The invention relates to a climate control device for controlling the temperature and humidity of air supplied to colonies of insects cultured in an industrial scale insect farm. In particular, the invention relates to a controllable air conditioning system comprising a network of pipes connecting at least one cluster comprising at least one insect farming cage, such that air is conditionable in the cages at the cluster level. More specifically, the invention relates to a system comprising a central main air conditioning facility providing temperature conditioned air and absolute air humidity conditioned air to each of a number of local air conditioning devices, each separate local air conditioning device providing temperature conditioned air and absolute air humidity conditioned air to each of a plethora of clusters of insect breeding cages separately, said cages housed in an temperature conditioned farming room. This way, insects in cages housed in farming rooms are farmed under improved conditions with regard to minimized cage-to-cage temperature differences and differences in relative air humidity, due to the use of the climate control device of the invention.

An artificial and/or simulated environment is used to raise a domestic or commercially raised animal to promote a positive health feedback and to minimize stress on the animal. The simulated environment is used to create the façade of a free range or cage free environment, while also minimizing the exposure to inclement weather, potential predators, and other unknown or stress-inducing situations. The results include animals that have higher resistance to diseases and have a lower stress. The artificial environment can be created by projecting or otherwise showing images and/or videos depicting simulation of environments, climate, and/or other unknown situations to normalize the animals to the same.

A fan for use in agriculture which has a BLDC motor which allows for varying the speed of the fan to vary the airflow rate of the fan and vary the efficiency of the fan. A ventilation system for use in a livestock confinement building to maximize a rate of growth of the livestock. A process for maximizing the growth of livestock in a livestock confinement building by controlling the airflow in the livestock confinement building.

Animal litter boxes are provided which include a sensor to detect a change in an environment within an interior of its housing and an odor removal device (ORD) operationally connected to the sensor such that the ORD is activated in response to a signal from the sensor. In some cases, the ORD is configured to operate in different manners based on respectively different signals from the sensor. In addition or alternatively, the litter boxes may include a timer configured with the sensor for activating and periodically reactivating the ORD at preset time intervals in response to a sensor signal. In yet other embodiments, the litter boxes may additionally or alternatively include a timer having user adjustable settings of different time periods at which to initiate activation of the ORD and/or user adjustable settings of different durations at which to operate the ORD, both in response from a sensor signal.

The present invention provides compositions and methods for inducing suspended animation in neonate larvae of beneficial fly, particularly larvae of the Black soldier fly. During the suspended animation, the larvae show extended shelf-life and improved shipment durability. The suspended animation is reversible, and upon exposure to standard rearing conditions the larvae reach comparable maturity to corresponding non-suspended larvae.

A method for producing a straw mat in a living space for livestock, in particular for sows and/or fattening pigs and/or piglets, confined in a straw pen, is disclosed. The method comprises the step of automatically and initially spreading straw, such as defibrated straw, into the living space up to a substantially uniform thickness (d) of the straw mat. Also disclosed is a straw pen and pen building in accordance with the disclosed method.

The invention relates to a device for use in large-scale industrial insect farming. More in particular, the invention relates to a live insects transport device for transporting live insects from a first location to a predetermined second location, the live insects transport device comprising a fluid guiding unit, a fluid discharge member and a feeder arrangement, wherein the live insects transport device is configured to receive live insects such as freshly hatched neonate larvae, for example of black soldier fly, wherein the live insects are taken up in a laminar flow of fluid and while in said fluid are transported to a predetermined location in the live insects transport device. Furthermore, the invention relates to the use of the device in industrial insect farming, such as large-scale farming of black soldier flies, and the invention relates to a method of dosing live insects, wherein preferably live insects are doses which are essentially of the same age, such as freshly hatched neonate larvae.

A cage assembly can have at least one enclosure. Each enclosure can have a floor defining a floor area having a major dimension and a cover having a bottom surface. A spacing between the bottom surface of the cover and the floor can define a cage height. At least one sidewall can extend between the floor and the cover. A ratio of the cage height to the major dimension of the floor area of each enclosure of the at least one enclosure can be at least 0.70.

Disclosed are systems, methods, and non-transitory computer-readable media for automated behavioral and physiological testing of untethered testing animals. An automated behavioral testing system communicates with electronic devices attached to testing animals to provide automated physiological measurements and perturbations. The electronic devices are wirelessly charged to eliminate the need to remove the electronic devices during the course of the study. The automated behavioral testing system includes a filtering chamber positioned between a housing chamber and a behavioral testing chamber. The filtering chamber provides a passageway between the housing chamber and the behavioral testing chamber used to manage access to the behavioral testing chamber. For example, a gate component implemented between the filtering chamber and the behavioral testing chamber can be configured into either a closed configuration to restrict access between the filtering chamber and the behavioral testing chamber, or an open configuration to permit between the filtering chamber and the behavioral testing chamber.

The power barn system provides a way to eliminate greenhouse gas (GHG) emissions from livestock. The power barn system seals and traps the methane gas that is emitted from the livestock and converts the methane into electric power and carbon dioxide to enhance plant growth. The power barn system uses PV solar arrays and plastic sheeting to make sealed, airtight structure. The carbon dioxide is provided to greenhouse areas. The plants use the carbon dioxide and release oxygen, thereby eliminating most greenhouse gas emissions from livestock. The power plant uses the methane at peak times at night while solar panels supply power during the day producing zero emission meat and 24/7 electricity at better than market rates.