Malaxation apparatus for the production of virgin olive oil

The invention claimed is: 1. Heating apparatus that is configured to heat a substance, the heating apparatus comprises: a product chamber in which the substance is heated, a multitude of solid-state radio frequency sources that are provided equidistantly around a circumference of the product chamber, a plurality of chambers disposed around the circumference of the product chamber, one or more of the plurality of chambers contain one of the multitude of solid-state radio frequency sources, and a microwave tube that is disposed around the circumference of the product chamber, the microwave tube separates the product chamber from the plurality of chambers. 2. Heating apparatus according to claim 1 , wherein the heating apparatus is a malaxing apparatus. 3. Heating apparatus according to claim 1 , wherein the product chamber comprises a sidewall, a bottom, and/or a cover. 4. Heating apparatus according to claim 3 , wherein one or more of the multitude of solid-state radio frequency sources are provided in the sidewall, in the bottom, and/or in the cover. 5. Heating apparatus according to claim 1 , wherein the product chamber comprises mixing means. 6. Heating apparatus according to claim 1 , wherein the multitude of solid-state radio frequency sources are provided in an array of n columns and m rows, wherein n is an integer >1 and m is an integer ≥1. 7. Heating apparatus according to claim 1 , wherein the heating apparatus comprises means to transport the substance through the product chamber and past the multitude of solid-state radio frequency sources. 8. Heating apparatus according to claim 1 , wherein the heating apparatus comprises a control system to control one or more of the multitude of solid-state radio frequency sources. 9. Heating apparatus according to claim 1 , wherein the heating apparatus comprises a sensor that measures at least one property of the substance and/or at least one property of radiation reflected from the substance, wherein a signal of the sensor is utilized by a control system. 10. Food production line comprising the heating apparatus according to claim 1 . 11. Food production line according to claim 10 , wherein the heating apparatus is provided downstream from a mill. 12. Food production line according to claim 10 , wherein the heating apparatus is provided upstream from a separator. 13. Method comprising: heating the substance with the heating apparatus according to claim 1 ; and transporting the substance from an inlet of the heating apparatus to an exit of the heating apparatus, which are spaced apart, wherein during the transporting, the substance is transported continuously and/or intermittently, or the substance is heated batch-wise. 14. Method according to claim 13 , wherein one or more sensors are provided that are configured to measure one or more properties of the substance and/or radiation reflected from the substance. 15. Method according to claim 14 , wherein a signal of the one or more sensors is utilized to control the multitude of solid-state radio frequency sources. 16. Heating apparatus according to claim 1 , wherein a material of the microwave tube is transparent for microwaves. 17. Heating apparatus according to claim 1 , wherein the substance is in contact with an inner circumference of the microwave tube, at least locally. 18. Heating apparatus according to claim 1 , wherein the heating apparatus comprises a housing in which the product chamber is located, the housing comprises a plurality of openings defined around its circumference, each of the plurality of openings lead to a respective one of the plurality of chambers in which one of the multitude of solid-state radio frequency sources are located. 19. Heating apparatus according to claim 1 , wherein the heating apparatus comprises a waveguide covering one or more of the plurality of chambers and configured to direct RF-radiation in a direction of the substance. 20. Heating apparatus according to claim 1 , wherein the heating apparatus comprises one or more sensors, the multitude of solid-state radio frequency sources are configured to generate and transmit microwave energy to the substance to heat the substance, the one or more sensors are configured to measure the microwave energy that is reflected from the substance, and a control system is configured to compare the transmitted microwave energy to the reflected microwave energy and then, based on the comparison, the control system is configured to adjust any additional microwave energy that is transmitted by one or more of the multitude of solid-state radio frequency sources to the substance. 21. Heating apparatus that is configured to heat a substance, the heating apparatus comprises: a product chamber in which the substance is heated, a multitude of solid-state radio frequency sources that are provided equidistantly around a circumference of the product chamber, a plurality of chambers disposed around the circumference of the product chamber, one or more of the plurality of chambers contain one of the multitude of solid-state radio frequency sources, and a housing in which the product chamber is located, the housing comprises a plurality of openings defined around its circumference, each of the plurality of openings lead to a respective one of the plurality of chambers in which one of the multitude of solid-state radio frequency sources are located. 22. Heating apparatus that is configured to heat a substance, the heating apparatus comprises: a product chamber in which the substance is heated, a multitude of solid-state radio frequency sources that are provided equidistantly around a circumference of the product chamber, a plurality of chambers disposed around the circumference of the product chamber, one or more of the plurality of chambers contain one of the multitude of solid-state radio frequency sources, and a waveguide covering one or more of the plurality of chambers and configured to direct RF-radiation in a direction of the substance.