The Green Building Council of Australia (GBCA) are supporting the ALCAS Conference by offering Sustainable Development (SD) CPD points to participants...
GBCA Sustainable Development CPD points on offer at ALCAS conference
December 10, 2018
Find out how you can improve the adoption of sustainable supply chains to ensure best practice materials are being used in this masterclass developed...
GBCA Holds Responsible Products and Materials Masterclass
February 28, 2018
If you are an LCA Professional with an interest in working overseas, this job may be for you. Chalmers University of Technology in Gothenburg Sweden...
LCA Professional Needed in Sweden
April 1, 2019
A life cycle study of wastewater infrastructure that seeks to enhance harmony with nature
August 29, 2018
A recently published environmental study seeks to use a life cycle approach to explore how sustainability principles could be embedded into the life phases of wastewater systems.
Here is the Abstract:
Restoring and improving harmony between human activities and nature are essential to human well-being and survival. The role of wastewater infrastructure is evolving toward resource recovery to address this challenge. Yet, existing design approaches for wastewater systems focus merely on technological aspects of these systems. If system design could take advantage of natural ecological processes, it could ensure infrastructure development within ecological constraints and maximize other benefits. To test this hypothesis, we illustrate a data-driven, systems-level approach that couples natural ecosystems and the services they deliver to explore how sustainability principles could be embedded into the life phases of wastewater systems. We show that our design could produce outcomes vastly superior to those of conventional paradigms that focus on technologies alone, by enabling high-level recovery of both energy and materials and providing substantial benefits to offset a host of unintended environmental effects. This integrative study advances our understanding and suggests approaches for regaining a balance between satisfying human demands and maintaining ecosystems.