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市场调查报告书
商品编码
1517407
全球电池添加剂市场规模研究,按类型、产品、应用和区域预测 2022-2032Global Battery Additives Market Size Study, by Type, by Product, by Application, and Regional Forecasts 2022-2032 |
2023年全球电池添加剂市场价值约24.5亿美元,预计在2024-2032年预测期内将以超过9.92%的健康成长率成长。电池添加剂是引入电池电解液或电极材料中的化合物,以提高电池的性能、效率和寿命。这些添加剂会影响电池的一系列特性,包括充电容量、循环寿命、倍率效能、安全性和储存稳定性。近年来,铅酸和锂离子电池生产的大量投资提高了对电池添加剂的需求。此外,对电动车(EV)和再生能源储存系统的需求增加也推动了对电池添加剂的需求。更严格的环境法规和全球对永续发展的高度关注正在加速向更高效、更耐用的电池的转变。然而,由于供应链中断而导致原材料供应和成本的波动可能会对电池添加剂市场产生负面影响。电池的处置和回收会带来环境和健康风险,可能会导致严格的法规出台,从而减缓电池添加剂的渗透。然而,电池设计和能量密度的技术进步,以及锂离子电池成本的下降,也促进了电池添加剂的使用。此外,便携式电子产品的不断普及也推动了对先进电池添加剂的持续需求。
在几个关键因素的推动下,全球电池添加剂市场正在经历强劲成长。尤其值得注意的是,高功率应用中导电添加剂的使用不断增加。导电添加剂被整合到电极配方中,以增强电池内部的导电性。在需要高功率输出的应用中,例如电动车 (EV) 和需要快速充放电循环的设备,对导电添加剂的需求特别高。成核添加剂用于控制电池电解液中晶体结构的形成,这可以显着影响电池的离子传输特性。成核添加剂对于最佳电池性能至关重要,特别是在循环寿命和稳定性方面。对于需要长期可靠性的储能係统和便携式电子产品设计的电池来说,对成核添加剂的偏好是明显的。多孔添加剂透过创造更多的离子运动路径,在增强电池单元内的电解质吸收和离子电导率方面发挥关键作用。多孔添加剂包括在电极结构内形成多孔网络的材料,包括二氧化硅或聚合物。这些添加剂对于需要透过促进离子在电解质中更快扩散来支援快速充电的电池至关重要。
全球电池添加剂市场也看到膨胀剂混合物的作用不断扩大,这对于维持铅酸电池中活性材料的孔隙率和导电性至关重要。膨胀剂混合物是掺入铅酸电池负极中的颗粒添加剂。膨胀剂混合物的作用是保持活性材料的孔隙率和导电性,从而防止电池运作期间海绵铅的緻密化。增强型富液式电池 (EFB) 电池是标准富液式电池的改良版本,可在严苛的条件下提供更好的循环寿命和耐用性。吸收性玻璃毡 (AGM) 电池由玻璃毡隔板组成,可吸收电池极板之间的电解质溶液,并以其低内阻和良好的电气可靠性而闻名。凝胶型电池含有硅基凝胶,可固定电解质,使其防漏,适合各种方向安装,并具有出色的深度放电能力。高充电接受能力电池的设计允许快速充电,而不会降低电池的使用寿命或效能。启动、照明和点火 (SLI) 电池旨在提供启动内燃机所需的高浪涌电流,以在短时间内提供大量电流,然后透过车辆交流发电机进行长时间的低电平充电。固定电池专为具有长放电週期的深循环应用而设计,并且可以在极少的维护下长时间保持性能。牵引电池旨在提供高功率输出和耐用性,以在两次充电之间推动车辆行驶很长的距离。晶种材料是指在电池电极的初始形成週期期间引发并促进电池电极中所需晶体结构形成的添加剂。适当的种子材料选择可以减少电池化成过程所需的时间,并增强电池的长期循环性能和稳定性。
全球电池添加剂市场研究考虑的关键区域包括亚太地区、北美、欧洲、拉丁美洲和世界其他地区。由于对电动车生产和再生能源储存系统的强烈关注,北美的电池添加剂市场正在快速发展。客户的购买行为主要是由对高性能和持久电池的需求所驱动的,这推动了美洲对先进添加剂技术的研究和投资。鑑于电池製造业的建立、电动车基础设施的大量投资以及新兴的再生能源产业,亚太地区在全球电池添加剂市场中占有重要份额。电动车、便携式电子产品和大规模储能解决方案的快速采用推动了亚太地区消费者对电池添加剂的需求。
Global Battery Additives Market is valued at approximately USD 2.45 billion in 2023 and is anticipated to grow with a healthy growth rate of more than 9.92% over the forecast period 2024-2032. Battery additives are chemical compounds introduced into a battery's electrolytic solution or electrode materials to enhance the battery's performance, efficiency, and longevity. These additives can impact a range of battery characteristics, including charge capacity, cycle life, rate capability, safety, and storage stability. Significant investments in the production of lead-acid and lithium-ion batteries have improved the demand for battery additives in recent years. In addition, the elevated demand for electric vehicles (EVs) and renewable energy storage systems is propelling the demand for battery additives. Stricter environmental regulations and a heightened global focus on sustainability are accelerating the shift towards more efficient and long-lasting batteries. However, the fluctuating availability and cost of raw materials due to supply chain disruptions can negatively affect the battery additives market. Disposal and recycling of batteries pose environmental and health risks, potentially resulting in stringent regulations that could slow down the penetration of battery additives. Nevertheless, technological advancements in battery design and energy densities, along with the declining cost of lithium-ion batteries, also catalyze the usage of battery additives. Furthermore, the growing proliferation of portable electronics contributes to a sustained demand for advanced battery additives.
The Global Battery Additives Market is experiencing robust growth, propelled by several key factors. The growing usage of conductive additives for high-power applications is particularly notable. Conductive additives are integrated into electrode formulations to enhance the electrical conductivity within battery cells. The need for conductive additives is particularly high in applications requiring high power output, such as electric vehicles (EVs) and devices demanding quick charge-discharge cycles. Nucleating additives are used to control the crystal structure formation in the battery electrolyte, which can significantly affect the ion transport characteristics of the battery. Nucleating additives are essential for optimal battery performance, especially regarding cycle life and stability. The preference for nucleating additives is pronounced in batteries designed for energy storage systems and portable electronics, where long-term reliability is necessary. Porous additives play a pivotal role in enhancing the electrolyte uptake and ionic conductivity within battery cells by creating more pathways for ion movement. Porous additives comprise materials, including silica or polymers, that form a porous network within the electrode structure. These additives are critical for batteries that need to support rapid charging by facilitating faster ion diffusion through the electrolyte.
The Global Battery Additives Market is also seeing an expanding role for expander mixes, which are crucial for preserving the active material's porosity and electrical conductivity in lead-acid batteries. Expander mixes are particulate additives incorporated into the negative electrodes of lead-acid batteries. The role of expander mixes is to preserve the active material's porosity and electrical conductivity, thus preventing the densification of the lead sponge during battery operation. Enhanced Flooded Battery (EFB) batteries are an improved version of the standard flooded battery, offering better cycle life and durability under demanding conditions. Absorbent Glass Mat (AGM) batteries consist of a glass mat separator that wicks the electrolyte solution between the battery plates and are known for their low internal resistance and good electrical reliability. Gel-type batteries contain a silica-based gel that immobilizes the electrolyte, making them leakproof and suited for various orientation installations with excellent deep discharge capabilities. High-charge acceptance batteries are engineered to allow rapid recharging without degrading the battery's lifespan or performance. Starting, Lighting, and Ignition (SLI) batteries are designed to provide the high surge currents required to start internal combustion engines to deliver a large amount of current for a short period, followed by long periods of low-level charging from the vehicle's alternator. Stationary batteries are designed for deep-cycle applications with long discharge periods and can sustain performance over extended periods with minimal maintenance. Traction batteries are designed to provide high power output and endurance to propel vehicles over significant distances between charges. Seeding material refers to additives that initiate and promote the formation of desirable crystal structures in battery electrodes during their initial formation cycle. Proper seed material selection can reduce the time required for the battery formation process and enhance the long-term cyclability and stability of the batteries.
The key regions considered for the global Battery Additives market study include Asia Pacific, North America, Europe, Latin America, and Rest of the World. The battery additives market in the North America is rapidly developing due to the strong focus on electric vehicle production and renewable energy storage systems. Customer purchasing behavior is primarily driven by the demand for high-performance and long-lasting batteries, fueling research and investment in advanced additive technologies in the Americas. Whereas, the Asia Pacific region represents a significant share of the global battery additives market due to the establishment of the battery manufacturing sector, substantial investments in EV infrastructure, and the burgeoning renewable energy sector. The rapid adoption of electric vehicles, portable electronics, and large-scale energy storage solutions drives consumer needs for battery additives in Asia-Pacific.