Continuous or semi-continuous process for the preparation of ethylene glycol and catalyst system for use therein

The invention claimed is: 1. A continuous or semi-continuous process for the preparation of ethylene glycol from a carbohydrate source including: reacting, in a reactor, at a temperature in the range from equal to or more than 170° C. to equal to or less than 270° C., at least a portion of a carbohydrate source in the presence of hydrogen, a solvent, and a catalyst system, to yield ethylene glycol; and, maintaining the ethylene glycol selectivity within a range of equal to or more than 35% to equal to or less than 85% by continuously or periodically adding additional heterogeneous catalyst to the reactor, wherein the ethylene glycol selectivity is continuously or periodically determined and compared with a one or more pre-set thresholds and wherein additional heterogeneous catalyst is provided to the reactor when such a threshold is reached or exceeded, and wherein the catalyst system is a catalyst system including: a) a homogeneous catalyst, that is residing in the reactor, which homogeneous catalyst contains tungsten; b) a first heterogeneous catalyst, that is residing in the reactor, which first heterogeneous catalyst contains one or more transition metals from groups 8, 9 and 10 of the Periodic Table of the Elements supported on a carrier, and which first heterogeneous catalyst further contains an amount of tungsten; and c) a second heterogeneous catalyst, that is continuously or periodically provided to the reactor, which second heterogeneous catalyst contains one or more transition metals from groups 8, 9 and 10 of the Periodic Table of the Elements supported on a carrier, and which second heterogeneous catalyst contains no tungsten; or an amount of tungsten in a molar ratio of moles tungsten to moles transition metal that is less than the molar ratio of moles tungsten to moles transition metal of the first heterogeneous catalyst; and wherein continuously or periodically the second heterogeneous catalyst is added to the reactor and wherein the selectivity towards ethylene glycol is maintained by continuously or periodically adding the second heterogeneous catalyst to the reactor. 2. The process of claim 1 , wherein the second heterogeneous catalyst contains no tungsten; or an amount of tungsten in a molar ratio of moles tungsten to moles transition metal that is less than 10:1. 3. The process according to claim 1 , wherein in the reactor tungsten species deposit onto the provided second heterogeneous catalyst and the second heterogeneous catalyst is converted into first heterogeneous catalyst. 4. The process according to claim 3 , wherein continuously or periodically a portion of the first heterogeneous catalyst is withdrawn from the reactor. 5. The process according to claim 1 , wherein further a carbohydrate source is continuously or periodically added to the reactor and wherein the weight ratio of continuously or periodically provided second heterogeneous catalyst to continuously or periodically added carbohydrate source is constantly kept within a range from 0.5:100 to 1.0:100. 6. The process according to claim 1 , wherein the first heterogeneous catalyst and/or the second heterogeneous catalyst comprise one or more tungstate compounds selected from the group consisting of tungsten dioxide, tungsten trioxide and combination thereof, deposited onto the transitional metal and/or the carrier. 7. The process according to claim 1 , wherein the reactor is a continuously stirred tank reactor.