市場調查報告書
商品編碼
1383394
2030 年黑體溫度計市場預測:按類型、應用和地區分類的全球分析Black-Body Radiation Thermometer Market Forecasts to 2030 - Global Analysis By Type (Thermal Imaging Thermometer, Spot Measuring Device and Other Types), Application (Industry, Aerospace, Medical, Architectureand Other Applications) and By Geography |
根據 Stratistics MRC 的數據,2023 年全球黑體溫度計市場規模將達到 65 億美元,預計到 2030 年將達到 114 億美元,預測期內年複合成長率為 8.4%。
黑體輻射溫度計是一種利用檢測物體發出的部分熱輻射檢測溫度的溫度計。黑體溫度計利用物體發出的輻射量來檢測溫度。黑體溫度計可以檢測的溫度範圍是從幾百度到幾千度。其適應性使其適用於多種應用,包括科學研究、玻璃製造和金屬加工。
黑體溫度計提供出色的溫度檢測精度和準確度。它提供高度可靠的溫度檢測,使其適用於需要精確溫度控制的各種應用。此外,製造、航太和科學研究等行業需要精確的溫度監控,以實現流程最佳化和品管。這些因素正在推動市場需求。
與接觸式熱電偶、紅外線測溫儀等其他溫度檢測相比,黑體測溫儀的價格有點貴。與非接觸式紅外線溫度計和接觸式熱電偶等其他溫度檢測儀器相比,黑體溫度計的購買成本可能較高。然而,一些公司,尤其是中小型企業(SME),可能會因為成本高昂而猶豫是否要購買這些檢測。因此,高成本是市場拓展的主要障礙。
科學研究和實驗室對精確溫度檢測的需求日益成長。黑體溫度計對於化學、物理和材料科學等領域的科學家和研究人員來說是有用的儀器。透過研發,黑體輻射溫度計的檢測範圍可以從低溫擴展到高溫。這些因素正在推動市場成長。
製造設施、工業爐、金屬加工等經常使用黑體溫度計來檢測非常高的溫度。然而,如果管理不當,高溫可能會威脅工人和設備的安全。暴露在高溫下的工人面臨持續燒燙傷和出現與高溫相關的健康問題的風險。這些因素阻礙了市場的成長。
由於 COVID-19 的爆發,醫療機構中的準確溫度監測變得越來越重要。黑體溫度計因其非接觸式和準確的體溫檢測而經常被用於機場、公共場所和醫療機構的發燒篩檢。黑體溫度計對於監測和確保對大流行應對至關重要的部門(包括製藥、食品加工和醫療設備製造)的貨物和程序的品質和安全至關重要。這場大流行凸顯了精確溫度控制的重要性,並增加了這些溫度計的使用。
預計醫療領域將佔最大佔有率。 BBRT 用於檢測患者的體溫。它經常用於準確、非接觸式的體溫監測,特別是在需要減少交叉污染的情況下,例如在機場或醫療機構進行發燒篩檢。 BBRT 也用於實驗室和醫學研究,以確保準確的溫度測量。此外,它還可用於藥品和醫療設備的製造過程中進行品管、校準和檢查。
預計現場檢測儀器領域在預測期內將出現良好的成長。點檢測設備用於檢測物體表面上單點或點的溫度。這些小工具經常用於許多不同的領域和應用,在這些領域和應用中,在特定位置進行精確的溫度檢測至關重要。點檢測儀器設計用於檢測物體表面上單點或點的溫度。它提供高度局部的溫度資料,對於需要精確監控表面溫度變化的應用非常有用。
在外推期間,北美佔據了最大的市場佔有率。北美專注於廣泛的行業,包括製造業、航太、汽車、醫療保健和製藥。其中許多領域需要非常精確的溫度監控和校準,使 BBRT 成為製程最佳化和品管的重要工具。北美還擁有強大的製藥和醫療保健部門。 BBRT 用於生命科學實驗室、製藥製造和醫療設備校準中的溫度監測和品管。
預計亞太地區在預測期內將實現盈利成長。亞太地區是世界製造業中心,尤其是中國。溫度監控和控制對於許多行業和製造設施至關重要,以確保製程有效性和產品品質。該地區正在對研究和開發進行大量投資。 BBRT 對於環境科學、化學和材料科學等領域的科學測試、研究和實驗至關重要。
According to Stratistics MRC, the Global Black-Body Radiation Thermometer Market is accounted for $6.5 billion in 2023 and is expected to reach $11.4 billion by 2030 growing at a CAGR of 8.4% during the forecast period. A black-body radiation thermometer is a type of thermometer that uses a portion of the thermal radiation, also known as black-body radiation that the object being measured emits to determine its temperature. The radiation emitted from an object is used by black-body radiation thermometers to determine temperature. The temperature range that black-body radiation thermometers can measure is from a few hundred to several thousand degrees Celsius. Their adaptability renders them appropriate for an array of uses, including scientific investigation, glass production, and metalworking.
While measuring temperature, black-body radiation thermometers provide excellent precision and accuracy. They are appropriate for a variety of applications where precise temperature management is crucial since they can provide extremely dependable temperature measurements. Additionally, for the purpose of process optimization and quality control, industries including manufacturing, aerospace, and scientific research depend on accurate temperature monitoring. These factors propel market demand.
In comparison to other temperature-measuring instruments like contact thermocouples or infrared thermometers, black-body radiation thermometers can be a little costly. Black-body radiation thermometers can be more expensive to buy than other temperature-measuring instruments like non-contact infrared thermometers or contact thermocouples. However, some businesses, particularly small and medium-sized enterprises (SMEs), may be discouraged from purchasing these instruments due to their high cost. Therefore, high costs are a significant barrier to market expansion.
The need for precise temperature measurement in scientific research and laboratory settings is rising. Black-body radiation thermometers are useful instruments for scientists and researchers in fields including chemistry, physics, and material science. Black-body radiation thermometers can have their measurement range expanded to include both lower and higher temperatures through research and development. These factors enhance market growth.
In manufacturing facilities, industrial furnaces, and metal processing, among other places, extremely high temperatures are frequently measured using black-body radiation thermometers. However, if not appropriately controlled, the high temperatures could endanger the safety of both operators and equipment. Workers who are exposed to hot conditions face the risk of getting burns or developing health problems from the heat. These factors hinder the market growth.
Accurate temperature monitoring in healthcare settings has become increasingly vital as a result of the COVID-19 epidemic. Black-body radiation thermometers were frequently employed for fever screening at airports, public places, and healthcare facilities because they provide accurate non-contact temperature readings. Black-body radiation thermometers were essential for monitoring and guaranteeing the quality and safety of goods and procedures in sectors that were vital to the pandemic response, including pharmaceuticals, food processing, and the manufacture of medical equipment. The pandemic brought to light the importance of precise temperature regulation, which increased the use of these thermometers.
The medical segment is estimated to hold the largest share. BBRTs are used to measure the body temperature of patients. They are frequently used for precise, non-contact temperature monitoring, particularly in situations where it's critical to reduce the possibility of cross-contamination, like in airport or healthcare facility fever screening. BBRTs are utilized in labs and medical studies to guarantee accurate temperature readings. Additionally, they could be employed in pharmaceutical and medical device manufacturing processes for quality control, calibrations, and tests.
The spot measuring device segment is anticipated to have lucrative growth during the forecast period. Spot measurement devices are intended to measure the temperature at a single spot or point on the surface of an object. These gadgets are frequently employed in many different fields and applications where accurate temperature readings at certain sites are essential. Spot measurement devices are designed to measure the temperature at a single place or point on the surface of an object. They offer extremely localized temperature data, which is helpful in applications requiring precise monitoring of temperature variations across a surface.
North America commanded the largest market share during the extrapolated period. North America is dedicated to a wide range of industries, including manufacturing, aerospace, automotive, healthcare, and pharmaceuticals. Since many of these sectors need very precise temperature monitoring and calibration, BBRTs are an essential tool for process optimization and quality control. North America also boasts strong pharmaceutical and healthcare sectors. BBRTs are utilized in life sciences research labs, pharmaceutical manufacturing, and medical equipment calibration for temperature monitoring and quality control.
Asia Pacific is expected to witness profitable growth over the projection period. Asia-Pacific is a center of the world's manufacturing, especially in China. Temperature monitoring and control are essential in many industries and manufacturing facilities to guarantee process effectiveness and product quality. Significant investments are being made in research and development in this region. For scientific testing, research, and experiments in disciplines such as environmental sciences, chemistry, and materials science, BBRTs are essential.
Some of the key players in the Black-Body Radiation Thermometer Market include: Bosch, LumaSense, Omron, Fluke, IFM Efector, Chino Works America, Siemens, Microlife , OMEGA Engineering, Exergen, Pyrometer Instrument, American Diagnostic, Keyence, Kane International, Honeywell, Trumeter and Optris.
In September 2023, Bosch and Novulis enter a close strategic global partnership to enable technology-driven business transformations. Bosch Software and Digital Solutions (SDS) is the global software powerhouse for the Bosch Group helping enterprises across diverse industries in their digital transformation journeys in creating new digital business models, enabling resilient long-term business operations and accelerate sustainability initiatives.
In November 2022, Bosch and IBM today announced that they are partnering on a strategic quantum computing engagement. As part of this engagement, Bosch will also join the IBM Quantum Network. Experts from both companies will work jointly to investigate and further develop potential applications of quantum computing in the field of material science.