This module aims to help policymakers and regulators understand the potential benefits of and opportunities for improving the efficiency of buildings and give them a background on the key issues to be addressed when developing suitable policies and a framework for implementation.
The Green Steel Tracker aims to support decision makers in policy and industry, academia as well as civil society, by tracking public announcements of low-carbon investments in the steel industry and presenting them transparently in one place.
The Roadmap Planner is an interactive tool that supports decision-makers in public and private sectors to design, develop, and implement industry transition roadmaps. From the set-up and design to monitoring and evaluation, the Roadmap Planner guides users step by step through different phases of creating decarbonization roadmaps for transitioning industry sectors.
The Green Cement Technology Tracker aims to support decision-makers and experts in policy and industry, academia as well as civil society, by tracking public announcements of investments in low-carbon cement technologies and presenting them transparently in one place.
This is a database of decarbonization roadmaps for heavy industry sectors from around the world.
This study examines the integration of AI into energy management processes in industrial facilities and the advantages it provides.
This guidance note outlines how cities can tap into a wide array of proven technologies, policies, and financing mechanisms to improve energy efficiency and capture cost-effective energy savings in buildings.
This guide suggests tools cities can deploy to encourage the implementation of building energy efficiency and renewable energy measures by the private sector and citizens.
This policy brief assesses a selection of green building practices, programmes, and regulatory frameworks from Latin American countries including Brazil, Chile, Colombia, Cuba, Mexico and Peru.
This guidebook helps practitioners adopt a holistic approach to sustainable neighbourhood design, integrating the design of efficient energy, water, wastewater and solid waste systems, and low energy mobility.