In the benzene pipeline scenario, the mass flow rate is approximately which value?

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Enhance your understanding of SAChE Source Models (ELA965). Study with targeted questions and answers, supported by hints and explanations. Master the exam specifics and ensure your readiness!

Multiple Choice

In the benzene pipeline scenario, the mass flow rate is approximately which value?

Explanation:
Mass flow rate is found by multiplying the liquid’s density by the volumetric flow rate in the pipe (m_dot = ρ × Q). For benzene near room temperature, the density is about 880 kg/m^3. The problem ties the flow to the pipe’s size and velocity, so the volumetric rate is Q = A × v. Using the given pipe geometry and flow velocity yields a volumetric flow rate around 1.72×10^-4 m^3/s. Multiplying by the density gives m_dot ≈ 0.151 kg/s, which matches the expected answer. Any other option would imply a different volumetric flow rate for benzene (or a different density), which isn’t consistent with the scenario’s data.

Mass flow rate is found by multiplying the liquid’s density by the volumetric flow rate in the pipe (m_dot = ρ × Q). For benzene near room temperature, the density is about 880 kg/m^3. The problem ties the flow to the pipe’s size and velocity, so the volumetric rate is Q = A × v. Using the given pipe geometry and flow velocity yields a volumetric flow rate around 1.72×10^-4 m^3/s. Multiplying by the density gives m_dot ≈ 0.151 kg/s, which matches the expected answer.

Any other option would imply a different volumetric flow rate for benzene (or a different density), which isn’t consistent with the scenario’s data.

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