A method includes acquiring delivery data for contents for transport by a vehicle, the delivery data regarding at least one of a delivery location, a delivery time, or a delivery route; acquiring an initial property of the contents; predicting a delivery property for the contents based on the delivery data and the initial property; acquiring en route data including at least one of (i) content data regarding a current property of the contents, (ii) environment data regarding an environmental characteristic external to the vehicle, or (iii) GPS data regarding at least one of a travel distance, a travel time, traffic information, or a road parameter between a current location of the vehicle and the delivery location for the contents; and updating the prediction for the delivery property for the contents based on the en route data.

Method and system to measure and monitor the grey water content in a rotating concrete mixer drum mixer truck using a sensor attached to the interior of the concrete mixer drum. By measuring the grey water content before a batching process takes place, the batched water (and cement content and admixture type and content) can be modified in order to maintain expected performance of the batched load in terms of both strength and rheology, or more simply, some or all of the grey water can be discharged from the concrete mixer drum before batching.

A method for detecting segregation occurring in fresh concrete mixture being agitated in a drum generally includes: rotating said drum about its rotation axis at a low rotational speed for agitating said fresh concrete mixture during at least a rotation; said fresh concrete mixture segregating, said segregating including gravity pulling denser concrete ingredients downwards in said fresh concrete mixture; measuring a plurality of pressure values indicative of pressure exerted onto a rheological probe mounted inside said drum and moving through said fresh concrete mixture as said drum rotates; providing reference data indicative of a behaviour of said rheological probe in a fresh concrete mixture in said absence of said segregating; and detecting that said segregating has occurred, including comparing at least some of said measured pressure values to said reference data.

A method for detecting segregation occurring in fresh concrete mixture being agitated in a drum generally includes: rotating said drum about its rotation axis at a low rotational speed for agitating said fresh concrete mixture during at least a rotation; said fresh concrete mixture segregating, said segregating including gravity pulling denser concrete ingredients downwards in said fresh concrete mixture; measuring a plurality of pressure values indicative of pressure exerted onto a rheological probe mounted inside said drum and moving through said fresh concrete mixture as said drum rotates; providing reference data indicative of a behaviour of said rheological probe in a fresh concrete mixture in said absence of said segregating; and detecting that said segregating has occurred, including comparing at least some of said measured pressure values to said reference data.

Methods of wellbore cementing are provided. A method of designing a cement composition may include: selecting a target heat of hydration for a target time and temperature; selecting one or more cementitious components and a weight percent for each of the one or more cementitious components such that a sum of a heat of hydration of the one or more cementitious components is less than or equal to the target heat of hydration; preparing the cement composition; and allowing the cement composition to set.

Methods of wellbore cementing are provided. A method of designing a cement composition may include: selecting a target heat of hydration for a target time and temperature; selecting one or more cementitious components and a weight percent for each of the one or more cementitious components such that a sum of a heat of hydration of the one or more cementitious components is less than or equal to the target heat of hydration; preparing the cement composition; and allowing the cement composition to set.

The present invention provides a method and system for detecting hardened concrete buildup in a mixer drum which is substantially devoid of plastic concrete. An exemplary method involves monitoring the hydraulic pressure required to rotate the drum through at least two successive rotations at constant speed, using a hydraulic pressure sensor on hydraulic charge side, discharge side, or preferably both sides of the hydraulic motor which turns the mixer drum; and detecting when the pressure/time data curve indicates eccentric behavior of the mixer drum, whereby an alarm or other indication is provided to confirm that the hardened concrete buildup in the truck is not acceptable. The buildup detection method and system of the present invention does not require the use of an automated slump monitoring system, but can be implemented in combination with such systems with favorable results and advantages.

A method to control a mixer (10) for concrete, mortar, powders, dry and semi-dry granulates, cement-based mixes or similar or comparable mixes or mixtures, comprises an input step in which it provides to communicate to a control and command unit (15) of the mixer (10) a plurality of input data correlated to the formulation of the mix that has to be treated in the mixing cycle, a detection step in which it provides to detect the values of an electric quantity characteristic of the electric power line of a drive unit (12) comprised in the mixer (10), a processing step in which the control and command unit (15) processes the data detected in the detection step in order to calculate the overall active power that is generated as a function of time, and to carry out one or more verifications, comparing the data processed with one or more of the respective data introduced among the input data, in order to transmit to a programmable logic controller (14) that commands the functioning of the mixer (10) alternately a consent signal to discharge the mix subjected to the mixing cycle, or an anomaly signal selectively correlated to the verification or verifications that have had a negative outcome, so that the operator can respectively command in the first case the discharge of the mix from the mixer (10), and in the second case the consequent corrective actions on the mixing cycle.

A system and method for automatically controlling concrete batch mixing cycles and for training an operator to minimize the mixing cycles, includes receiving real time mixer motor power measurements; detecting an initial peak value among the real time mixer motor power measurements; determining, by a processor, an initial amount of water to add to a concrete batch; waiting a first time period to determine a first supplemental amount of water to add to a concrete batch; and, then, periodically determining additional supplemental amounts of water to add to a concrete batch; until, the real time mixer motor power measurements meet a pre-determined target mixer motor power value, responsive to which, one or more outputs are activated, such as a user interface indicator that the batch is ready, or an optional electronic signal to a batch control system to dump the batch, or both.

Aspects involve estimating transitions in properties of a concrete mixture prior to batching and during transport of the mixture from a first location, such as a concrete batch plant, to a second location, such as a job site and controlling a mixture of ingredients for concrete in response. A tool may execute a method for estimating an initial temperature at batching and a change in temperature of the concrete mixture during transport due to the exothermic reaction of the mixture, percentages and types of ingredients of the mixture, and/or environmental factors along a transit route. A control system at the concrete batching plant may control one or more components of the concrete batch plant in response to the estimated temperature change, such as a dispenser of an ingredient of the mixture and/or a heating or cooling mechanism to adjust the temperature of an ingredient of the concrete mixture.