High efficiency Radionuclide-identifier RadXplore-ident

To achieve the goal of green ships, the International Maritime Organization (IMO) proposes to reduce carbon emissions and improve ship energy efficiency, with reducing ship carbon emissions as a key management measure.   In order to reduce carbon emissions and eliminate greenhouse gas emissions from international shipping as soon as possible, the IMO has formulated three stages of measures: first, short-term measures to improve the technology and operational efficiency of new and existing ships, and initiate actions to research and develop new technologies such as alternative fuels; The second is mid-term measures, such as introducing alternative low-carbon and zero carbon fuel implementation plans, strengthening technological cooperation and capacity building, etc; The third is long-term measures, introducing zero carbon fuels and encouraging the widespread adoption of possible new emission reduction mechanisms.   During this process, real-time monitoring of ship gas emissions has become a particularly important aspect. Continuous emission detection system can be used.   The continuous emission monitoring system is a complete monitoring equipment composed of analytical instruments and supporting devices used to continuously monitor the concentration and emission amount of particulate and gas pollutants from fixed pollution sources. It is also known as the "continuous emission monitoring system" CEMS. CEMS system can monitor parameters such as SO2, NO2, CO, dust, temperature, pressure, flow rate, humidity, etc. in gases, and can also expand the monitoring of parameters such as VOCs, NH3, CO, CO2, H2S, etc. for specific occasions.

The High efficiency Radionuclide-identifier RadXplore-ident, an ultra-compact, robust and sensitive radionuclide identifier (RID) which features a wide energy range, high throughput and excellent stability with outstanding application capabilities.   RadXplore-ident is designed to detect gamma γ, beta β, neutron and cosmic radiation from natural and man-made sources, identify special nuclear, industrial, medical and natural radioactive sources and measure X-ray and gamma γ radiation exposure.  

The GPD150G is a compact, robust and battery operated electronic personal nuclear alarm dosemeter. The so-called alarm dosemeter is equipped with a dose and dose rate warning function at a measurand of Hp(10). The GPD150G is particularly convincing in the case of fire brigades and other forces of civil defense due to its high reliability and ease of use. Operational forces are offered the possibility of permanent self-monitoring.

Compact electronic Nuclear Dose rate meter with a “twin display” that shows dose rate and dose simultaneously. The dose rate meter GammaTwin has a connection option for a pulse probe.

The CoMo-170 is a powerful, mobile and battery or accumulator operated nuclear contamination monitor for highly sensitive nuclide-related measurement of surfaces for α-, β- and γ-contamination when handling ionizing radiation. The one-hand measuring system has a detector area of 170 cm² and automatically detects whether α-radiation is present. The measured value display is optionally pulses per second (Ip/s) or nuclide-related in Becquerel (Bq) and Bq/cm².

The Nuclear Dose rate measuring system X5C plus has a dose display as well as a warning function for personal radiation protection when handling ionizing radiation. The X5C plus is PTB type-tested and can therefore be calibrated. The measuring system is also equipped with an RS-232 interface and an interface for connecting external probes.

Compact Personal nuclear radiation alarm dosimeter / alarm dosemeter (battery operated) with dose rate display and warning functions. The personal dosemeter ED150 is PTB type approved and therefore calibratable. The angled display ensures optimum and safe reading of the measured values.

The WS05C nuclear area monitoring system is designed for dose rate measurement of gamma and X-ray radiation. This measuring system has been developed for permanent use in areas where gamma and X-ray radiation occurs and needs to be measured and monitored.