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coolprop-node

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A Node.js wrapper for CoolProp providing an easy-to-use interface for thermodynamic calculations and refrigerant properties. Unlike all the other CoolProp npm packages I've seen, this one should actually work. Please report any issues.

github.com/Craigzyc/coolprop-node

Craigzyc/coolprop-node

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const coolprop = require('../src/index.js'); describe('R507 Real Values', () => { it('should calculate superheat correctly at -40°C saturation', async () => { const result = await coolprop.calculateSuperheat({ temperature: -35, // 5K above saturation temp of -40°C pressure: 5.4, // saturation pressure at -40°C (from chart) refrigerant: 'R507a', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('success'); expect(Math.abs(result.superheat - 5)).toBeLessThan(0.1); // Should be ~5K superheat }); it('should calculate superheat correctly at -20°C saturation', async () => { const result = await coolprop.calculateSuperheat({ temperature: -15, // 5K above saturation temp of -20°C pressure: 30.9, // saturation pressure at -20°C (from chart) refrigerant: 'R507a', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('success'); expect(Math.abs(result.superheat - 5)).toBeLessThan(0.1); // Should be ~5K superheat }); it('should calculate subcooling correctly at 30°C saturation', async () => { const result = await coolprop.calculateSubcooling({ temperature: 25, // 5K below saturation temp of 30°C pressure: 196.9, // saturation pressure at 30°C (from chart) refrigerant: 'R507a', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('success'); expect(Math.abs(result.subcooling - 5)).toBeLessThan(0.1); // Should be ~5K subcooling }); it('should calculate subcooling correctly at 40°C saturation', async () => { const result = await coolprop.calculateSubcooling({ temperature: 35, // 5K below saturation temp of 40°C pressure: 256.2, // saturation pressure at 40°C (from chart) refrigerant: 'R507a', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('success'); expect(Math.abs(result.subcooling - 5)).toBeLessThan(0.1); // Should be ~5K subcooling }); it('should calculate zero superheat at saturation point', async () => { const result = await coolprop.calculateSuperheat({ temperature: 0, // Exact saturation temperature pressure: 75.8, // Matching saturation pressure from chart refrigerant: 'R507a', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('success'); expect(Math.abs(result.superheat)).toBeLessThan(0.1); // Should be ~0K superheat }); it('should calculate zero subcooling at saturation point', async () => { const result = await coolprop.calculateSubcooling({ temperature: 20, // Exact saturation temperature pressure: 148, // Matching saturation pressure from chart refrigerant: 'R507a', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('success'); expect(Math.abs(result.subcooling)).toBeLessThan(0.1); // Should be ~0K subcooling }); it('should calculate subcooling correctly at 30°C saturation', async () => { const result = await coolprop.calculateSubcooling({ temperature: 25, // 5K below saturation temp of 30°C pressure: 196.9, // saturation pressure at 30°C (from chart) refrigerant: 'R507', tempUnit: 'C', pressureUnit: 'psig' }); expect(result.type).toBe('error'); expect(result.message).toBe('Subcooling is infinity'); expect(result.note).toBeDefined(); }); });