How To Improve Energy Efficiency In Industry – WASHINGTON DC – As international leaders gather next week to discuss climate action at Climate Week NYC, new research shows that energy efficiency could cut US energy use and greenhouse gas emissions by 50% by 2050, putting the United States halfway toward its climate goals.

A report by the nonprofit American Council for an Energy-Efficient Economy offers a road map for dramatically reducing energy waste. It identifies ambitious but cost-effective and technically feasible measures that would prevent the emission of nearly 2,500 million metric tons of heat-trapping carbon dioxide—the equivalent of all emissions from cars, trucks, homes, and commercial buildings—in 2050.

How To Improve Energy Efficiency In Industry

“Energy efficiency is an urgently needed climate solution,” says Executive Director Steven Nadel, co-author of the report. “This will deliver rapid, robust emissions reductions. We can’t wait to take action. We already see the effects of intensifying climate change and an increase in extreme weather events, from respiratory and other health problems to floods, droughts, heat waves and wildfires.

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To avoid a climate change catastrophe, long-term strategies call for reducing total US greenhouse gas emissions by 80-100% by 2050. Previous studies, including by the International Energy Agency (IEA) and the Natural Resources Defense Council (NRDC), have found efficiency measures could cut emissions by about half.

, builds on this work by identifying 11 opportunities and relevant policies to achieve the necessary savings. Transport, which sees a transition to electric vehicles, delivers nearly half (46%) of emissions reductions, while buildings deliver a third and industry a fifth. For energy savings, buildings deliver 40% of the total, followed by transport (32%) and industry (27%).

“Energy efficiency is indispensable for climate change mitigation,” says Kathleen Gaffney, co-author of the IEA’s Energy Efficiency 2018 report. “This has already made a huge difference. Without the efficiency measures implemented since 2000, global emissions would have increased by 12% in 2017.

Vignesh Gourishankar, co-author of a related 2017 NRDC report, says energy efficiency is the least expensive and most effective way to reduce most of our emissions. “This will improve the cost and effectiveness of other critical solutions such as renewables, electric vehicles and electric heat pumps,” he adds.

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“The good news is that we can start now by investing more in energy-efficient equipment, buildings, vehicles and industrial plants,” says Lowell Ungar, senior policy advisor and report co-author. “But to achieve maximum emissions reductions, we need political and financial investments that go beyond business as usual. If we do that, the payoff by 2050 will be impressive.

Government policies and programs alone could deliver nearly $700 billion in energy savings by 2050, the report says. Plus, the authors note, such investment creates more jobs, increases grid resilience, reduces air pollution and improves people’s health.

However, the US government is moving to weaken efficiency standards for light bulbs, appliances and equipment,  cars and trucks. At the same time, most US cities and states are increasing their efficiency and clean energy efforts, although they still have a long way to go.

For more details, check out the fact sheet and the full report or listen to our launch webinar, available for viewing here (download slides).

Actions To Improve Energy Efficiency

The American Council for an Energy-Efficient Economy serves as a catalyst to advance energy efficiency policies, programs, technologies, investments and behaviors. Digitization of energy systems is transforming energy efficiency, introducing new technologies and creating new sources of supporting detailed data. New business models and revenue streams. As the market and technology landscape transform, policy makers are increasingly taking advantage of digital tools for energy efficiency policy to deliver more secure, clean and flexible energy systems. At the same time, digital transformation introduces important new risks related to cybersecurity and privacy, which governments must navigate to ensure that the digital transition is trusted by citizens and market participants.

This article describes how governments are turning to digital tools to strengthen the policy cycle of designing, implementing and monitoring energy efficiency policies. It highlights case studies of the main tools currently in use and identifies the main risks and constraints to their further adoption.

Although its benefits are well known, tapping into the vast resource of energy efficiency has always been difficult for policy makers, as energy efficiency is distributed across millions of homes, appliances, businesses and vehicles. Despite its overall economic benefits, the difficulty of aggregating all potential energy savings in the economy and the associated costs make enabling and managing energy efficiency investments challenging. By collecting small parcels of cost-effective energy savings from thousands of electricity users versus building expensive new power plants to provide more energy services, policymakers may be inclined to support the latter, despite the higher costs. easy

Digitalization offers great potential to change this and enhance energy efficiency policies by providing better information and a more clear vision on distributed energy resources. This can enable new policy design options that allow energy efficiency markets to operate to a greater extent. Digitization can improve implementation and monitoring of program delivery through resources such as smartphone apps and online tools. The use of such tools can benefit a wide range of stakeholders. Furthermore, digital tools are particularly valuable in fostering engagement more tailored to community needs, delivering more cost-effective energy savings, and helping to address energy vulnerability and a range of health, social and gender equality considerations.

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The digital transformation of energy efficiency policy plays a fundamental role in the transition towards net-zero CO

Emissions. For example, in the scenario explored in our recent special report Net Zero by 2050, global energy demand in 2050 is about 8% lower than today, but serving an economy twice as large, with 2 billion people. To achieve this, annual improvements in energy intensity will need to triple over the next decade to deliver 13 gigatons (Gt) of CO2 reduction by 2030. As energy efficiency is one of the most essential measures to achieve climate goals, the role of digitization will be important. By expanding the scope and scale of energy efficiency through electrification, fuel switching and behavioral change.

As part of its focus on the effects of digitalization on energy efficiency, the International Energy Agency (IEA) is examining the use of digital solutions in the energy system, including how to better link energy efficiency with renewable energy production, supporting the role of energy efficiency. Security and equitable access to digital services, and how digitalization can help overcome fundamental barriers to drive energy efficiency implementation.

The sharing of experiences and best practices is an important step to facilitate this next generation of energy efficiency policies. The case studies highlighted in this article show that even as governments accelerate the adoption of such tools, there is still much potential for growth. Indeed, stronger policies are needed to make existing digital solutions more affordable and inclusive.

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Energy efficiency requires policymakers to interact with a variety of stakeholders, including end users, businesses, utilities, information technology (IT) companies, energy service companies (ESCOs) and data providers. Developing policies broad enough to effect change on a large scale and targeted to meet the needs of such diverse groups requires detailed data and a level of connectivity that is difficult and expensive to achieve. Digital tools can be used to provide easy access to such data and foster the necessary connections for next-generation energy efficiency policy.

The potential exists to leverage digital tools at all stages of the policy cycle of design, implementation and monitoring. Their growing role is set to help policymakers measure the value of integrated energy efficiency and measure energy resources more transparently, expanding the energy efficiency ecosystem and enabling new innovative market-based policy approaches.

At the policy design stage, digital tools can provide access to more granular and real-time data, and advanced analytics and modeling capabilities can help predict the impact and cost-effectiveness of programs. During program implementation, digitalization can be an effective communication tool to enable more user-centric policies. At the same time, digital tools allow data to be generated at a higher frequency and on a larger scale than before, allowing for a more continuous approach to assessment.

This article highlights examples from the following ten broad groups of digital technologies and tools, exploring how they are being used in different contexts around the world:

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Massive amounts of energy data are being generated as the world digitizes through the roll-out of “smart” devices, grids and other IT infrastructure and systems. Such data provide a valuable resource for policy makers seeking to deliver on their energy and climate policy goals.

For example, the Indian government has developed the India Energy Dashboards (IED), an open-source portal that collects data and monthly reports on the country’s consumption of electricity, petroleum, and natural gas. India’s Building Energy Efficiency Program Dashboard is another digital tool that provides transparent and accessible data to policy makers and others, enhances understanding of the energy system and supports energy policy decisions at the highest level. The country’s government has also created a National Ujala Dashboard with the aim of promoting

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