( Q_2 = 50 \times \frac12001450 = 41.38 \ \textm³/s ) ( P_2 = 2.5 \times \left(\frac12001450\right)^2 = 2.5 \times 0.684 = 1.71 \ \textkPa ) Question 7 – Materials (Creep) At what temperature range does creep become a design concern for carbon steel in boiler service? A) 150°C – 200°C B) 350°C – 400°C C) 425°C – 550°C D) > 600°C
A) ASME Section I – Power Boilers Question 3 – Combustion (Efficiency) A natural gas boiler operates with 15% excess air. The flue gas O₂ reading is 3.2%. Is this consistent? Show why or why not.
A) Efficiency increases (higher mean temperature of heat addition) Question 5 – Water Treatment (Phosphate Treatment) What is the main purpose of coordinated phosphate/pH control in a high-pressure boiler? A) Prevent silica carryover B) Prevent caustic gouging and acid phosphate corrosion C) Remove dissolved oxygen D) Reduce total dissolved solids power engineering 3b1 exam questions
C) 425°C – 550°C (above 400°C for carbon steel) Question 8 – Boiler Operation (Hydrostatic Test) After a major boiler repair, you perform a hydrostatic test. The test pressure for a power boiler per ASME Section I should be: A) 1.25 × MAWP B) 1.5 × MAWP C) 2.0 × MAWP D) MAWP + 100 psi
( \frac1U_o = \frac150 + \frac0.083 \times 0.1022×45 + \frac0.0831500 × 0.075 ) ( = 0.02 + \frac0.00846690 + \frac0.083112.5 ) ( = 0.02 + 0.000094 + 0.000738 ) ( = 0.020832 ) ( Q_2 = 50 \times \frac12001450 = 41
This is a detailed guide to the exam, including a breakdown of major topics, typical question formats, and detailed example questions with answers. Note: 3B1 typically refers to the first of three papers for 3rd Class Power Engineering (Part B). It focuses heavily on boiler design, thermodynamics, metallurgy, and fuel systems . 1. Exam Overview (PanGlobal 3B1) | Aspect | Details | |--------|---------| | Questions | 150 multiple-choice | | Time | 4 hours | | Pass mark | 65% | | Key textbooks | PanGlobal 3rd Class, Part B, Volumes 1 & 2 | | Main sections | Boiler design, combustion, steam/water systems, materials, fittings | 2. Major Topic Areas (Weighted) From SOPEEC syllabus for 3B1:
Yes, 3.2% O₂ is consistent with 15% excess air. Question 4 – Thermodynamics (Rankine Cycle) In an ideal Rankine cycle with boiler pressure 10 MPa and condenser pressure 10 kPa, what happens to cycle efficiency if boiler pressure increases to 15 MPa (condenser pressure fixed)? A) Efficiency increases B) Efficiency decreases C) Efficiency unchanged D) Efficiency increases only if superheat is added Is this consistent
Theory: For natural gas, stoichiometric O₂ ~ 0%. With 15% excess air, flue gas O₂ ≈ (excess air % / 100) × 21% × correction factor. Approx rule: ( O_2 \approx \frac%EA \times 21100 ) → ( 0.15 \times 21 = 3.15% ) O₂.