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claude-codescience

Babysitter separation-sequence-synthesizer

Separation train synthesis skill for optimal sequencing and technology selection

install
source · Clone the upstream repo
git clone https://github.com/a5c-ai/babysitter
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/a5c-ai/babysitter "$T" && mkdir -p ~/.claude/skills && cp -r "$T/library/specializations/domains/science/chemical-engineering/skills/separation-sequence-synthesizer" ~/.claude/skills/a5c-ai-babysitter-separation-sequence-synthesizer && rm -rf "$T"
manifest: library/specializations/domains/science/chemical-engineering/skills/separation-sequence-synthesizer/SKILL.md
tags
#separation-sequencing#technology-screening#process-optimization#chemical-engineering#heat-integration
source content

Separation Sequence Synthesizer Skill

Purpose

The Separation Sequence Synthesizer Skill develops optimal separation sequences by evaluating technology alternatives and sequencing options for multi-component mixtures.

Capabilities

  • Separation feasibility analysis
  • Sequencing heuristics application
  • Technology screening (distillation, extraction, membrane)
  • Heat integration opportunities
  • Hybrid separation systems
  • Economic evaluation
  • Energy optimization
  • Azeotrope breaking strategies

Usage Guidelines

When to Use

  • Designing new separation trains
  • Optimizing existing sequences
  • Evaluating technology alternatives
  • Integrating hybrid systems

Prerequisites

  • Mixture characterization complete
  • Product specifications defined
  • Property data available
  • Economic criteria established

Best Practices

  • Screen technologies systematically
  • Consider heat integration early
  • Evaluate hybrid options
  • Validate with simulation

Process Integration

This skill integrates with:

  • Separation Sequence Synthesis
  • Process Flow Diagram Development
  • Heat Integration Analysis

Configuration

separation-sequence-synthesizer:
  technologies:
    - distillation
    - extraction
    - membrane
    - adsorption
    - crystallization
  optimization-objectives:
    - energy
    - capital
    - total-cost

Output Artifacts

  • Sequence recommendations
  • Technology comparisons
  • Heat integration analysis
  • Economic evaluations
  • Process flow diagrams