首页|期刊导航|中国塑料|注塑机模具冷却/物料预热联合循环节能效果实验研究

注塑机模具冷却/物料预热联合循环节能效果实验研究

唐宇煊杨卫民王涛胡和敏丁玉梅

中国塑料2026，Vol.40Issue(2)：98-105,8.

中国塑料2026，Vol.40Issue(2)：98-105,8.DOI:10.19491/j.issn.1001-9278.2026.02.016

注塑机模具冷却/物料预热联合循环节能效果实验研究

Experimental investigation of energy-saving performance in an injection molding system with integrated mold cooling and material preheating circulation

唐宇煊 ¹杨卫民 ¹王涛 ¹胡和敏 ¹丁玉梅¹

作者信息

1. 北京化工大学机电工程学院,北京 100029
折叠

摘要

Abstract

To enhance energy efficiency in injection molding,this study proposes and experimentally evaluates an innova-tive integrated circulation system that combines mold cooling with plastic material preheating.In this system,waste heat recovered from the mold cooling circuit is effectively repurposed to preheat and dry raw plastic pellets.Experimental re-sults demonstrate that the heat exchanger rapidly reduces surface moisture during the initial preheating stage,achieving a peak drying rate of 0.29%/min.In contrast,the conventional electric dryer excels at removing internal moisture,reli-ably lowering the final moisture content to 0.02%.Energy consumption analyses reveal significant differences during the preheating phase.For example,drying 500 g of polycarbonate with an initial moisture content of 0.40%consumes approximately 15 kW·h when using the dryer alone,the highest among all tested configurations.By contrast,preheating exclusively via the combined circulation system requires only about 8 kW·h,representing the lowest energy demand.A hybrid approach(using both systems)yields intermediate consumption.Notably,power usage during the actual produc-tion(injection molding)stage shows negligible variation across the three preheating methods;thus,total energy savings are predominantly attributed to the preheating phase.The influence of initial moisture content on overall energy consump-tion is relatively minor,whereas increasing material mass leads to a substantial rise in energy demand,though the heat re-covery system maintains consistent energy-saving benefits.The system's applicability is further validated through trials with polyamide 66,where it achieves a 4 kW·h reduction in electricity consumption after 60 min of preheating,confirm-ing its potential for broad industrial adoption.

关键词

注塑机/模具冷却/节能减排/能量回收/模具冷却/物料预热联合循环

Key words

injection molding machine/molding cooling/energy-saving/energy recovery,mold cooling/material preheating combined circulation

分类

化学化工

引用本文复制引用

唐宇煊,杨卫民,王涛,胡和敏,丁玉梅..注塑机模具冷却/物料预热联合循环节能效果实验研究[J].中国塑料,2026,40(2):98-105,8.

基金项目

国家自然科学基金(NSFC)项目(52476049) （NSFC）

中央高校基本科研经费(buctrc202138、buctrc202301) （buctrc202138、buctrc202301）

中国塑料

ISSN：1001-9278

访问量0

下载量0

段落导航