Method and system for generating a personalized landing page for a user are disclosed. For example, the method includes receiving, by a computing device, one or more user data associated with the user, the one or more user data including one or more telematics data of the user, determining, by the computing device, one or more user interface features based at least in part upon the one or more user data, and generating, by the computing device, a personalized landing page customized for the user using the one or more user interface features to increase an effectiveness of the personalized landing page.

Method and system for generating a personalized landing page for a user are disclosed. For example, the method includes receiving, by a computing device, one or more user data associated with the user, the one or more user data including one or more telematics data of the user, determining, by the computing device, one or more user interface features based at least in part upon the one or more user data, and generating, by the computing device, a personalized landing page customized for the user using the one or more user interface features to increase an effectiveness of the personalized landing page.

The present invention relates to a method of controlling prepurifier cycle time by monitoring ambient CO.sub.2 level in order to prevent CO.sub.2 breakthrough occurrences caused by extreme instantaneous variations in ambient CO.sub.2 level. Rather than operating solely by prepurifier design bed capacity, the method of the invention continuously updates bed capacity for the contaminants using the feed temperature, pressure and contaminants composition, calculating the total amount of contaminants that were fed to the prepurifier during the feed step and estimates the perturbation front velocity, i.e., the velocity at which the contaminants front coming from an extreme instantaneous variations of ambient level is going to propagate inside the adsorbents bed. Estimating the perturbation front velocity allows for a more precise estimate of the maximum time remaining for the feed step before starting to experience CO.sub.2 breakthrough. This eliminates the need to switch the online bed unnecessarily early and risking shorter regeneration for the offline bed.

A system and a method for remineralization of purified water retrieves liquid stream data associated with a first liquid stream that includes a set of chemical compounds and a set of parameters. The system controls a concentration of at least a first chemical compound of the set of chemical compounds by adding at least the first chemical compound to the first liquid stream. The system compares at least a first parameter of the set of parameters with a corresponding reference parameter of a set of reference parameters based on the addition of the first chemical compound. The system also controls the output of the first liquid stream based on the comparison.

Total ammonia nitrogen in a volume of sludge in an aeration tank is measured and compared to a target ammonia nitrogen setpoint to calculate an airflow target for adjusting the measured total ammonia nitrogen toward the target ammonia nitrogen setpoint. The airflow target may be an airflow rate or, for an SBR, an airflow duration, and airflow into the aeration tank is adjusted according to the airflow target. A target solids retention time setpoint is also calculated from information relating to the airflow target and the solids retention time is adjusted toward the target solids retention time setpoint. The waste activated sludge flow rate for the aeration tank may be adjusted to adjust the solids retention time for the aeration tank toward the target solids retention time setpoint.

Total ammonia nitrogen in a volume of sludge in an aeration tank is measured and compared to a target ammonia nitrogen setpoint to calculate an airflow target for adjusting the measured total ammonia nitrogen toward the target ammonia nitrogen setpoint. The airflow target may be an airflow rate or, for an SBR, an airflow duration, and airflow into the aeration tank is adjusted according to the airflow target. A target solids retention time setpoint is also calculated from information relating to the airflow target and the solids retention time is adjusted toward the target solids retention time setpoint. The waste activated sludge flow rate for the aeration tank may be adjusted to adjust the solids retention time for the aeration tank toward the target solids retention time setpoint.

One embodiment provides a method for monitoring the quality of nanofibrillar cellulose produced in a process comprising disintegrating fibers of cellulose pulp, the method comprising measuring in real-time optically the turbidity of a dispersion containing nanofibrillar cellulose obtained from a disintegrating process, and determining the quality of said produced nanofibrillar cellulose using a correlation between the measured turbidity and said quality of the produced nanofibrillar cellulose, wherein lowered turbidity indicates increased quality of the nanofibrillar cellulose. One embodiment provides a device for monitoring the quality of nanofibrillar cellulose produced in a process comprising disintegrating fibers of cellulose pulp, arranged to carry out said method.

One embodiment provides a method for monitoring the quality of nanofibrillar cellulose produced in a process comprising disintegrating fibers of cellulose pulp, the method comprising measuring in real-time optically the turbidity of a dispersion containing nanofibrillar cellulose obtained from a disintegrating process, and determining the quality of said produced nanofibrillar cellulose using a correlation between the measured turbidity and said quality of the produced nanofibrillar cellulose, wherein lowered turbidity indicates increased quality of the nanofibrillar cellulose. One embodiment provides a device for monitoring the quality of nanofibrillar cellulose produced in a process comprising disintegrating fibers of cellulose pulp, arranged to carry out said method.

A method includes receiving telematics data comprising information related to one or more driving behaviors of the user. The method also includes processing one or more user interface features based at least in part upon the telematics data. The method further includes generating a web page for the user. Other embodiments are disclosed herein.

A method includes receiving telematics data comprising information related to one or more driving behaviors of the user. The method also includes processing one or more user interface features based at least in part upon the telematics data. The method further includes generating a web page for the user. Other embodiments are disclosed herein.