Forvia is a French global automotive supplier headquartered in Nanterre, France. They are an automotive technology group at the heart of smarter and more sustainable mobility, bring together expertise in electronics, clean mobility, lighting, interiors, seating, and lifecycle solutions to drive change in the automotive industry. Forvia, through its two entities, Faurecia and Hella, has demonstrated over the years a
Building Fit-out and its Carbon Behaviour China’s ambitious target of achieving carbon neutrality by 2060 has significant implications for the building sector, which is responsible for nearly half of all global carbon emissions. Specifically, building operations account for 28% of these emissions while new construction contributes to 21%. In China, construction generates 21.6% of emissions, with 28% coming from new
Implementing a green supply chain is a strategic decision that offers various competitive advantages to a company. Firstly, a green supply chain can optimize resource management, reduce operational costs, and contribute to growth. This can be achieved by using recyclable raw materials, eco-friendly packaging, energy-efficient transport solutions, and manufacturing processes that limit water and electricity consumption. Secondly, many governments have
[Case study] Fordia – Energy efficiency and energy savings opportunities in industry Like many players in today’s society, industry stakeholders are taking concrete action to reduce energy consumption and reduce their impact on climate change. Fordia is focusing on drastically reducing its global carbon emissions and has launched a global Energy Efficiency program on all of its operations combined with
案例研究 - 生命周期分析。中国各地的物流资产 TERAO被要求在位于中国的5个新项目(5个物流建筑)的早期阶段进行生命周期分析。目的是在现有项目的基础上建立一个基线,并帮助客户建立一个碳减排目标。该评估包括建筑材料。
在TERAO,我们有专业的知识,可以为建筑物的设计提供建议。为了什么?为了优化能源消耗,同时让居住者感到舒适。这在工业资产中尤其重要,因为生产线可能会产生大量的热量,而且工人的舒适度也会受到影响。我们的一个客户有这样的问题
TERAO如何帮助您有效地冷却您的工业机架? 案例研究 - 冷却系统优化 TERAO的团队作为能源效率专家,为一个特定的案例优化冷却系统。一个台湾的客户,其生产过程受天气的影响很大,需要通过在仓库内增加新的冷却架来控制好湿度和热量。该客户
材料的耐用性是一种战略性的方法,为坚固性和弹性而设计,首先是为了确保和保持建筑的美感,其次是为了避免材料更换所产生的高成本。每种材料或产品都有自己的预期寿命,这些产品的定义使用应该与它们的预期寿命相一致。同时,它们的
功能适应性是在运营阶段建筑需求不断演变的概念。事实上,预测所有这些与建筑的新用途、维护和修理工程有关的挑战是非常重要的。所有这些变化在大多数时候都有可能解决功能问题,并通过考虑用户的需求来提供改进。
生命周期评估方法自1970年以来就被使用。首先,在石油冲击的背景下,它被工业界用来将产品的生产和运输与能源成本联系起来。然后,自1990年以来,重点发展到活动的环境影响。这个方法现在被ISO 14 040和ISO 14 040标准化了。
在建筑项目中,财务评估主要基于初始资金成本。然而,建筑物在运营期间也会产生许多费用,而这些成本往往会在设计和开发阶段被忽略。 这些成本,尤其是维护和更新等费用,与在设计阶段做的选择密切相关。
最近的评论