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    Renewable solutions in end-uses: Heat pump costs and markets
    Renewable solutions in end-uses: Heat pump costs and markets
    Renewable solutions in end-uses: Heat pump costs and markets
    Ebook104 pages57 minutes

    Renewable solutions in end-uses: Heat pump costs and markets

    By International Renewable

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    About this ebook

    This report provides an overview of heat pump technologies and their applications, discusses building stock and the implications for the use of heat pumps in both new and old buildings and examines recent market developments.
    LanguageEnglish
    PublisherIRENA
    Release dateNov 1, 2022
    ISBN9789292604929
    Renewable solutions in end-uses: Heat pump costs and markets

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      Book preview

      Renewable solutions in end-uses - International Renewable

      1. INTRODUCTION

      If the world is to avoid dangerous climate change and meet the Paris Agreement’s goals, policy makers need to address the challenges of reducing energy use and increasing the share of renewable energy in end-use sectors. Globally, the buildings sector accounts for around 3 gigatonnes (Gt) of direct carbon dioxide (CO2) emissions per year, with electricity use and associated fossil fuel combustion for district heating raising that figure to 10 Gt of CO2 per year (IRENA, 2021a). However, as the cost of renewable power generation – notably for solar and wind technologies – has fallen (Box 1.1), decarbonising the power generation sector has become increasingly economical. The indirect emissions from buildings will decline as electrical end-uses become less carbon intensive. Highly efficient, electricity-driven heat pumps will have a crucial role to play in decarbonising space and water heating in buildings.

      Unfortunately, data on the costs and performance of heat pumps are difficult to find and, in many cases, unavailable. Policy makers are left having to make important decisions around the energy transition with less than adequate factual data to support their analysis of options for heat provision. It is therefore not uncommon to see economic analyses of heating options focus on only operating cost savings (e.g. IEA, 2019) or making single point cost assumptions for entire regions (e.g. JRC, 2019).

      To help remedy that situation, this report presents the best available data for the costs of heat pump systems for residential buildings. The granular data on the installed costs and performance of heat pump systems in different market segments will allow policy makers, researchers, industry stakeholders and others to conduct more robust analyses. While the data in this report are the best available, they are far from ideal. Primary sources have been prioritised, but key differences in data, due to differing system boundaries, mean direct comparisons between markets are difficult. In many countries, robust data are simply unavailable and policy makers will be forced to rely on anecdotal evidence, or snapshots that may be more or less representative. More work to expand data collection and harmonise it across countries would be welcome.

      In buildings, the direct use of fossil fuels is dominated by space and water heating, and cooking. In countries with significant heating seasons, and especially those with cold climates, space heating accounts for the largest share of total building energy consumption and also direct fossil fuel use. Energy efficiency can help address related emissions, but given the urgency of decarbonising the buildings sector and the difficulty of scaling up deep energy efficiency retrofits of the existing building stock, it is important to decarbonise heat supply. With the fall in renewable power generation costs, a solution is at hand. A decarbonised electricity sector makes the electrification of end-use sectors an avenue to rapidly reduce buildings emissions.

      Heat pumps in buildings and industry represent a highly efficient solution for decarbonising sanitary hot water, space heating and low-temperature process heat needs. Heat pumps are the default technology for the cooling sector, but continuous technology improvements mean solutions are becoming more efficient, further reducing the emissions from cooling.

      Heat pump technologies represent a mature, reliable and established technology solution for space and water heating. However, despite growing market deployment in recent years, their use in countries with substantial space heating demands – with the exception of the Nordic countries – remains low. This needs to change rapidly if the world is to keep the Paris Agreement goals in play.

      As a result of significant innovation and technology development, the fossil fuel price crisis of 2022 and targeted policy support, heat pump installations are growing significantly in a number of existing and new markets. Scandinavian countries have long set the benchmark – heat pumps have been the top choice for new heating systems for years – but other, newer markets are now seeing rapid growth, from Belgium to Poland. This growth and potential are stirring manufacturers to raise production capacity.

      Yet despite these promising developments in heat pump deployment, particularly for new builds, progress remains below what is needed. In most countries with cold climates, home construction rates are low and the majority of heating systems are still boilers or furnaces using gas or oil. When these fail, there is often little time to plan for a heat pump installation and the current demand also means skilled and experienced installers are in short supply. This remains a key barrier in many cases to more rapid uptake.

      In the past, the wide gap in capital expenditure needed between a heat pump and a fossil heating solution was a challenge. Although heat pumps are three to five times more efficient, electricity costs are typically higher than those of fossil fuels – in part due to the taxation burden being heavier for electricity than gas, in Europe at least. Fossil fuels, in most jurisdictions, still do not pay the real cost of their externalities (in terms of local and global pollutant costs) and indeed are often still receiving subsidies. Reform of this situation would

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