增材制造弹性镍钛热泵/制冷组件的生命周期评估以及设计几何形状对环境影响类别的影响

IF 6 Q1 ENGINEERING, MULTIDISCIPLINARY Results in Engineering Pub Date : 2024-09-20 DOI:10.1016/j.rineng.2024.102956
Anesu Nyabadza , Karthikeyan Tamil , Lehar Asip Khan , Sujith S. Kumar , Corné Muilwijk , Greg McNamara , Kevin O'Toole , Lorna Fitzsimons , Dermot Brabazon
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引用次数: 0

摘要

弹性镍钛合金可用于固态热泵和冷却。采用 ReCiPe 方法进行生命周期评估,评估了通过粉末床熔融技术制造的弹性镍钛部件对环境的影响。这些固态热泵可减轻目前使用 CFC、HCFC 和 HFC 等有害化学物质的空调/制冷方法对环境的影响。对电能、氩气和压缩空气消耗量的测量是在门到门的范围内进行的,包括粉末运输、印刷和使用阶段。镍被认为是破坏性最大的输入,可通过几何优化来减少。优化后的几何形状(在印刷层数相同的情况下)在粉末床熔融过程中需要更多的能量,但节省材料带来的环境效益远远超过了增加用电量带来的损害。粉末床熔融设备的待机模式比印刷过程消耗更多的能源和氩气,这为减轻环境影响提供了机会。在压缩循环过程中,添加制造的镍钛弹性结构在流动的水中用作发热体/散热体,固体几何形状和优化几何形状在每个循环中的水温变化分别为 11 °C 和 10 °C。作为功能单元的是一个 10 x 10 × 55 毫米的镍钛结构,在压缩循环中可提供 2 °C的温度跨度。
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Life cycle assessment of additively manufactured elastocaloric Ni-Ti heat pump/refrigeration components and the effect of design geometry on the environmental impact categories

Elastocaloric Ni-Ti alloys offer solid-state heat pump and cooling applications. The environmental impact of elastocaloric Ni-Ti parts manufactured via powder bed fusion was assessed using life cycle assessment with the ReCiPe method. These solid-state heat pumps can mitigate the environmental impacts of current air conditioning/refrigeration methods that use harmful chemicals like CFCs, HCFCs, and HFCs. Measurements of electricity, Ar gas, and compressed air consumption were considered within the gate-to-gate boundary, covering powder transportation, printing, and use-phase. Nickel was identified as the most damaging input, reducible through geometry optimization. Optimized geometries (given the same number of printing layers) require more energy during powder bed fusion however, the environmental benefit from material saving outweighs the damage from increased electrical usage by far. The powder bed fusion machine's standby mode consumes more energy and Ar gas than the printing process, presenting an opportunity for mitigation. Additively manufactured Ni-Ti elastocaloric structures were used as heat generators/sinks in flowing water during compression cycles, achieving 11 °C and 10 °C water temperature change per cycle for the solid geometry and the optimized geometry respectively. A 10 x 10 × 55 mm Ni-Ti structure, providing >2 °C temperature span under compressive cycles, served as the functional unit.

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来源期刊
Results in Engineering
Results in Engineering Engineering-Engineering (all)
CiteScore
5.80
自引率
34.00%
发文量
441
审稿时长
47 days
期刊最新文献
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