Climate change

Elsevier, Renewable and Sustainable Energy Reviews, Volume 99, January 2019
The paper investigates the construction of strategies aiming to up-scale low-carbon innovations from pilot to full commercial scale. This requires a systemic understanding of the evolution of the technology along with the organizations and infrastructures supporting its development. Technological innovation systems concepts operationalize system building processes, including the establishment of constituent elements and the performance of key innovation activities.
Degrowth scholars and activists have convincingly argued that degrowth in developed nations will need to be part of a global effort to tackle climate change, and to preserve the conditions for future generations’ basic needs satisfaction. However, the barriers to building a broader degrowth movement appear to be very entrenched at present. To improve the political feasibility of degrowth it is important to better understand these structural obstacles and develop arguments and strategies to address them.
Currently, renewable energy is rapidly developing across the world in response to technical, economic and environmental developments, as well as political and social initiatives. On the other hand, excessive penetration of distributed generation (DG) systems into electrical networks may lead to various problems and operational limit violations, such as over and under voltages, excessive line losses, overloading of transformers and feeders, protection failure and high harmonic distortion levels exceeding the limits of international standards.
Elsevier,

Encyclopedia of Environmental Health (Second Edition), 2019, Pages 653-660

Explores the links between climate change, human health, and human rights—focusing on the human right to health. Examines the current state of the international debate surrounding the human right to health. The goal of SDG target 13 is to take urgent action to combat climate change and its impacts.
To advance goal 12 and 13, this report provides guidance on the “ambition loop” — a positive feedback loop in which bold Government policies and private sector leadership reinforce each other, and together, take climate action to the next level.
Elsevier,

Foundations for Sustainability, A Coherent Framework of Life-Environment Relations, 2019, Pages 1-25

Contributing to SDGs 13, 14 and 15, this introductory chapter presents theory and applications rigorously rooted in science, and we modify the foundations of science so the ground is fertile to nurture the roots of the theory and actions the authors see as necessary to solve the human-environment crisis.
Elsevier,

Foundations for Sustainability, A Coherent Framework of Life-Environment Relations, 2019, Pages 27-47

Contributing to SDGs 13, 14 and 15, the authors describe a set of principles, and related goals, mission, and ultimate purpose, for a new science that serves life and humanity.
Elsevier,

Foundations for Sustainability, A Coherent Framework of Life-Environment Relations, 2019, Pages 205-230

Contributing to SDGs 13, 14 and 15, this chapter explores technology and applications with break-through capacity to contribute solutions to the systemic human-environment problem.
While most businesses understand and recognize their responsibility for the health and safety of their employees, few have connected the dots between their business actions and health outcomes in the market place, in society more generally and in the supply chain. This report outlines concrete actions for companies to embed health and empowerment in their policies, systems, and operations, advancing SDGs 3, 8 and 13.
This report provides an assessment of how companies in the UN Global Compact are adopting the Ten Principles and taking action to deliver on the SDGs. It contributes to Goals 10, 12 and 17.

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