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시장보고서
상품코드
1736402
스마트 물 관리 시장 : 제공별, 최종 사용자별, 솔루션별, 지역별(2026-2032년)Smart Water Management Market By Offering, End-User, Solution, & Region for 2026-2032 |
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스마트 워터 솔루션에 대한 인식과 수요가 증가함에 따라 스마트 워터 관리 기술의 많은 혁신 경로가 높아지고 있습니다. 이와 같이 스마트수 솔루션의 인기가 높아짐에 따라 시장 규모를 가속화하고 2024년에는 156억 달러를 돌파했고 2032년에는 약 385억 달러의 평가액에 달할 전망입니다.
스마트 물 기술은 물 시스템을 평가하고 품질과 양을 손상시킬 수 있는 모든 문제에 신속하게 대응합니다. 장기적으로 보면, 보다 경제적인 급수 시스템이란, 보다 효율적인 시스템입니다. 따라서, 스마트 물 기술의 모니터링과 신속한 대응이 스마트 물 기술의 채용을 증가시켜 12% 시장 성장을 가능하게 합니다.
스마트 물 관리 시장 정의/개요
스마트 물 관리는 센서와 자동화 도구를 사용하여 물 시스템의 능력과 효율성을 향상시키는 기술입니다. 구성 요소에는 센서, 데이터 분석 툴, 제어 시스템, 통신 네트워크, 사용자 인터페이스 등이 포함되어 있습니다.
공중 보건 기준을 개선하기 위해 스마트 물 관리는 수질을 모니터링하고 수질 오염의 검출과 예방을 지원합니다.
똑똑한 물 관리는 시스템을 전략적으로 활용하고 첨단 센서로 항상 경계하고 있습니다. 그 자체를 소독하고 유해한 미생물을 제거할 수 있습니다. 이와 같이, 스마트 물 관리 시스템은 헬스케어에 초점을 맞추어, 전략적으로 오염된 물을 모니터링해, 스마트 물 관리 시장을 견인하고 있는 미생물을 줄입니다.
스마트 물 관리는 환경 악화와 기후 변화와 관련된 위험을 줄일 수 있습니다. 질을 감지하는 실시간 모니터링은 물 생태계를 안전하게 유지하기 위한 다목적 접근법을 설명합니다.
스마트수처리의 공헌은 세계의 온실가스 배출량의 3%-7%에 상당합니다. 수처리 시설에서의 배출은 스마트 기술을 사용하여 처리 절차를 모니터링하고 최적화함으로써 줄일 수 있습니다.
스마트수는 누수의 문제를 검출해, 누수를 수리하는 것으로, 도시에 있어서의 폐수 문제를 대폭 삭감합니다. 예를 들면, 인도에서는 농촌에서는 하루 396억 400만 리터의 폐수가 발생해, 도시에서는 2020-2021년에 723억 6,800만 리터의 폐수가 발생했습니다.
농약은 농장이나 보육원에서 빈번하게 사용되기 때문에 충분한 여과가 행해지지 않을 가능성이 있는 수원에 누출될 가능성이 있습니다. 수제 정수 시스템이 안전한 식수를 생성하는 데 효과적이지 않다는 것도 여과의 단점입니다. 이들이 구제책을 무시하면 단순히 수도꼭지에서 물을 마시는 것보다 피해가 커집니다. 안전하지 않은 식수를 제공하기 위해서는 물과 수로가 적절하고 능숙하게 정기적으로 유지 관리되어야 합니다.
게다가 초기 설치 비용은 스마트 수도 계량기의 큰 장애물 중 하나입니다. 딥 수량계는 가정에서의 물 사용량에 관한 종합적인 데이터를 수집합니다.특히 데이터가 외부와 공유되는 경우, 모니터링의 범위가 넓어지기 때문에 이를 우려하는 고객도 있을 가능성이 있습니다.
스마트 수량계는 데이터 전송을 위해 데이터 연결을 필요로 합니다. 그렇게 할 수 있으며 농촌 지역에서 스마트 수도의 보급에 지장을 줄 것으로 예측됩니다.
Increasing awareness and demand for smart water solutions is raising the route for many innovations in smart water management technology. Several water service providers have integrated smart water solutions into the system to conserve the water of the consumers. Thus, the rising popularity of smart water solutions is accelerating the market size to surpass USD 15.6 Billion in 2024 to reach a valuation of around USD 38.50 Billion by 2032.
Smart water technologies evaluate the water systems and provide quick responses to any of the issues that could compromise quality or quantity. To reduce waste, smart water systems facilitate early leak detection and timely system repair. Over time, more economical water supply systems are those that are more efficient. Therefore, smart water technologies monitoring and quick response are increasing the adoption of smart water technologies, which is enabling the market to grow at a CAGR of 12% from 2026 to 2032.
Smart Water Management Market: Definition/ Overview
Smart water management is a technology that uses sensors and automation tools to enhance the ability and efficiency of water systems. Smart water management is gaining pace to address the problem of climate change. Smart water management is made up of components that are designed to maximize water efficiency. The components include sensors, data analytics tools, control systems, communication networks, and user interfaces. Smart water management is well-suited for water-intrusive sectors as these sectors need tight evaluation and regulation processes to optimize the limited water supply.
To improve public health standards smart water management monitors the water quality, which supports in detecting and preventing water pollution. The contamination from industrial waste and agricultural runoff introduces harmful pollutants in the drinking water, which affects the living life.
The smart water management utilized its system strategically and constantly vigilant with the advanced sensors. These sensors indicate the pH, and alkalinity of water, affecting the taste as well as transmitting the dangerous microbes. This indicator also can disinfect itself and remove harmful microbes. Thus, the smart water management system focuses on healthcare, strategically monitors the contaminated water, and reduces the microbes, which are driving the smart water management market.
Smart water management can mitigate the risks associated with environmental degradation and climatic change. Agricultural runoff disturbs the aquatic life and the fertilizers-Landen in the water, and an overabundance of nutrients can cause toxic algal blooms, which suffocate the aquatic organisms. The smart water solutions provide a multi-purpose approach to keep the water ecosystem safe, by real-time monitoring the sensors network constantly tracks water quality parameters, and detects pollutants. Smart water systems detect early the pollutants for swift intervention and treatment and to prevent contamination. In addition, the smart water solution can also optimize water usage and reduce fertilizer runoff.
The contribution of smart water treatment contributes a significant portion of 3%-7% of global greenhouse gas emissions. The wastewater treatment releases methane and nitrous oxide, significant greenhouse emissions. The implementation of smart water management in water utilities substantially reduces the environmental impact. Emissions from wastewater treatment facilities can be decreased by using smart technology to monitor and optimize treatment procedures. Energy consumption in water treatment and distribution can be reduced by smart systems through process automation and usage pattern analysis.
Smart water detects the problem of leaks and repairs of leaks substantially reducing the waste water issue in the urban areas. Rapid urbanization is the major reason for the scarcity of water resources, and smart water management provides a solution for sustainable urban development. The contribution of smart water management in urban development is surging the demand for smart water management in urban areas. For instance, in India, the wastewater generation is estimated to be 39,604 Million Litres per Day in the rural regions, and in the urban region, the wastewater generation is estimated to be 72,368 Million Litre per Day for the year 2020-21.
The pesticides are frequently used on farms and nurseries, there is a chance that they will leak into water sources that may not have undergone adequate filtration. A defiled well must be checked for pesticide pollution because it can only be treated with public water. The ineffectiveness of homemade water purification systems in generating safe drinking water is another disadvantage of filtration. These structures require regular maintenance and replacement to effectively filter out all of the hazardous materials and living creatures. If the people ignore this remedy, it do more damage than if the people could simply drink water right out of the faucet. This is when the ocean's dolphin jumps in. The remedy recommended by ocean dolphins is water filtration. However, it must be carried out with extreme caution. Water and channels need to be adequately, skilfully, and regularly maintained to provide safe drinking water. Water cannot contain harmful elements or microorganisms that could cause serious illnesses.
In addition, the initial installation cost is also one of the major hurdles for smart water meters. Low-income households may be disproportionately affected by this, which could exacerbate already-existing disparities. Government subsidies, phased rollouts, or finance solutions could be investigated to provide equitable access. Also, smart water meters gather comprehensive data on the amount of water used in homes. Some customers may find this concerning because of the extent of surveillance, particularly if the data is shared with outside parties. Strong data privacy laws and transparent information about data use are necessary to allay fears and foster confidence.
The smart water meters require data connection for data transmission. Places such as some rural areas with inadequate internet access may encounter technological problems that impede communication, result in improper billing, or cause inconvenience to clients, which is expected to hamper the smart water system in the rural areas. To guarantee dependable data transfer, it could be required to invest in infrastructure upgrades or find alternate communication methods, which will require a high cost for developing the infrastructure, and underdeveloped regions are not able to afford the cost.
Industries use a lot of water in their operations, but as a result, they produce an intricate mixture of toxins and pollutants. Industries must properly treat their effluent before releasing it into the environment and by ever-tougher rules. Regulatory agencies are essential in establishing high standards. They effectively force enterprises to invest in reliable water and wastewater treatment systems by establishing strict discharge regulations. This preserves our water supplies and encourages advancement in the industry.
Industries more easily manage their effluent because of improvements in treatment technologies. The prevalence of on-site treatment facilities is rising, enabling businesses to treat their wastewater to compliance levels before release. The increase in water reuse practices is even more encouraging. Industries can efficiently treat wastewater and reintegrate it into their production processes by employing cutting-edge techniques including membrane filtering, biological treatment systems, and sophisticated oxidation processes. By doing this, they lessen their impact on the environment and their dependency on freshwater supplies, which supports a more sustainable method of water management. All these factors are projected to help industrial segment hold a major share in the smart water management market.
The service segment is substantially dominating the smart water management market and is expected to continue its growth throughout the forecast period. Construction of brand-new treatment facilities to meet the constantly rising demand for clean water, the services sector directly addresses the problem. Thus, the service sector is dominating the smart water management market. They also perform the role of a doctor for our current infrastructure, renovating and maintaining older wastewater treatment facilities, particularly in industrialized nations where these establishments may be getting on in years.
Service providers in the smart water management market offer comprehensive solutions that go beyond hardware and software components, including system integration, installation, configuration, maintenance, and support. They specialize in customizing solutions to meet the specific needs of water utilities, municipalities, industries, and commercial entities, collaborating with clients to assess challenges, design tailored solutions, and implement strategies that optimize water usage, reduce waste, and improve operational efficiency.
Advanced data analytics tools and platforms are used by service providers to analyze real-time and historical data from smart water meters, sensors, and IoT devices, enabling continuous monitoring of water quality, consumption patterns, leak detection, pressure management, and asset performance. These data-driven insights empower stakeholders to make informed decisions and take proactive measures to address water-related issues.
Regulatory compliance and sustainability are also supported by service providers, promoting water conservation practices, optimizing resource allocation, and implementing eco-friendly solutions that contribute to water stewardship and environmental protection.
Asia Pacific is substantially dominating the smart water management market. Asia Pacific is globally leading in the agricultural sector and the government initiative for smart cities and smart water systems is driving the region's growth in the smart water management system. The adoption of advanced technologies like the Internet of Things in the smart water system to achieve sensor-based monitoring and control systems to identify leaks, monitor consumption trends, and automate watering. SCADA systems are the operation's brains. Water treatment facilities and distribution networks are remotely monitored and controlled thanks to the data they gather from sensors and meters. Better decision-making, more operational efficiency, and faster reaction times are the results of this.
In addition, the government initiative for smart water technology is driving the smart water management market in the region. For instance, the Indian government has invested USD 411,882 Million for a start-up incubated at the Indian Institute of Technology, Kanpur for developing smart water management technologies. India is taking significant strides towards ensuring a more secure and sustainable water future for its citizens. The National Hydrology Project focuses on data-driven decision-making and capacity building, while the Jal Jeevan Mission tackles accessibility and sustainability at the ground level. By working in tandem, these projects pave the way for a future where water resources are managed efficiently and equitably for all Indians.
The smart water management market is expected to continue its strong growth trajectory. As water scarcity concerns intensify and regulations tighten, we can expect to see further consolidation, innovation, and partnerships within the industry. The future of smart water management lies in creating a collaborative ecosystem where different players can work together to ensure efficient and sustainable water management for all. The organizations are focusing on innovating their product line to serve the vast population in diverse regions.
Some of the prominent players operating in the smart water management market include: