 Practice Test

Take A FREE Online Piping Inspector API 570 Practice Test Or Exam Training Course
Contact us to Buy Study Material UpWeld.Org@Gmail.Com 99% Passing Guarantee

1.

API 570 covers inspection, repair alteration, and re-rating procedures for metallic piping systems that __________.

 Are being fabricated

 Does not fall under ASTM B31.3

 Have been in-service

 Has not been tested

2.

API 570 was developed for the petroleum refining and chemical process industries.

 It shall be used for all piping systems

 It may be used, where practical, for any piping system.

 It can be used, where necessary, for steam piping

 It may not be used unless agreed to by all parties

3.

API 570 __________ be used as a substitute for the original construction requirements governing a piping system before it is placed in-service.

 Shall not

 Should

 May

 Can

4.

API 570 applies to piping systems for process fluids, hydrocarbons, and similar flammable or toxic fluid services. Which of the following services is not specifically applicable?

 Raw, intermediate, and finished petroleum products

 Water, steam condensate, boiler feed water

 Raw, intermediate, and finished chemical products

 Hydrogen, natural gas, fuel gas, and flare systems

5.

Some of the classes of piping systems that are excluded or optional for coverage under API 570 are listed below. Which one is a mandatory included class?

 Water

 Catalyst lines

 Steam

 Boiler feed water

6.

The __________ shall be responsible to the owner-user for determining that the requirements of API 570 for inspection, examination, and testing are met.

 Piping Engineer

 Inspector

 Repair Organisation

 Operating Personnel

7.

Who is responsible for the control of piping system inspection programs, inspection frequencies and maintenance of piping?

 Authorised Piping Inspector

 Owner-user

 Jurisdiction

 Contractor

8.

An authorised piping inspector shall have the following qualifications. Pick the one that does not belong in this list:

 Four years of experience inspecting in-service piping systems

 High school education plus 3 years of experience in the design, construction, repair, operation, or inspection of piping systems

 Two year certificate in engineering or technology plus 2 years of experience in the design, construction, repair, operation, or inspection of piping systems

 Degree in engineering plus one year experience in the design, construction, repair, operation, or inspection of piping systems

9.

Risk based inspections include which of the following:

 Likelihood assessment

 Consequence analysis

 Operating and inspection histories

 All of the above

10.

An RBI assessment can be used to alter the inspection strategy provided:

 The degradation methods are identified

 The RBI is fully documented

 A third party conducts the RBI

 Both A and B above

11.

Which one of the following is not a specific type of an area of deterioration?

 Rectifier performance

 Injection points

 Deadlegs

 Environmental cracking

12.

Injection points subject to accelerated or localised corrosion may be treated as __________.

 The focal point of an inspection circuit

 Separate inspection circuits .

 Piping that must be renewed on a regular schedule

 Locations where corrosion inhibitors must be used

13.

The recommended upstream limit of inspection of an injection point is a minimum of:

 12 feet or 3 pipe lengths whichever is smaller

 12 inches or 3 pipe diameters whichever is smaller

 12 inches or 3 pipe diameters whichever is greater

 12 feet or 3 pipe lengths which is greater

14.

The recommended downstream limit of inspection of an injection point is a minimum of

 a) Second change in flow direction past the injection point, or 25 feet beyond the first change in flow direction whichever is less .

 Second change in flow direction past the injection point, or 25 feet beyond the first change in flow direction whichever is greater

 Second change in flow direction past the injection point, or 25 inches beyond the first change in flow direction whichever is less

 Second change in flow direction past the injection point, or 25 inches beyond the first change in flow direction whichever is greater

15.

Select thickness measurement locations (TMLs) within injection point circuits subjected to localised corrosion according to the following guidelines. Select the one that does not belong.

 Establish TMLs on appropriate fittings within the injection point circuit

 
Establish at least one TML at a location at least 25 feet beyond the downstream limit of the injection point

 Establish TMLs on the pipe wall at location of expected pipe wall impingement or injected fluid

 Establish TMLs at both the upstream and downstream limits of the injection point circuit

16.

What are the preferred methods of inspecting injection points ?

 Radiography and / or ultrasonics

 Hammer test and / or radiograph

 Ultrasonics and / or liquid penetrant

 Liquid penetrant and / or eddy current

17.

During periodic scheduled inspections, more extensive inspection should be applied to an area beginning __________ upstream of the
injection nozzle and continuing for at least __________ pipe diameters downstream of the injection point.

 10 inches, 20

 12 feet, 10

 12 inches, 10 .

 10 feet, 10

18.

Why should deadlegs in piping be inspected?

 API 510 mandates the inspection of deadlegs

 Acid products and debris build up in deadlegs

 The corrosion rate in deadlegs can vary significantly from adjacent active piping

 Caustic products and debris build up in deadlegs

19.

Both the stagnant end and the connection to an active line of a deadleg should be monitored. In a hot piping system, why does the high point of a deadleg corrode and need to be inspected?

 Corrosion occurs due to directed currents set up in the deadleg

 Erosion occurs due to convective currents set up in the deadleg

 Corrosion occurs due to convective currents set up in the deadleg

 Erosion occurs due to directed currents set up in the deadleg

20.

What is the best thing to do with deadlegs that are no longer in service?

 Ultrasonically inspect often

 Radiograph often

 Inspect often

 Remove them

21. Note: Some questions in this section are true/false or essay type questions, instead of multiple choice. Historically, it has been shown that test questions on ASME V involve a good deal of theory that cannot adequately be explored through multiple choice questions (although multiple choice questions only will be on the test).

1. A film side penetrameter can be used for:

 Inaccessible welds (unable to hand place a source penetrameter)

 All welds

 All castings at any time

 An alternative to a source-side wire pentrameter

22.

A dark image of the “B” on a lighter background is:

 Acceptable

 Rejectable

 Sometimes rejectable

 None of the above

23.

One of the procedural requirements for conducting PT is to address the processing details for :

 Post-examination cleaning

 Pre-examination cleaning

 Apply the penetrant

 All of the above

24.

Non-aqueous developer may be applied to a wet surface.

 True

 False

25.

The accuracy of a piece of magnetizing equipment that is equipped with an ammeter shall be verified :

 Each year

 Each two years

 When possible

 Every 6 months

26.

When using fluorescent particles, the examiner shall be in a darkened area for at least ________ minutes prior to performing the examination.

 a. 7

 b. 10

 c. 5

 d. 1

27.

A wire IQI shall be placed adjacent to the weld, with the wires parallel to the weld.

 a. True

 b. False .

28.

Certification of contaminants shall be obtained for all PT materials used on:

 a. Carbon steels

 b. Ferritic stainless steels

 c. Austenitic stainless steels

 d. None of the above

29.

The location markers required by ASME V are required to appear as radiographic images.

 a. True

 b. False

30.

D.C. yokes may be used for detecting subsurface discontinuities, per ASME V?

 a. True

 b. False

31.

How many total liquid penetrant techniques are listed in ASME V?

 a. 4

 b. 6

 c. 2

 d. 1

32.

Prior to examinations, each adjacent surface shall be cleaned within at least _____ of the area to be examined.

 a. 1

 b. 1.5

 c. 2

 d. 3

33.

Water washable penetrant shall be removed with a water spray not exceeding 60 psi and 1000 F.

 a. True

 b. False

34.

The maximum emulsification time shall be:

 a. 5 minutes

 b. 10 minutes

 c. 15 minutes

 d. none of the above

35.

Densitometers shall be calibrated by verification with a calibrated:

 a. Densitometer

 b. Step Wedge Comparison Strip

 c. Light Meter

 d. Transmission monitor

36.

When using a hydrophillic emulsifier versus a lipophilic emulsifier and intermediate step that must be taken is:

 a. Pre-flooding with emulisifier

 b. Pre-cleaning with solvent

 c. Pre-rinsing with water

 d. Pre-washing with detergent

37.

A welded part is to be radiographed and is 1” thick, with 1/8” reinforcement. What ASTM wire set IQI should be used on these radiographs if a source side technique is used:

 a. Set A

 b. Set B

 c. Set C

 d. Set D

38.

When a PT test cannot be conducted between 500-1250 F, what must be done, per ASME V?

 a. The procedure must be qualified

 b. The surface must be re-cleaned

 c. The test cannot be conducted

 d. None of the above

39.

All indications are to be evaluated in accordance with:

 a. ASME VIII

 b. ASME V

 c. The referencing Code section

 d. The written procedure

40. LATEST ASME B16.5 PRACTICE QUESTIONS AND ANSWERS (Closed Book)

1. ASME B 16.5 does not cover:

 a. Class 150 flanges

 b. Class 300 flanged fittings

 c. Butt welded pipe caps

 d. All of the above

41.

The maximum hydrostatic test pressure permitted for a flange in a system hydrostatic test is:

 a. Not required

 b. Conducted at 1.5 x class rating @100°F

 c. Conducted at 25 psi above class rating

 d. Required only for welded flanges

42.

“High strength” bolting is described as equivalent to:

 a. ASTM A 193 B5

 b. ASTM A 193 B7

 c. ASTM 320 GR8

 d. Any high carbon steel bolt

43.

The pressure class ratings covered by ASME B16.5 are:

 a. 150, 300, 400, 600, 900, 1500, 2500

 b. 150, 300, 400, 450,600,900,1500

 c. 125, 150, 300, 400, 600, 900, 1500, 2500

 d. 150, 300, 400, 600, 700, 900, 1000, 1500

44.

The standard finish for raised face flanges per ASME B16.5 is:

 a. 250 µ to 500 µ / inch

 b. 125 µ to 250 µ / inch

 c. 260 mm to 500 mm / inch

 d. 250 µ / mm to 500 µ / mm

45.

Socket weld and threaded flanges are not recommended for service beyond the following temperatures if thermal cycles are involved:

 a. –20 – 650°F

 b. –30 – 600° F

 c. –50 – 500°F .

 d. –50 – 500°C

46.

“Low strength bolting” is:

 a. ≤ 30 KSI yield strength

 b. ≥ 30 KSI yield strength

 c. ≥ 30 KSI tensile strength

 d. ≥ 100 KSI yield strength

47.

Ring joint sidewall surfaces (gasket groove) must not exceed __________roughness.

 a. 50 µ / in

 b. 63 µ / in

 c. 100 µ/in

 d. 63 mm / in

48.

Which of the following items must be marked on all flanges or flanged fittings?

 a. Temperature

 b. Actual working pressure

 c. ASTM material specification

 d. Hydrotest pressure

49.

When used above ________ °F, class 150 flanges may develop leakage unless special precautions are taken regarding loads or thermal gradients.

 a. 150

 b. 300

 c. 600

 d. 400

50.

The three basic parts to a flanged joint are:

 a. Flanges, welds, gaskets

 b. Flanges, bolts, nuts

 c. Flanges, bolts, gaskets

 d. Flanges, gaskets, threads

51.

Class 600 flanged joints may develop leakage, unless special considerations for thermal gradients are applied at temperatures above ________°F.

 a. 600

 b. 800

 c. 950

 d. 750

52.

A Class 400 flanged fitting must be hydrotested at what pressure, if the 100°F rating is 800 psig?

 a. 1020 psig

 b. 1200 psig

 c. 1225 psig

 d. Not required per ASME B 16.5

53.

The maximum temperature for hydro testing a fitting is:

 a. 120F

 b. 1250C

 c. Per Construction Code requirements

 d. Per Owner / User system requirements

54.

The minimum duration for hydro testing on NPS 12 fitting shall be:

 a. 2 min

 b. 1 min

 c. 3 min

 d. No requirements to test fittings

55.

The maximum depth and radial projection of an imperfection (deeper than the bottom of the serration) on a NPS 14 raised face flange is:

 a. 0.31”

 b. 0.018”

 c. 0.18”

 d. 0.25”

56.

On an NPS 24, 600 Class flange, the thickness of the flange (minimum) is:

 a. 4 ½”

 b. 3.00”

 c. 6.0”

 d. 4.0”

57.

The allowable pressure (in psig) on a 100°F, Class 150 8” flange made from A182 Grade F2 material is:

 a. 170

 b. 290

 c. 300

 d. 400

58.

If a Class 1500 flange is to be made from A-182 F347 stainless steel and will be used at 280 psig with a carbon content of 0.09%, at what maximum temperature can this flange be used?

 a. 1000°F

 b. 1300°F

 c. 1180°F

 d. 2000°F

59.

What is the minimum wall thickness of a Class 900 fitting that is NPS 16?

 a. 1.56”

 b. 2.6”

 c. 3.2”

 d. 4.1”

60.

The purpose of the WPS and PQR is to determine that:

 A. The welder is qualified

 B. The base metals are strong enough

 C. The weldment has the desired properties

 D. The skill of the welder

61.

The WPS lists:

 A. Non-essential variables

 B. Essential variables

 C. Ranges of a & b above

 D. All of the above

62.

The PQR must list:

 A. essential variables

 B. qualification test & examination results

 C. supplementary essential variables (when notch toughness is required)

63.

What is the earliest Edition of Section IX recognized by the current edition?

 A. 1958

 B. 1992

 C. 1987

 D. 1962 .

64.

New Welding Procedure Specifications must meet the _________ Edition and Addenda of Section IX.

 A. 1962

 B. current

 C. 1986

 D. 1995

65.

Each ___________ shall conduct the tests required by Section IX to qualify the WPS’s used during the construction, alteration, or repair.

 A. Welder or welding operator

 B. Manufacturer or contractor

 C. Inspector

 D. All of the above

66.

The records of procedure, welder and welding operator qualification must be available to the __________.

 A. Manufacturer

 B. Welder

 C. Authorised Inspector

 D. Foreman

67.

A welder qualifying with a groove weld in plate in the 4G position is qualified to weld groove welds in plate and pipe over 24”O.D. in at least the ________ positions.

 A. Vertical

 B. Flat & horizontal

 C. Flat & overhead

 D. Horizontal

68.

A welder qualifying with plate fillet welds in the 3F and 4f positions is qualified to weld groove welds in plate in the ____________ positions.

 A. Flat only

 B. Flat and horizontal

 C. Flat and vertical

 D. None of the above

69.

A welder qualifying by making a groove weld on pipe with an O.D. of ¾” in the 5G position is qualified to weld groove welds in:

 A. ½” O.D. Pipe in the overhead position

 B. 6” O.D. Pipe in the vertical position

 C. ¾” O.D. pipe in the horizontal position

 D. None of the above

70.

In general, qualification on groove welds also qualifies a welder to make:

 A. Stud welds

 B. Overhand welds

 C. Fillet welds

 D. All of the above

71.

Charpy V-notch tests are performed to determine a weldment’s

 A. Tensile strength

 B. Ductility

 C. Notch toughness

 D. All of above

72.

A welder making a groove weld using the SAW process on P1 materials may be qualified using radiography.

 A. True

 B. False

73.

When a tensile specimen breaks in the base metal outside of the weld or fusion line, the strength recorded may be at most ____ below the specified tensile and be accepted.

 A. 3.5%

 B. 0.5%

 C. 5%

 D. All of the above

74.

Guided-bend specimens shall have no open defects in the weld or heat effected zone exceeding __________ measured in any direction on the convex surface of the specimen after bending.

 A. 1/16”

 B. 3/32”

 C. 1/8” .

 D. None of the above

75.

When using radiographs to qualify welder, the acceptance standards used are found in:

 A. ASME Section V

 B. ASME Section IX

 C. ASME Section VII

 D. The referencing code

76.

A WPS must describe:

 A. Essential variables

 B. Nonessential variables

 C. Supplementary essential variable when required for notch toughness

 D. All of the above

77.

A PQR must describe:

 A. Nonessential variables

 B. Essential variables

 C. Results of Welder Qualification tests

 D. Project description & NDE methods

78.

The _______ must certify the PQR as accurate.

 A. Inspector

 B. Manufacturer or contractor

 C. Welder

 D. All of the above

79.

For the SMAW process ____________ is an essential variables for the WPS.

 A. Groove design

 B. Post Weld Heat Treatment

 C. Root spacing

 D. Method of cleaning

80. Latest BASIC PIPING INSPECTION TERMINOLOGY & RP 574 Practice Questions and Answers

1. In the Barlow formula for determining pipe thickness, the term S stands for:

 a. Internal design gage pressure of the pipe in psi

 b. Pressure design strength for internal pressure, in inches

 c. Allowable unit stress at the design temperature, in psi

 d. Maximum strain at the average operating temperature, in psi

81.

At low pressures and temperatures, the thickness determined by the Barlow formula may be so small that the pipe would have _______ structural strength.

 a. Adequate

 b. Insufficient .

 c. Ample

 d. Good

82.

A seamless NPS 12, A-106 Grade A pipe operators at 300 degrees F and 941 psi. The allowable stress is 16000 psi. Using the Barlow Equation, determine the thickness required for these conditions.

 a. 0.375”

 b. 0.750”

 c. 0.353”

 d. 0.706”

83.

A seamless NPS6, A-106 Grade A pipe operators at 300 degrees F and 941 psi. The allowable stress is 16000 psi. The owner user specified that the pipe must have 0.1” allowed for corrosion allowance. Using the Barlow Equation, determine the thickness required for these conditions:

 a. 0.295”

 b. 0.195”

 c. 0.277”

 d. 0.706”

84.

A seamless NPS 8, A-53 Grade B pipe operators at 700 degrees F and 700 psi. The allowable stress is 16500 psi. The pipe has been in service for 6 years. The original wall thickness of the pipe was 0.375”. The pipe wall now measures 0.30”. Considering no structural requirements, estimate how long the piping can continue to operate and not be below the minimum thickness.

 a. 4.68 years

 b. 9.8 years .

 c. 0 years; pipe now below minimum

 d. 10.42 years

85.

An Inspector finds a thin area in the body of a NPS 8 (8.625” O.D.) 600# gate valve. The valve’s body is made from ASTM A216 WCB material. The system operates at 700 psi and 750 degrees F. Using a corrosion allowance of 0.125”, what thickness must be present in order to continue to safely operate? Round to nearest hundredth.

 a. 0.48”

 b. 0.38”

 c. 0.51”

 d. 0.43”

86.

If corrosion or erosion is anticipated for a valve, what should be done prior to installing the valve?

 a. Severance thickness determinations should be made when the valves are installed so that the fretting rate and metal ruination can be determined

 b. Retirement thickness measurements should be made after installation so that the fatigue rate and metal loss can be determined

 c. Reference thickness measurements should be made when the valves are installed so that the corrosion rate and metal loss can be determined

 d. Retina measurements of the macula should be made when the iris’ are installed so the optical rate and losses of perception can be determined

87.

Which of the items listed below would NOT normally be contained in inspection records or piping?

 a. Original date of installation, the specifications and strength levels of the materials used

 b. Original vessel hydrotest pressures and conditions that the tests were performed under.

 c. Original thickness measurements and the locations and dates of all subsequent readings

 d. Calculated retirement thicknesses

88.

Accurate records of a piping system make possible an evaluation of __________ on any piping, valve or fitting:

 a. Computerisation

 b. Security and continuity

 c. Cost and competency

 d. Service life

89.

You are working as an inspector. While reviewing a tabulation of thickness data on a section of piping in non-corrosive or very low corrosive service, you find the initial thickness reading of an inspection point to be 0.432” and marked nominal on a NPS 6 pipe. At the next inspection 12 months later you find a reading by ultrasonics of 0.378” at the same point. Twelve months later UT readings were taken and the thickness at the point was still 0.378”. What would this mean to you?

 a. No measurement was taken originally, the nominal thickness was listed and the piping probably had an undertolerance of 12.5”

 b. There was an error made by the inspector at the installation or the inspector who UT’d the piping at the next inspection made an error

 c. The UT machine that the inspector used during the 12 month inspection after installation was defective and not reading correctly

 d. The pipe contractor or the installer put the wrong schedule piping in service

90.

You are working as an inspector. While reviewing a tabulation of thickness data on a section of piping, you find the letter “C” marked under a column headed by the word METHOD. What does the “C” indicate?

 a. The inspection temperature of the pipe was COLD

 b. The thickness measurement was made by an inspector with the I.D. OF “C”

 c. The thickness measurement was taken with calipers

 d. The thickness measurement was CONFIRMED by a second party

91.

Which of the following is not an important function of an accurate sketch?

 a. Assist in determining future locations that urgently require examinations

 b. Identifying systems and circuits in terms of location, size, materials etc

 c. Serve as field data sheets

 d. None of the above

92.

As soon as possible after completing an inspection, the Inspector should:

 a. Review the inspection records and schedule the next inspection

 b. Always require a hydrotest

 c. Sign all RT records

 d. Notify the Piping Engineer, so he can wake up and go home

93.

As soon as possible after completing an inspection, the Inspector should:

 a. Review the inspection records and schedule the next inspection

 b. Always require a hydrotest

 c. Sign all RT records

 d. Notify the Piping Engineer, so he can wake up and go home

94.

The Wenner 4-Pin methods, the soil bar, and the soil box do not represent methods of determining:

 a. Holidays

 b. Pipe-to-soil potentials

 c. Cathodic protection acceptability

 d. All of the above

95.

The total resistivity for a Wenner 4-Pin test that utilizes pins spaced 2 feet apart and a 6 “R” factor is:

 a. 2298 ohm/cm

 b. 3500 ohm/cm

 c. 6000 ohm/cm

 d. 8000 ohm/cm

96.

Which of the following is not a consideration when using a soil bar?

 a. Using a standard prod bar

 b. Avoiding the addition of water

 c. Applying pressure on the soil bar after injection

 d. None of the above

97.

Which of the following is a consideration when using a soil box:

 a. Depth of Pins less than 4% of spacing

 b. Ensuring the soil has dried out before testing

 c. Avoiding contamination of the sample during handling and storage

 d. All of the above

98. API 570 PRACTICE QUESTIONS AND ANSWERS– ALL QUESTIONS ARE CLOSE BOOK

1. API 570 covers inspection of :

 A. new construction

 B. new tank construction

 C. in-service piping

 D. in-service vessels

99.

CUI is the acronym for :

 A. Corrosion Under Insulation

 B. Cold under-ground In-service piping

 C. Corrosion Under Inside flow

 D. Crack under Insulation

100.

A person who assists the inspector by performing specific NDE on piping systems is defined as

 A. NDE Technician

 B. Assistant Inspector

 C. NDT Level II inspector

 D. Examiner

101.

The response or evidence resulting from the application of a nondestructive evaluation technique is termed:

 A. A crack

 B. Porosity

 C. A leak

 D. An indication

102.

The MAWP is:

 A. The maximum internal pressure permitted in the piping system

 B. The minimum external pressure permitted in the piping system

 C. The maximum external pressure permitted in the piping system

 D. None of the above

103.

A selection of piping encompassed by flanges or other connecting fittings is called:

 A. A flanged pipe

 B. A ready to be installed pipe

 C. A spooled piece

 D. A fabricated piping assembly

104.

If a person has a degree in engineering he is automatically qualified to be:

 A. An Authorized Piping Inspector

 B. A piping inspector

 C. A NDE Level II or III in any technique

 D. None of the above

105.

A TML is:

 A. Thickness Measurement Laboratory

 B. The Maximum Limit for thickness

 C. Thickness Measurement Location

 D. Time Medium Length

106.

The result of excessive cyclic stresses that are often well below the static yield strength of the material is termed as:

 A. material failure

 B. fatigue cracking

 C. failure cracking

 D. creep cracking

107.

Thickness measurements may be taken by ultrasonic instruments or what other method:

 A. AET

 B. ET

 C. MT

 D. RT

108.

Thickness measurements may be taken by ultrasonic instruments or what other method:

 A. AET

 B. ET

 C. MT

 D. RT

109.

Which of the following tests are not normally conducted as part of a routine inspection:

 A. UT thickness

 B. Visual inspection

 C. Radiographic profile

 D. Pressure tests

110.

Thickness measurements are not routinely taken on in piping circuits.

 A. valves

 B. straight run pipe

 C. fittings

 D. deadlegs

111.

During the installation of a flanged connection, the bolts should:

 A. Extend two threads past their nuts

 B. Extend completely through their nuts

 C. Extend only half way through their nuts

 D. Extend at least .5 inches (1.25 mm) past their nuts

112.

Services with the highest potential of resulting in an immediate emergency if a leak were to occur are in:

 A. Class 3

 B. Class 2

 C. Class 1

 D. Owner/user designated system

113.

The classification that includes the majority of unit process piping is labeled:

 A. Class 3

 B. Class 2 .

 C. Class I

 D. Owner/user designated system

114.

Services that are flammable but do not significantly vaporize when they leak and are not located in high activity areas:

 A. Class 3

 B. Class 2

 C. Class I

 D. Owner/user designated system

115.

What is the remaining life in years of a piping system whose corrosion rate is 0.074 inches per year, the actual wall thickness is 0.370 inches and the minimum required thickness is 0.1 inches?

 A. 36.68 years

 B. 364.8 years

 C. 3.6 years

 D. 3.6 months

116.

What is the long term corrosion rate of a piping circuit that started at 0.475 inches and is now 0.2 inch, the measurements were taken over a five year period?

 A. 0.055 inches per year

 B. 0.005 inches per year

 C. 0.550 inches per year

 D. Not enough information given

117.

What is the short term corrosion rate for the above piping circuit in Question 18.

 A. 0.055 inches per year

 B. 0.005 inches per year

 C. 0.550 inches per year

 D. Not enough information given

118.

A longitudinal crack in an existing piping circuit may be repaired by:

 A. installing a full encirclement welded split sleeve

 B. welding a box over the cracked area

 C. welding a box over the crack

 D. using a full encirclement welded split sleeve, with the approval of the piping engineer

119. API 570 PRACTICE QUESTIONS AND ANSWERS – ALL QUESTIONS ARE CLOSE BOOK
Question begins the closed book portion of this exam!
It is recommended that you take this portion without referring to the ASME Code or API books on your
first attempt, to assess your strengths and concentrate your studies on the most needed subject
areas. It is suggested that you write your answers on a separate sheet to keep this copy clean for
future studies.

When preparing to inspect a piping system inspection personnel should?

 a. Consult with the piping engineer

 b. Briefly review the history of individual piping systems before making any of the inspections required by API 570

 c. Check that repair materials are available

 d. Check that the corrosion engineer has reviewed the inspection plan

120.

As regards dead legs in piping circuits, what is recommended to be done by API 570 when ever possible?

 a. Dead legs should be monitored on a monthly basis

 b. The chief inspector and the unit engineer should designate dead legs to be inspected

 c. Dead legs should be monitored on a yearly basis

 d. Consideration should be given to removing dead legs that serve no further process purpose

121.

As regards dead legs in piping circuits, what is recommended to be done by API 570 when ever possible?

 a. Dead legs should be monitored on a monthly basis

 b. The chief inspector and the unit engineer should designate dead legs to be inspected

 c. Dead legs should be monitored on a yearly basis

 d. Consideration should be given to removing dead legs that serve no further process purpose

122.

When is it necessary to reevaluate the frequency of inspection for an existing piping system?

 a. The API 570 authorized inspector suspects a problem

 b. The operations group desires an increase in inspection frequency

 c. The inspection interval must be reviewed and adjusted as necessary after each inspection or significant change in operating conditions

 d. More than one flange has started to leak

123.

Establish TMLs at both the upstream and downstream limits of the injection point circuit. What is the fourth consideration when selecting TMLs

 a. TMLs at intermediate locations along the longer straight piping within the injection point circuit may be required

 b. TMLs at extreme locations along the longer straight piping within the injection point circuit may be requiredd. TMLs at pipe bends within the shorter straight piping in the injection point circuit may be required

 c. TMLs at pipe bends within the longer straight piping in the injection point circuit may be required

 d. TMLs at pipe bends within the shorter straight piping in the injection point circuit may be required

124.

When the inspector suspects or is advised that specific circuits may be susceptible to environmental cracking, the inspector should schedule supplemental inspections. What types of inspections may this include?

 a. Radiography

 b. Wet Fluorescent Magnetic Particle NDE

 c. Ultrasonic NDE

 d. Radiography, Wet Fluorescent Magnetic Particle, and/or Ultrasonic examinations

125.

Supplemental inspection for piping systems are sometimes required. Which of the following may be considered supplements to normal inspection techniques?

 a. Annual hydrostatic testing

 b. Eddy current testing

 c. Spool piece removal and visual inspection

 d. Periodic use of radiography and/or thermography to check for fouling or internal plugging

126.

To what inspection requirements must be applied to small bore class I secondary piping?

 a. Class I secondary SBP shall be inspected to the same requirements as secondary process piping

 b. Class 1 secondary SBP shall be inspected to the same requirements as primary process piping

 c. Class 1 secondary SBP shall be inspected to the same requirements as class 2 process piping

 d. Class 1 secondary SBP shall be inspected to the same requirements as class 3 process piping

127.

To what inspection requirements must be applied to small bore class I secondary piping?

 a. Class I secondary SBP shall be inspected to the same requirements as secondary process piping

 b. Class 1 secondary SBP shall be inspected to the same requirements as primary process piping

 c. Class 1 secondary SBP shall be inspected to the same requirements as class 2 process piping

 d. Class 1 secondary SBP shall be inspected to the same requirements as class 3 process piping

128.

When is API 570 inspection code not permitted to be applied to a piping system?

 a. As a substitute for the B31.12 piping Code

 b. If in conflict with any union requirements

 c. If the piping is in water service

 d. As a substitute for the original construction requirements or if in conflict with regulatory requirements

129.

A 14” O.D. pipe has a corroded area on it. What is the maximum size of a small repair patch that maybe used to cover the corroded area?

 a) 3.5”

 b) 7”

 c) 6”

 d) 6.5”

130.

A NPS 4 Schedule 80 ( 0.337” wall) branch is welded into a NPS 12 Schedule 40 (.406” wall) header. What size cover fillet weld (tc) is required over the full penetration groove weld “ ( Express answer to nearest hundredth)

 a) 0,578”

 b) 0.286”

 c) 0.334”

 d) 0.236”

131.

A NPS 6 (6.6.25” od) seamless pipe made from ASTM A335 Grade P2 material operates at 800psi and 600 degrees F. The conditions require that corrosion allowance of 0.125” be maintained. Calculate the minimum required thickness for these conditions.

 a) 0.294”

 b) 0.343”

 c) 0.631”

 d) 0.524”

132.

A NPS 14 (14.00” od) seamless pipe made from ASTM A106 Grade. A material operates at 300 psi and 600 degrees F. The pipe must cross a small ditch and it must be capable of supporting itself without visible sag. A piping engineer states that the pipe must be at least 0.375” to support itself and the liquid product. He also states that a 0.125” corrosion allowance must be included. Calculate the minimum required thickness for the pipe.

 a) 0.778”

 b) 0.567”

 c) 0.642”

 d) 0.600”

133.

A 10’ long carbon steel pipe is welded to a 10’ 18-8 stainless pipe and is heated uniformly to 475 degrees F from degrees F. Determine its total length after heating.’

 a) 20.067’

 b) 20.156’

 c) 20.234’

 d) 20.095

134.

A blank Is required between two NPS 10, 300 lb. class flanges. The maximum pressure in the system is 385 psi at 200 degrees F. A corrosion allowance of 0.175” is required. The inside diameter of the gasket surface is 9.25”. The blank is ASTM A516 Grade 70 material with no weld joint. Calculate the pressure design thickness required for the blank.

 a) 0.789”

 b) 0.692”

 c) 0.556”

 d) 0.768”

135.

1996, the thickness was measured to be 0.571”. What is the long-term corrosion rate of this system?

 a) 0.01996”/year

 b) 0.02567”1year

 c) 0.02114”Iyear

 d) 0.03546”/year

136.

Using the data in Question No. 8, calculate the short term corrosion rate in mils per year (MIP year)

 a) 0.0012 MIP year

 b) 0.012 MIP year

 c) 0.12 MIP year

 d) 12 MIP year

137.

Using the information in Questions No. 8 and No. 9, determine the remaining life of the system, If service remains unchanged

 a) 18 years

 b) 5.44 years

 c) 1.2 years

 d) 6 years

138.

Using the information in Questions No. 10 and assuming an injection point in a Class 2 system with 7 years estimated until the next inspection what would the next interval be?

 a) 10 years

 b) 5 years

 c) 3 years

 d) 2.72 years

139.

A seamless NPS 10 pipe, ASTM A106 Grade B material operates at 750 psi and 700 degrees F maximum. Considering only pressure design thickness, what minimum thickness is required?

 a) 0.244”

 b) 0.200”

 c) 0.282”

 d) 0.173”

140. ASME B 31.3 — PRACTICE QUESTIONS AND ANSWERS (CLOSED BOOK)

The requirements of the latest edition of ASME Code Section B 31.3 and any subsequent Addenda:

 A. Must be followed explicitly as soon as the latest edition is issued

 B. Are retroactive and all piping installed per earlier must be upgraded

 C. Are not retroactive & all piping installed per earlier additions need not be upgraded .

 D. Maybe used without regard. to the acceptability of Code revisions to the jurisdictions

141.

Clauses in the B 31 code are not necessarily numbered consecutively. Such discontinuities result from:

 A. The age of the code and the number of changes that has been made

 B. Following a common outline, in so far as practical for all Code Sections

 C. No particular logic was followed in the original versions of the Code

 D. Practices followed by all codes to make them difficult to reproduce

142.

Who has the responsibility of determining which Code Section is applicable to piping installations, i.e. B31.1, B31.3 etc?

 A. Owner

 B. Inspector

 C. Jurisdiction

 D. Engineer

143.

Who has the overall responsibility for compliance with ASME B31.3?

 A. Inspector

 B. Owner

 C. Engineer

 D. Jurisdiction

144.

The intent of ASME B 31.3 is to set forth engineering requirements deemed necessary for __________ and __________ of piping installations.

 A. Structural design, fabrication

 B. Safe design, construction

 C. Adequate fabrication, execution

 D. Permanent existence, iongetivity

145.

ASME Code is not intended to apply to piping:

 A. In the chemical Industry

 B. That has been placed in service.

 C. In the agronomy industry

 D. In the space industry

146.

Compatibility of materials with the service and hazards from instability of contained fluids:

 A. Is covered extensively by ASME B 31.3

 B. Are not within the scope of ASME B31.3

 C. Is addressed on a limited basis by ASME B31.3

 D. Is the main scope of ASME 831.3

147.

ASME B31.3 applies to piping for all fluids except for which of the below?

 A. Tubes of fired heaters, plumbing and storm sewers

 B. Raw, intermediate and finished chemicals

 C. Petroleum products, fluidized solids and refrigerants

 D. Gas, steam, air, and water

148.

A pre-placed filter metal which is completely fused into the roof of a welded joint and becomes part of the weld is called:

 A. A depleted appendage

 B. A pre-placed ligament

 C. A consumable insert

 D. A caulked joint

149.

Define “face of weld”

 A. It is longitudinal view of a weld that has been split down the middle for inspection

 B. It is the elevation view of a weld that has been cut out to show its cross section

 C. It is the concealed weld surface on the side opposite from which the welding was done

 D. It is the exposed surface of a weld on the side from which the welding was done

150.

Fluid service that is non-flammable, nontoxic, and not damaging to human tissue and its gauge pressure does not exceed 150 psi and the design temperature is form 20 degrees through 366 degrees F is known as a category ________ fluid.

 A. D

 B. C

 C. M

 D. N

151.

A fluid service in which the potential for personnel exposure is judged to be significant and in which a single exposure to a very small quantity of a toxic fluid, caused, by leakage, can produce serious irreversible harm to persons on breatng or bodily contact, even when prompt restorative measures are taken is known as a category ______ fluid.

 A. D

 B. M

 C. H

 D. N

152.

A fillet weld whose size is equal to the thickness of the thinner member joined is called,

 A. A butt fillet weld

 B. A longitudinal fillet weld

 C. A full fillet weld

 D. A fillet weld without backing

153.

The heating of metal to and holding at a suitable temperature and then cooling at a suitable rate for such purposes as; reducing hardness, improving machinability, facilitating cold working, producing a desired mechanical, physical, or other properties known as:

 A. Annealing

 B. Normalizing

 C. Quenching

 D. Stress- relieving

154.

Piping joint that for the purpose of mechanical strength or-leak resistance, or both, in which the mechanical strength is developed by threaded, grooved, rolled, flared, or flanged pipe ends; or by bolts, pins, toggles, or rings; and the leak resistance is developed by threads and compounds, gaskets, rolled ends, caulking, or machined and mated surfaces is known as

 A. Bonded joint

 B. Mechanical joint

 C. fused joint

 D. juke joint

155.

The term NPS 6 refers to:

 A. A pipe which outside diameter is 6.625”

 B. A pipe which outside diameter is 6”

 C. A pipe which radius is 6”

 D. A tube which inside diameter is 6”

156.

A pipe produced by piercing a billet followed by rolling or drawing, or both is a:

 A. Electric fusion welded pipe

 B. Spiral welded pipe

 C. Seamless pipe

 D. ERW pipe

157.

What is the “root opening”?

 A. It is the gaps between flanges left to facilitate the installation of gaskets

 B. It is the division between different rods accounting for different metallurgy

 C. It is the separation between members to be joined by welding, at the root of the joint

 D. It is the conjunction of members joined by bonding at the face of the joint

158.

A weld intended primarily to provide joint tightness against leakage in metallic piping is known as a:

 A. Fillet weld

 B. Fissure weld

 C. Seal weld

 D. Caulking weld

159.

A weld made to hold parts of weldment in proper alignment until the final welds are made is known as a:

 A. Face weld

 B. Fissure weld

 C. Seal weld

 D. Tack weld

160. LATEST ANSI B31.3 QUESTIONS AND ANSWERS

You are performing a visual inspection on the final welded surface of a butt weld (girth & miter groove category) in 12” diameter standard wall pipe. The acceptance standard is ANSI B31.3 normal fluid service. You see undercut that is 1/32” at the deepest point. In addition, the height of reinforcement at the highest point is 1/8”. (t=0.375”) 5 of 18

 A The weld is acceptable as is

 B. Weld repair of the undercut is required

 C. blending down of the weld reinforcement is required

 D. both B & C are required

161.

You are performing a visual inspection on the final welded surface of a butt weld (girth & miter groove category) in 12” diameter standard wall pipe. The acceptance standard is ANSI B31.3 severe cyclic service. You see undercut that is 1/32” at the deepest point. In addition, the height of reinforcement at the highest point is I/8”. (t= 0.375”)

 A. The weld is acceptable as is

 B. Weld repair of the undercut is required

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

162.

You are performing a visual inspection on the final welded surface of a butt weld (girth & miter groove category) in 12” diameter standard wall pipe. The acceptance standard is ANSI B31.3 category D fluid service. You see undercut that is 1/32” at the deepest point. In addition, the height of reinforcement at the highest point is 1/8”. (t= 0.375”)

 A. The weld is acceptable as is

 B. Weld repair of the undercut is required

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

163.

You are performing a visual inspection on the final welded surface of a seam weld (longitudinal groove category) in 20” diameter standard wall pipe. The acceptance standard is ANSI B31.3 normal fluid service. You see undercut that is 1/32” at the deepest point. In addition, the height of reinforcement at the highest point is 1/8”. (t=0.375”)

 A. The weld is acceptable as is

 B. Weld repair of the undercut is required

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

164.

You are performing a visual inspection on the final welded surface of a seam weld (longitudinal groove category) in 20” diameter standard wall pipe. The acceptance standard is ANSI B31.3 severe cyclic fluid service. You see undercut that is 1/32.” at the deepest point. In addition, the height of reinforcement at the highest point is 1/8”. (t= 0.375”)

 A. The weld is acceptable as is

 B. Weld repair of the undercut is required

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

165.

You are performing a visual inspection on the final welded surface of a seam weld (longitudinal groove category) in 20” diameter standard wall pipe. The acceptance standard is ANSI B31.3 category D fluid service. You see undercut that is 1/32” at the deepest point. In addition, the height of reinforcement at the highest point is 1/8”. (t= .375”)

 A. The weld is acceptable as is

 B. Weld repair of the undercut is required .

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

166.

You are performing a visual inspection1on the final welded surface of a socket weld in 2” diameter schedule 80 pipe. The acceptance standard is ANSI B31.3 normal fluid service. You see lack of fusion that is 1/32” at the deepest point. In addition, there is a crack in the toe of the weld 0.312” long. (t=0.218”)

 A. The weld is acceptable as is

 B. Weld repair of the lack of fusion is required

 C. Weld repair of the crack is required

 D. both B) & C) are required

167.

You are performing a visual inspection on the final welded surface of a socket weld in 2” diameter schedule 80 pipe. The acceptance standard is ANSI B31.3 severe cyclic service. You see lack of fusion that is 1/32” at the deepest point. In addition, there is a crack in the toe of the weld 0.312” long. (t= 0.218”)

 A. The weld is acceptable as is 6 of 18

 B. Weld repair of the lack of fusion is required

 C. Weld repair of the crack is required

 D. both B) & C) are required .

168.

You are performing a visual inspection on the final welded surface of a socket weld in 2” diameter schedule 80 pipe. The acceptance standard is ANSI B31.3 category D fluid service. You see lack of fusion that is 1/32” at the deepest point. In addition, there is a crack in the toe of the weld 0.312” long. (t= 0.218”)

 a. The weld is acceptable as is

 b. Weld repair of the lack of fusion is required

 c. Weld repair of the crack is required

 d. both B) &C) are required

169.

You are performing a visual inspection on the final welded surface of a butt weld (girth & miter groove category) in 8” diameter standard wall pipe. The acceptance standard is ANSI B31.3 normal fluid service. You see incomplete penetration that is 1/16” at the deepest point and 1.25” long. In addition, the height of reinforcement at the highest point is 3/16”. (t= 0.322”)

 A. The weld is acceptable as is

 B. Weld repair of the incomplete penetration is required

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

170.

You are performing a visual inspection on the final welded surface of a butt weld (girth & miter groove category) in 8” diameter standard wall pipe. The acceptance standard is ANSI B31.3 severe cyclic service. You see incomplete penetration that is 1/16” at the deepest point and 1.25” long. In addition, the height of reinforcement at the highest point is 3/16” (t= 0.322”)

 A. The weld is acceptable as is

 B. Weld repair of the incomplete penetration is required

 C. blending down of the weld reinforcement is required

 D. both B) & C) are required

171. LATEST ASME B 31.3 PRACTICE QUESTIONS AND ANSWERS

What is the minimum wall schedule that can be used in a male threaded joint in normal fluid service, carbon steel (notch-sensitive) and NPS 1.5 and smaller?

 a. Sch 10

 b. Sch 40

 c. Sch 80 .

 d. Sch 160

172.

What is an example of a straight-threaded joint?

 a. Threads (male) of threaded piping

 b. Threads (female) on a threaded valve

 c. An union comprising male and female ends joined with a threaded union nut

 d. A joint used in instrument tubing

173.

Determine the linear expansion (in/100ft) of a carbon steel pipe between 70°F. and 450°F.

 a. 3.04” per 100 ft

 b. 3.39” per 100 ft

 c. 2.93” per 100 ft

 d. 3.16” per 100 ft

174.

A 20’ long carbon steel pipe is heated uniformly to 450°F from 70°F. Determine its length after heating.

 a. 20.052’

 b. 20.263’

 c. 20.210’

 d. 20.250’

175.

If 4 materials, carbon steel, 18Chr-8Ni, Monel, Aluminium are heated from 70°F. to 550°F., which one will expand more?

 a. 18 Chr-8Ni

 b. Monel

 c. Aluminium

 d. Carbon Steel

176.

What is the modulus of elasticity of carbon steel material (carbon content ≤ 0.3) at 700°F?

 a. 25,500,000 psi

 b. 25,300,000 psi

 c. 26,700,000 psi

 d. 29,500,000 psi

177.

Poisson’s ratio may be taken as ________ at all temperatures for all metals.

 a. 0.30

 b. 0.31

 c. 0.32

 d. 0.33

178.

Stop valves are allowed on the inlet and outlet side of a pressure-relieving device, provided:

 a. The valves are approved by the jurisdiction

 b. They are approved by the inspector

 c. They can be locked or sealed in both the open and closed position

 d. The valves are non-rising stem valves

179.

For a liquid thermal expansion relief device which protects only a blocked-in portion of a piping system, the set pressure shall not exceed the lesser of the system test pressure or _________% of design pressure.

 a. 105

 b. 110

 c. 115

 d. 120

180.

An ASTM A53 Grade B pipe with a maximum wall thickness of 0.75” is being considered for use in a cold service. What minimum temperature can it be used and not have an impact test?

 a. +20°F

 b. +15°F

 c. +10°F

 d. 0°F

181.

Each set of impact test specimens shall consist of __________ specimen bars.

 a. 2

 b. 3

 c. 4

 d. 5

182.

A carbon steel ASTM A 53 Grade B material is being impact tested. What is the minimum energy requirement for this material (average for 3 specimens-fully deoxidized steel)?

 a. 7 ft-lbs

 b. 10 ft-lbs

 c. 13 ft-lbs

 d. 15 ft-lbs

183.

A thicker wall pipe is joined to a thinner wall pipe. The thicker pipe is taper bored to facilitate the fit up. What is the maximum slope of the taper bore?

 a. 15 degrees

 b. 20 degrees

 c. 25 degrees

 d. 30 degrees

184.

A NPS 2 schedule 80 (0.218” wall) is welded into a NPS 6 Schedule 40 (0.0.280” wall) header. What size cover fillet weld (tc) is required around the fully penetrated groove weld of the branch into the header? (Express answer to nearest hundredth)

 a. 0.15”

 b. 0.20” ASME B 31.3 PRACTICE QUESTIONS2 of 7

 c. 0.22”

 d. 0.25”

185.

An NPS 8 schedule A NPS 8 Schedule 40 (0.322” wall), ASTM A 106 Grade B, is to be welded. The weather is clear. The sun is shining. The temperature is 30°F. What preheat temperature, if any, is required.

 a. None

 b. 25°F

 c. 50°F

 d. 175°F

186.

The zone for preheat shall extend:

 a. At least ½” beyond each edge of the weld

 b. At least 1” beyond each edge of the weld .

 c. Over only the weld itself

 d. At a minimum 2” each side of the weld

187.

An ASME A 106 Grade B, NPS 8, Schedule 40 (0.322” wall) pipe is to be welded to an ASME A335 Grade P9, NPS 8, Schedule 40 (0.322” wall) pipe. What preheat temperature is required?

 a. 50°F

 b. 175°F

 c. 300°F

 d. 350°F

188.

When components of a piping system are joined by welding, the thickness to be used in applying the heat treatment provisions of ASME B 31.3, Table 331.1.1 shall be:

 a. That of the thinner component measured at the joint, except for certain exclusions

 b. That of the thicker component measured at the joint, except for certain exclusions

 c. That of the average thickness of the two components, except for certain exclusions

 d. That of the thinner component measured in the thinner pipe except exclusions

189.

An NPS 4 Schedule 40 (0.237” wall) branch connection is welded into a NPS 6 Schedule 40 (0.0.280” wall) header. A ¼” reinforcing pad is used around the branch connection. The branch connection is inserted into the header. The material of the branch and the header is ASTM A 106 Grade B. What thickness would be used to determine whether heat treatment of this connection is required? (Express answer to nearest hundredth.)

 a. 0.80”

 b. 0.77”

 c. 0.70”

 d. 0.60”

190.

An ASME A335 Grade P9, NPS 8, Schedule 40(0.322” wall) pipe is to be welded to an ASME A335 Grade P9, NPS 8, Schedule 40 (0.322” wall) pipe. What Brinnell Hardness is required after post weld heat treatment?

 a. 200

 b. 225

 c. 241

 d. 250

191. API 570 Practice Exam
This is the “Open Book” portion, feel free to Contact us any of the following:
API 510, API 574, ASME B31.3, ASME B16.5(a), ASME Section V or
ASME Section IX

1. Determine the MAWP of the following piping system, at the next inspection, based on the following:
Design pressure/temperature: 100 psig1100°F
Pipe description: NPS 2, S180 A 106-B
Outside diameter of pipe, D: 2.375 in.
Thickness determined from inspection: .190 in.
Observed corrosion rate: .03 in/year
Next planned inspection: 5 years
MAWP =_________________

 a. 674 psig

 b. 323 psig

 c. 125 psig

 d. Metal loss exceeds the requirements for 5 year inspection interval

192.

What is the pressure design thickness of NPSIO, A516 Gr. 65 Type 22 pipe that operates at 1,200 psi/750 F?

 a. 0.432”

 b. 0.46”

 c. 0.928”

 d. Not enough information given

193.

A leak test is an alternative to inspection of buried piping. What is the minimum liquid pressure to adequately conduct this test?

 a. 1 ½ times the MAWP

 b. 1 ¼ times the MAWP

 c. 10% greater than MAWP

 d. Actual MAWP

194.

For a single-wall material thickness, over 0.375‘ through 0.50”, what is the hole-type designation for a source side penetrameter?

 a. 15

 b. 17

 c. 20

 d. 25

195.

Give the corresponding ‘P” number for SA 414 Grade A material.

 a. 1

 b. 2

 c. 3

 d. 11B

196.

On a Class 1500 NPS 4 blind flange, what is the minimum thickness permitted?

 a. 1.12”

 b. 1.88”

 c. 2.12”

 d. 2.88”

197.

For 1 ¼ inch thick carbon steel, what is the recommended preheat temperature?

 a. 300°F

 b. 235°F

 c. 175°F

 d. None

198.

Determine the MAWP of the following piping system, at the next inspection, based on the following:
Design pressure/temperature: 100 psig/100°F
2 of 19
Pipe description: NPS 20, Std A 106-B
Outside diameter of pipe, D: 20 in.
Thickness determined from inspection: 0.280 in.
Observed corrosion rate: 0.02 in/year
Next planned inspection: 5 years
MAWP = ____________

 

 a. 160 psig

 b. 550 psig

 c. 723 psig

 d. 125 psig

199.

What is the inspection interval for buried piping without cathodic protection, if the soil resistivity is 6,500 ohm-cm?

 a. 10 years

 b. 15 years

 c. 5 years

 d. Whenever a leak is suspected

200.

What is the maximum length allowed for individual slag trapped in a weld in a Severe Cyclic Conditions piping system?

 a. >Tw X 3

 b. < Tw / 3

 c. >12T

 d. 3/23”

201.

What is the design thickness of NPS 2 ½ A106B pipe that operates at 25psi/200’F?

 a. 0.275”

 b. 0.100

 c. 0.002”

 d. Not enough information given

202.

With respect to Category D service, what is the maximum allowable undercut for a branch connection?

 a. Zero (no evident imperfections)

 b. < 1/32 inch

 c. <1 mm

 d. Both B and C

203.

What is the test pressure of a metallic piping system whose design temperature is above – the test temperature using the following conditions? NPS 6, A106-13, 100psi/800°F

 a. 150psi

 b. 450psi

 c. 278psi

 d. Test temperatures verses design temperatures are not different.

204.

Determine the MAWP of the following piping system, at the next inspection, based on the following:
Design pressure/temperature: 100 psig/750°F
Pipe description: NPS 6, Std 285c EFW, Straight Seam (No radiography)
Outside diameter of pipe, D: 6 5/8 in
Thickness determined from inspection: 0.280 in
Observed corrosion rate: 0.01 in/year
Next planned inspection: 5 years
MAWP =_______

 a. 522 psig

 b. 487 psig

 c. 878 psig

 d. 125 psig 3 of 19

205.

Impact testing of each form of material for any specification shall be done using procedures and apparatus in accordance with:

 a. ASTM A 370

 b. ASME Section V

 c. API 570

 d. AWS D 1.5

206.

In the AWS A5.1, what is the designation for a cellulose DC-RP electrode?

 a. E7018

 b. E7016

 c. E6011

 d. E6010

207.

With respect to a Class 400 NPS 12 slip-on raised face flange, whose edges of the gasket do not extend to the bolt, what is the outside diameter of the gasket?

 a. 12.75”

 b. 15.00”

 c. 16.50”

 d. 18.00”

208.

The base metal is P No. 8, the weld metal is A No. 8-9, and the wall thickness is 1”. What is the hold time for heat treatment?

 a. None

 b. 1 hour

 c. 2 hours

 d. ½ hour for each 1” thickness

209.

On a regularly furnished Class 300 raised face flange, what is the height of the raised face?

 a. 0.06” .

 b. 0.09””

 c. 0.19”

 d. 0.25

210.

During a welder qualification test on ½” plate in the horizontal position, how many guided bends are required?

 a. 6 side bends

 b. 2 nick breaks

 c. 1 face and1 root bends .

 d. 4 tensile specimens

 Loading …

*************************

Are you looking for Free Online Piping Inspector API 570 Practice Test or Training Course?

If yes Then you are on the right platform, Here You Can Learn everything you need to know about Piping Inspector API 570 Exam

Pass the API 570 Certification Exam the first time—99% Guaranteed. Our expert-written API practice material covers the actual exam topics with fully explained answers.

Take unlimited tests of any length. Includes free new question updates and complements any other study materials.

Buy API 570 Exam Learning Package Study Material
FOR EVERY 10 QUESTIONS 1 QUESTION COMES IN THE EXAM
WE HAVE LATEST API 570 Exam QUESTION BANK
99% Passing Guarantee
Total 5000+ nos QUESTION BANK FROM THEORY TO PRACTICAL.
Cost: $100
Email Us To Buy: upweld.org@gmail.com
Click Here To Contact On Whatsapp https://wa.link/4dn6ee
Ideally document for passing the examination. Free guideline during learning.
We give you lot’s of study material Free of cost with this question bank..
Get BOTH Formats Instantly:
Online—Instant scoring, review & reporting.
Printable—Instant download.

The API Individual Certification Programs (ICPs) are well established worldwide in the oil, gas, and petroleum industries. This Quick Guide is unique in providing simple, accessible and well-structured guidance for anyone studying the API 570 Certified Pipework Inspector syllabus by:

Piping Inspector API 570 Practice Test or Exam Training Course Content:

• Summarising and helping them through the syllabus
• Providing multiple example questions and worked answers
• Technical standards covered include the full API ‘body of knowledge for the examination
• API570 Piping inspection code
• API RP 571 Damage mechanisms affecting fixed equipment in the refining industry
• API RP 574 Inspection practices for piping system components
• API RP 577 Welding and metallurgy
• API RP 578 Material verification program for new and existing alloy piping systems
• ASME V Non-destructive examination
• ASME IX Welding qualifications; ASME B16.5 Pipe flanges and flanged fittings
• ASME B 31.3 Process piping
• Provides simple, accessible and well-structured guidance for anyone studying the API 570 Certified Pipework
• Inspector syllabus
• Summarizes the syllabus and provides the user with multiple example questions and worked answers
• Technical standards covered include the full API ‘body of knowledge for the examination

This API 570 quiz Course presents multiple choice questions. You are to assume there is ONLY ONE CORRECT ANSWER. There are lots of questions.
Request To Buy Study Material at UpWeld.org@Gmail.Com

People also ask:

• How hard is the API 570 exam?
• How much do API 570 inspectors make?
• How much does API 570 cost?
• What does an API 570 inspector do?
• What is the API 570?
• Is API 570 exam hard?
• What is the passing score for API 570?
• Are API 570 inspectors in demand?

Related searches

• API 570 PRACTICE QUESTIONS AND ANSWERS (Closed Book)
• BASIC PIPING INSPECTION TERMINOLOGY & RP 574 Practice Questions and Answers
• ASME B 31.3 — PRACTICE QUESTIONS AND ANSWERS (CLOSED BOOK
• ASME V PRACTICES QUESTIONS AND ANSWERS
• API 510, API 574, ASME B31.3, ASME B16.5(a), ASME Section V or ASME Section IX
• API 570 Piping Inspector Examination Preparation Course
• Online API 570 Training Course
• API 570 Piping Inspector Certification
• API 570 Process Pipework Inspector Certification Training
• UpWeld API 570 Training Course: Pressure Piping Inspection
• API 570 Piping Inspector Full Course
• API 570 Exam Preparation – API 570 Training
• API 570 – Piping Inspector
• api 570 download
• api 570 pdf
• api 570 fees
• api 570 standard pdf free download
• api 570 salary
• api 570 4th edition pdf
• api 570 code
• api 570 course
• api 570 training
• api 570 training course
• api 570 training online
• api 570 course fee
• api 570 exam pass rate
• api 570 exam questions
• api 570 study material
• api 570 pdf free download