2025面向欧洲家庭的智能家居能源解决方案白皮书

WHITE PAPER Midea Building Technologies Division Midea Building Tech. management have become core issues for industry development. With the widespread adoptionof renewable energy, conventional energy systems face multiple challenges, including imbalances between supply and demand, limitations of storage technologies, and the need to improvesystem operating efficiency. At the same time, users are demanding greater intelligence, conve-nience, and cost optimization from energy systems. How to achieve efficient energy storage andflexibledispaenergyforms.arecommon problems the industry urgently needs to solve. In addition, with the rapid growth of newenergysystemsmustbemoresystematized,intellis to build efficient, intelligent energy management systems will be an important direction for promoting sustainable industry development. Chapter 1: Current State of Household Energy in Europe01 1.1 Household Energy Consumption Profile and Trends011.2 HEMS Market Dynamics and Growth Projections021.3 Market player distribution and Device Connectivity021.4 Energy Efficiency Impact on Property Value and Building Standards031.5 EU-Funded HEMS Demonstration Projects04 Chapter 2: Challenges Faced by HEMS 2.1 Macro-Level Barriers: Cost, Awareness, and Policy052.2 System Selection Dilemma062.3 Poor user experience062.4 Low energy utilization efficiency072.5 Installation and Debugging Barriers07 Chapter 3: Overview of Midea iEasyEnergy Smart Energy Solution08 3.1 Solution Architecture: Components and Technologies083.2 Core Technology I: Intelligent HEMS DesignLI3.3 Core Technology Il: Flexible operation of Heat Pump123.4 Core Technology Il: All-in-One initial Configuration Chapter 4: Case Study & Product Value 4.1 Comparative Analysis of Investment and Operating Costs4.2 Core Values of Midea iEasyEnergy17 Chapter 5: Summary & Outlook References 1.2 HEMS Market Dynamics and Growth Projections Chapter 1 Europe ranks as the world's second-largest market for Home Energy Management Systems (HEMS), after North America, withrate (CAGR)of 14.3%from 2024to2032,expanding to anestimatedUSD 3.5billion by2028[2).In terms of adoption,theby 2030[3] Current State of Household Energy in Europe 1.1 Household Energy Consumption Profile and Trends Germany represents the largest HEMS market in Europe, followed by the United Kingdom. Both countries demonstrate a strongcommitment to renewable energy and smart grid technologies[41, which is reflected in their current HEMS adoption rates anddrivers behind HEMS installation across Europe include reducing electricity bills, maximizing self-consumption of solar powerandenhancingindepeidence from the traditional power market. Household energy consumption in Europe accounts for a relatively high proportion of total energyconsumption, and is mainly used for space heating, cooling, hot water and electrical appliancesAlthough the penetration of renewable energy is increasing year by year, energy utilizationefficiency still needs improvement.Withtherapid development of distributed energyresources(DERs) such as solar photovoltaics (PV), energy storage systems, electric vehicles, and heatpumps, household energy flows are becoming increasingly complex. Home Energy ManagementSystems (HEMS) play a key role in this context by optimizing data communication and simplifyingenergy flow management to reduce consumer costs. HEMS adoption varies significantly across Europeanalready entered the product roll-out phase, whileSpain,the Netherlands,and Switzerland are conducting pilot projects. Meanwhile, the UK, Belgium,Austria, and Italy are in earlier preparatory stages. By2030, substantial growth is anticipated across allthesemarkets,withexpansiors ranging fromsixfold in Germany to twentyfold in Spain[4] The HEMS market is expected to grow significantly: by 2035 the global HEMS market is projectedto expandtwelve-folddrivenby afourfold increase in distributed energy devices and athreefold increase in revenue per unit. HEMS is not only a solution to manage increasing complexity inhousehold energy, but also an important driver of digital transformation in the energy sectorsupporting sustainable development goals. Buildings account for roughly 40% of totalenergy consumption in Europe, of which 78% isused for heating and hot water[5]. Optimizingbuilding energy use is therefore key to improv-Efficient House' standard evaluates buildingenergy performance in tiers and encourages theadoption of energy-saving technologies andrenewable systems. Efficient houses not onlysignificantly reduce energy use but can alsoreceivesubsidiesandfavorableloanstoreducebuyers' financial burdens. HEMS helps house-nolds achieveefficientoperationofheating,hotwater and appliances through intelligent moni-toring and optimization. Combined with the 'KfWEfficient House' standard[6], HEMS can improvea building's energy rating and promote renewable adoption, contributing to emission reduc-tion targets while providing both economic andenvironm