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Aprašymas
Chemical Engineering is typically taught as if the world will cooperate: instruments are calibrated, utilities are stable, spares arrive on time, and a "better model" is always just one more week of work away. In practice, the problems that matter most, safety, health, reliability, and continuity of service, rarely show up with ideal data or ideal conditions. Resilient Process Engineering is a scenario-driven text that examines how Chemical Engineers work effectively in the real world, applying fundamental chemical engineering principles under constraints and how those fundamentals support sound decisions in less than ideal circumstances. It combines rigorous calculations with realistic field situations, maintenance logic, risk thinking, and practical deliverables, giving readers a coherent systems context while preserving technical depth and discipline.
This book is written for a range of audiences within chemical engineering, including upper-level undergraduate and graduate students in chemical engineering, practicing chemical engineers including specialists who want a structured way to connect across domains, operators, technicians, and field engineers in small plants and utilities, and humanitarian engineering and disaster-response practitioners, where constraints are the baseline.
Chemical Engineering is typically taught as if the world will cooperate: instruments are calibrated, utilities are stable, spares arrive on time, and a "better model" is always just one more week of work away. In practice, the problems that matter most, safety, health, reliability, and continuity of service, rarely show up with ideal data or ideal conditions. Resilient Process Engineering is a scenario-driven text that examines how Chemical Engineers work effectively in the real world, applying fundamental chemical engineering principles under constraints and how those fundamentals support sound decisions in less than ideal circumstances. It combines rigorous calculations with realistic field situations, maintenance logic, risk thinking, and practical deliverables, giving readers a coherent systems context while preserving technical depth and discipline.
This book is written for a range of audiences within chemical engineering, including upper-level undergraduate and graduate students in chemical engineering, practicing chemical engineers including specialists who want a structured way to connect across domains, operators, technicians, and field engineers in small plants and utilities, and humanitarian engineering and disaster-response practitioners, where constraints are the baseline.
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