Table of Contents
Importance des systèmes de surveillance de la qualité de l’eau pour garantir la santé et la sécurité publiques
Modèle
pH/ORP-1800 pH/ORP-mètre
Plage | 0-14 pH ; -1600 – +1600mV |
Précision | \\\\\\\±0,1pH ; \\\\\\\±2mV |
Temp. Comp. | Compensation de température manuelle/automatique ; Pas de comp. |
Opéra. Temp. | Normal 0\\\\\\\~50\\\\\\\℃; Haute température 0\\\\\\\~100\\\\\\\℃ |
Capteur | Capteur pH double/triple ; Capteur redox |
Affichage | Écran LCD 128*64 |
Communication | Sortie 4-20mA/RS485 |
Sortie | Contrôle de relais double limite haute/basse |
Puissance | AC 220V\\\\\\\±10 pour cent 50/60Hz ou AC 110V\\\\\\\±10 pour cent 50/60Hz ou DC24V/0.5A |
Environnement de travail | Température ambiante :0\\\\\\\~50\\\\\\\℃ |
Humidité relative\\\\\\\≤85 pour cent | Dimensions |
96\\\\\\\×96\\\\\\\×100mm(H\\\\\\\×W\\\\\\\×L) | |
Taille du trou | 92\\\\\\\×92mm(H\\\\\\\×W) |
Mode Installation | Intégré |
En conclusion, les systèmes de surveillance de la qualité de l’eau sont essentiels pour garantir la santé et la sécurité publiques en détectant les contaminants nocifs, en suivant les changements dans la qualité de l’eau, en garantissant le respect des normes réglementaires et en soutenant les efforts de recherche et de développement en cours. En investissant dans ces systèmes et en soutenant la recherche sur les technologies de surveillance de la qualité de l’eau, les autorités peuvent protéger les sources d’eau, sauvegarder la santé publique et assurer la durabilité des approvisionnements en eau pour les générations futures. | Embedded |
In addition to detecting harmful contaminants, water quality Monitoring Systems also help authorities track changes in water quality over time. By collecting and analyzing data on various parameters, such as pH Levels, turbidity, and dissolved oxygen, researchers can identify trends and patterns that may indicate deteriorating water quality. This information is crucial for developing effective strategies to protect water sources and ensure the long-term sustainability of water supplies.
Furthermore, water quality monitoring systems are essential for ensuring compliance with regulatory standards and guidelines. In many countries, there are strict regulations governing the quality of Drinking Water, wastewater discharge, and recreational water bodies. By regularly monitoring water quality and reporting data to regulatory agencies, authorities can demonstrate compliance with these standards and take corrective actions when necessary to maintain water quality within acceptable limits.
Research on water quality monitoring systems is ongoing, with scientists and engineers constantly developing new technologies and methodologies to improve the accuracy and efficiency of monitoring processes. For example, researchers are exploring the use of remote sensing technologies, such as satellite imagery and drones, to monitor water quality in large bodies of water and remote areas. These technologies can provide real-time data on water quality parameters, allowing authorities to respond quickly to potential contamination events.
Another area of research in water quality monitoring systems is the development of advanced Sensors and analytical techniques for detecting emerging contaminants, such as pharmaceuticals, microplastics, and nanomaterials. These contaminants pose unique challenges due to their low concentrations and complex chemical structures, making them difficult to detect using traditional monitoring methods. By investing in research and development of new technologies, scientists can improve the sensitivity and specificity of monitoring systems, enabling authorities to detect and remove emerging contaminants from water sources.
In conclusion, water quality monitoring systems are essential for ensuring public health and Safety by detecting harmful contaminants, tracking changes in water quality, ensuring compliance with regulatory standards, and supporting ongoing research and development efforts. By investing in these systems and supporting research in water quality monitoring technologies, authorities can protect water sources, safeguard public health, and ensure the sustainability of water supplies for future generations.