Hands on control and monitoring
Energy conservation and emission reduction are crucial steps toward achieving carbon neutrality. To find effective solutions, a chemical company enlisted CRYSOUND for an on-site assessment. With energy costs for the factory's air compressors representing 30% of total expenses, the client wanted to understand how acoustic imaging technology can benefit their operations.
We sent two engineers to the client’s site for a week-long ultrasonic leak detection survey of the plant’s pipelines and equipment. They discovered over 100 leak points of varying severity and estimated the annual economic loss to be 800,000 yuan. These seemingly minor leaks have resulted in substantial financial losses for the plant.
Acoustic imaging devices enable precise leak detection, identification of potential equipment faults, and improved operational efficiency for enterprises. Prompt repair of leaks reduces energy waste, significantly supporting the an organization's energy-saving and emission-reduction objectives.
Energy conservation and emission reduction are crucial steps toward achieving carbon neutrality. To find effective solutions, a chemical company enlisted CRYSOUND for an on-site assessment. With energy costs for the factory's air compressors representing 30% of total expenses, the client wanted to understand how acoustic imaging technology can benefit their operations.
Energy conservation and emission reduction are crucial steps toward achieving carbon neutrality. To find effective solutions, a chemical company enlisted CRYSOUND for an on-site assessment. With energy costs for the factory's air compressors representing 30% of total expenses, the client wanted to understand how acoustic imaging technology can benefit their operations.
Energy conservation and emission reduction are crucial steps toward achieving carbon neutrality. To find effective solutions, a chemical company enlisted CRYSOUND for an on-site assessment. With energy costs for the factory's air compressors representing 30% of total expenses, the client wanted to understand how acoustic imaging technology can benefit their operations.
We sent two engineers to the client’s site for a week-long ultrasonic leak detection survey of the plant’s pipelines and equipment. They discovered over 100 leak points of varying severity and estimated the annual economic loss to be 800,000 yuan. These seemingly minor leaks have resulted in substantial financial losses for the plant.
We sent two engineers to the client’s site for a week-long ultrasonic leak detection survey of the plant’s pipelines and equipment. They discovered over 100 leak points of varying severity and estimated the annual economic loss to be 800,000 yuan. These seemingly minor leaks have resulted in substantial financial losses for the plant.
We sent two engineers to the client’s site for a week-long ultrasonic leak detection survey of the plant’s pipelines and equipment. They discovered over 100 leak points of varying severity and estimated the annual economic loss to be 800,000 yuan. These seemingly minor leaks have resulted in substantial financial losses for the plant.
Acoustic imaging devices enable precise leak detection, identification of potential equipment faults, and improved operational efficiency for enterprises. Prompt repair of leaks reduces energy waste, significantly supporting the an organization's energy-saving and emission-reduction objectives.
Acoustic imaging devices enable precise leak detection, identification of potential equipment faults, and improved operational efficiency for enterprises. Prompt repair of leaks reduces energy waste, significantly supporting the an organization's energy-saving and emission-reduction objectives.
Acoustic imaging devices enable precise leak detection, identification of potential equipment faults, and improved operational efficiency for enterprises. Prompt repair of leaks reduces energy waste, significantly supporting the an organization's energy-saving and emission-reduction objectives.
Energy conservation and emission reduction are crucial steps toward achieving carbon neutrality. To find effective solutions, a chemical company enlisted CRYSOUND for an on-site assessment. With energy costs for the factory's air compressors representing 30% of total expenses, the client wanted to understand how acoustic imaging technology can benefit their operations.
We sent two engineers to the client’s site for a week-long ultrasonic leak detection survey of the plant’s pipelines and equipment. They discovered over 100 leak points of varying severity and estimated the annual economic loss to be 800,000 yuan. These seemingly minor leaks have resulted in substantial financial losses for the plant.
Acoustic imaging devices enable precise leak detection, identification of potential equipment faults, and improved operational efficiency for enterprises. Prompt repair of leaks reduces energy waste, significantly supporting the an organization's energy-saving and emission-reduction objectives.
System Devices
The CRY2620 Industrial Acoustic Imaging Camera is designed for ease of use and quick operation. Its robust aluminum alloy shell ensures durability, making it adaptable to complex and changing work environments. The device provides a real-time sound image display, significantly accelerating the detection of pressurized or vacuum leaks compared to traditional methods.
The CRY2620 simplifies testing with just two adjustable parameters: test frequency range and dynamic range, covering most testing needs.
It offers multiple modes, including camera and video modes, along with flexible on-site data recording. The large-capacity TF storage card is expandable, allowing for quick export and reporting of test results.
This device helps enterprises minimize losses from gas leaks and other accidents, enhancing overall operational safety.
The CRY2623 is a 128-mic industrial acoustic imaging camera that is user-friendly and requires minimal training. Its durable aluminum alloy shell is built to withstand complex and variable working conditions. The device offers real-time acoustic imaging, significantly accelerating the detection of pressurized or vacuum leaks compared to traditional methods. It supports both photo and video modes for flexible on-site data recording. With an expandable large-capacity TF storage card, test results can be quickly exported and reported. The CRY2623 helps enterprises reduce safety risks and minimize economic losses associated with gas leaks, partial discharges, and other malfunctions.
Introducing CRYSOUND’s cutting-edge acoustic imaging camera, revolutionizing industrial inspections with advanced capabilities. The CRY8124 acoustic imaging camera excels at pinpointing leaks, identifying electrical partial discharge, and detecting mechanical deterioration. Setting a new standard for sensitivity and efficiency, the CRY8124 boasts 200 microphones (the most in the industry). The device detects smaller leaks and partial discharges from greater distance than any other handheld acoustic imaging camera on the market.
The CRY8124 reporting software allows offline analysis, editing, and report generation, simplifying regular maintenance routines.
Elevate the effectiveness of your industrial inspections with CRYSOUND’s acoustic cameras.