JUMO 902023/10 PT100 Rtd Temperature Jumo Sensor for Boiler

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JUMO 902023/10 PT100 Rtd Temperature Jumo Sensor for Boiler

Name: JUMO 902023/10 PT100 Rtd Temperature Jumo Sensor for Boiler
Brand: Chongqing Sunflower Instrument Co., Ltd.
SKU: 1600280367043_1
Price: 15.00 USD
Availability: InStock
Rating: 4.8 (100 reviews)

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Precision Temperature Measurement: The JUMO 902023/10 PT100 RTD Temperature Sensor provides accurate temperature readings for industrial and commercial equipment, such as boilers, furnaces, and ovens.
Robust Design: Features a stainless steel construction with a threaded connection and a slender probe for secure installation and reliable performance in harsh environments.

Key features

1. Corrosion-Resistant Material Technology

With a corrosion-resistant stainless steel body, ensure durability in harsh industrial environments. Outperforming traditional models prone to corrosion in humid or chemical environments*.

2. Tool-Free Interactive Design

With a hexagonal nut design, enable quick installation and removal without tools. Achieve 20% faster setup than models requiring specialized tools*.

3. Wide Temperature Range Performance

With a wide temperature measurement range (-200°C to 1300°C), accurately monitor extreme conditions in boilers and furnaces. Covering a 20% broader range than standard sensors*.

4. Continuous Operation Capability

With continuous operation capability, ensure reliable 24/7 temperature monitoring in boilers. Outlasting intermittent-use sensors by up to 30%*.

5. Compliance with Industrial Standards

With compliance to industrial safety and quality standards, ensure reliable performance in critical applications. Specific certifications should be confirmed with the manufacturer*.

Product details

The JUMO 902023/10 PT100 RTD Temperature Sensor is a robust industrial-grade sensor designed for precise temperature measurement in boilers and high-temperature environments. Constructed from corrosion-resistant stainless steel, it features a compact cylindrical body with a hexagonal nut for secure installation. The sensor’s PT100 RTD element ensures accuracy across a wide temperature range (-200°C to 1300°C), making it ideal for applications requiring reliable thermal monitoring.

Technical specifications

Feature	Specification	Benefit
Material	Stainless Steel 316L	Corrosion resistance and durability
Type	PT100 RTD (Resistance Temperature Detector)	High precision and stability in harsh conditions
Temperature Range	-200°C to 1300°C	Versatile for extreme industrial use
Thread Type	M27 x 2 (Standard)	Universal compatibility with industrial systems
Protection Class	IP67	Waterproof and dustproof for outdoor use

Customization guide

Adjustable parameters include probe length (50–500mm), thread type (e.g., NPT, G1/2), and sheath material (e.g., Inconel for high-temperature resistance) to meet specific application needs.

Get inspired

With its PT100 RTD technology and rugged stainless steel construction, this sensor ensures precise temperature control in boilers, furnaces, and chemical processing systems. Whether monitoring steam generation or industrial ovens, it delivers consistent performance under continuous operation.

Choose your model

Parameter	Base Model	Advanced Model	Pro Model
Temperature Range	-50°C to 850°C	-200°C to 1200°C	-200°C to 1300°C
Accuracy	±0.3°C	±0.15°C	±0.1°C
Response Time	10 seconds	8 seconds	5 seconds*
Chemical Resistance	Standard	Enhanced (Inconel)	Premium (Hastelloy)

Supplier's note

Technical Breakthroughs:
- PT100 RTD Element: Triple the stability of thermocouples in vibration-heavy environments.
- Stainless Steel 316L: 40% higher corrosion resistance than standard grades, ideal for marine or chemical plants.
- IP67 Protection: Ensures operation in wet or dusty conditions without recalibration.
Version Selection Guidance:
- Base Model: Suitable for standard boiler systems where temperatures stay below 850°C.
- Advanced Model: Preferred for chemical processing or high-humidity environments due to Inconel sheathing.
- Pro Model: Designed for extreme applications like steel furnaces, offering 20% faster response than industry benchmarks. With its Hastelloy sheath, it withstands corrosive gases while maintaining ±0.1°C precision.

Frequently asked questions

Which PT100 RTD temperature sensor suits boiler systems best?
How do I clean and maintain the JUMO 902023/10 RTD sensor?
Stainless Steel vs. Copper: Which material is better for boiler sensors?
Can the JUMO 902023/10 sensor be customized for my boiler setup?
Is the JUMO 902023/10 RTD sensor certified for industrial use?
What applications besides boilers use the JUMO 902023/10 sensor?
How do I install the JUMO 902023/10 RTD sensor in a boiler?
How long does the JUMO 902023/10 sensor last in harsh environments?

Product comparison

Category	Usage Scenarios	Characteristics	Advantages	Disadvantages
Material	Corrosive environments (chemical plants)	Industry: Basic corrosion-resistant steel (ASTM A262) vs Our Base: 304 Stainless Steel (ASTM A240) ▲ vs Our Advanced: 316L (ASTM A276) ▲▲	Superior durability in harsh conditions; Base resists mild corrosion ▲; Advanced withstands aggressive chemicals ▲▲	Higher cost for advanced materials; Base may degrade in extreme acids/bases
Temperature Range	Industrial boilers/furnaces	Industry: -50°C to 600°C (IEC 60751) vs Our Base: -200°C to 850°C ▲ vs Our Advanced: -200°C to 1300°C (with high-temp probe) ▲▲	Wider operational range for extreme environments; Advanced handles furnace applications ▲▲	Limited to RTD physics (base/advanced)
Accuracy	Precision labs/process control	Industry: ±0.5°C (Class B) vs Our Base: ±0.3°C (Class A) ▲ vs Our Advanced: ±0.15°C (Special calibration) ▲▲	Base meets ISO 9001 standards ▲; Advanced ensures ±0.15°C precision for critical systems ▲▲	Higher cost for advanced calibration
Response Time	Dynamic process monitoring	Industry: 10 sec (standard RTD) vs Our Base: 5 sec (optimized electronics) ▲ vs Our Advanced: 2 sec (fast-sensing probe) ▲▲	Base reduces lag for real-time adjustments ▲; Advanced enables millisecond-level tracking ▲▲	Advanced requires specialized installation
Durability	Continuous industrial use	Industry: 5,000 hours (ASTM B117) vs Our Base: 10,000 hours ▲ vs Our Advanced: 15,000 hours (enhanced coating) ▲▲	Base withstands 2x longer than industry ▲; Advanced resists prolonged thermal stress ▲▲	Heavier/more complex design for advanced
Customization	Tailored industrial solutions	Industry: Limited to standard probes vs Our Base: Adjustable probe length/thread types ▲ vs Our Advanced: Full customization (sheath material, sensor placement) ▲▲	Base accommodates most boiler setups ▲; Advanced allows bespoke designs for niche applications ▲▲	Advanced customization increases lead time/cost

JUMO 902023/10 PT100 Rtd Temperature Jumo Sensor for Boiler

JUMO 902023/10 PT100 Rtd Temperature Jumo Sensor for Boiler

Product overview

Core functionalities

Applicable scenarios

Unique advantages

Key features

1. Corrosion-Resistant Material Technology

2. Tool-Free Interactive Design

3. Wide Temperature Range Performance

4. Continuous Operation Capability

5. Compliance with Industrial Standards

Product details

Technical specifications

Customization guide

Get inspired

Choose your model

Supplier's note

Frequently asked questions

Which PT100 RTD temperature sensor suits boiler systems best?

How do I clean and maintain the JUMO 902023/10 RTD sensor?

Stainless Steel vs. Copper: Which material is better for boiler sensors?

Can the JUMO 902023/10 sensor be customized for my boiler setup?

Is the JUMO 902023/10 RTD sensor certified for industrial use?

What applications besides boilers use the JUMO 902023/10 sensor?

How do I install the JUMO 902023/10 RTD sensor in a boiler?

How long does the JUMO 902023/10 sensor last in harsh environments?

Product comparison

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