*Review* **Permeable Pavements Life Cycle Assessment: A Literature Review**

### **Lucas Niehuns Antunes \*, Enedir Ghisi and Liseane Padilha Thives**

Department of Civil Engineering, Federal University of Santa Catarina, Laboratory of Energy Efficiency in Buildings, Florianópolis-SC 88040-900, Brazil; enedir@labeee.ufsc.br (E.G.); liseane.thives@ufsc.br (L.P.T.) **\***Correspondence:lucas\_niehuns@hotmail.com(L.N.A.);Tel.:+55-48-3721-2115;Fax:+55-48-3721-5191

Received: 28 September 2018; Accepted: 1 November 2018; Published: 3 November 2018

**Abstract:** The number of studies involving life cycle assessment has increased significantly in recent years. The life cycle assessment has been applied to assess the environmental performance of water infrastructures, including the environmental impacts associated with construction, maintenance and disposal, mainly evaluating the amount of greenhouse gas emissions, as well as the consumption of energy and natural resources. The objective of this paper is to present an overview of permeable pavements and show studies of life cycle assessment that compare the environmental performance of permeable pavements with traditional drainage systems. Although the studies found in the literature present an estimate of the sustainability of permeable pavements, the grea<sup>t</sup> heterogeneity in the evaluation methods and results is still notable. Therefore, it is necessary to homogenize the phases of goal and scope, inventory analysis, impact assessment and interpretation. It is also necessary to define the phases and processes of the evaluation, as well as the minimum amount of data to be considered in the modelling of life cycle assessment, in order to avoid heterogeneity in the functional units and other components. Thus, more consistent results will lead to a real evaluation of the environmental impacts caused by permeable pavements. Life cycle assessment studies are essential to guide planning and decision-making, leading to systems that consider increasing water resources and reducing natural disasters and environmental impacts.

**Keywords:** permeable pavements; life cycle assessment; stormwater management; sustainability
