Systems and methods for producing hydrocarbon material from unconsolidated formations

The invention claimed is: 1. A wellbore completion component, defining a transition impeder, comprising: a housing; a completion component feature defining a completion component passage within the housing, the completion component feature configurable in a first configuration and a second configuration, wherein the transition impeder includes: a transition-impeding fluid passage; and a fluid disposed for flow within the transition-impeding fluid passage; and an impeder piston, disposed in force communication with a viscous fluid for urging the flow of the viscous fluid through the transition-impeding fluid passage, and displaceable relative to the housing along an axis that is parallel to a central longitudinal axis of the completion component passage, wherein: the flow of the fluid, through the transition-impeding fluid passage, is effected in response to the transitioning of the completion component feature from the first configuration to the second configuration; the transition impeder and the completion component feature are co-operatively configured such that resistance to flow, of the fluid through the transition-impeding fluid passage, impedes the transitioning of the completion component feature from the first configuration to the second configuration; the completion component feature is displaceable relative to the housing along an axis that is parallel to the central longitudinal axis of the completion component passage; the completion component feature and the impeder piston are configurable in a translatable configuration; and in the translatable configuration, the impeder piston is translatable with the completion component feature, along an axis that is parallel to the central longitudinal axis of the completion component passage, in response to urging of displacement of the completion component feature, relative to the housing, along an axis that is parallel to the central longitudinal axis of the completion component passage, with effect that the viscous fluid is urged to flow through the transition-impeding fluid passage. 2. The wellbore completion component as claimed in claim 1 , wherein the transitioning of the completion component feature from the first configuration to the second configuration includes a displacement of the completion component feature relative to the housing. 3. The wellbore completion component as claimed in claim 1 , further comprising: a flow communicator extending through the housing for effecting flow communication between the completion component passage and a space external to the wellbore completion component; wherein: the completion component is a flow control apparatus; and the completion component feature includes a flow controller for controlling flow through the flow communicator. 4. The wellbore completion component as claimed in claim 3 , wherein the flow controller includes a sliding sleeve. 5. The wellbore completion component as claimed in claim 1 , wherein: the translatable configuration is obtained in response to engagement of the completion component feature with the impeder piston. 6. The wellbore completion component as claimed in claim 1 , wherein: the impeder piston includes an engagement tab; the completion component feature and the impeder piston are co-operatively disposed in the translatable configuration while the completion component feature is engaged to the engagement tab; while the completion component feature and the impeder piston are co-operatively disposed in the translatable configuration, in response to urging of displacement of the completion component feature, relative to the housing, along an axis that is parallel to the central longitudinal axis of the completion component passage, the engagement tab is urged to displace outwardly displace relative to an axis that is parallel to the central longitudinal axis of the completion component passage; the completion component feature, the impeder piston, and the housing are co-operatively configured for disposition in an impeding configuration, wherein, in the impeding configuration, while the completion component feature and the impeder piston are co-operatively disposed in the translatable configuration, and the engagement tab is being urged to displace outwardly relative to an axis that is parallel to the central longitudinal axis of the completion component passage, and while displacement of the completion component feature, relative to the housing, is being urged along an axis that is parallel to the central longitudinal axis of the completion component passage, the housing is interfering with the outwardly displacement of the engagement tab, such that the engagement of the completion component feature to the engagement tab is maintained; and the completion component feature, the impeder piston, and the housing are co-operatively configured for disposition in a non-impeding configuration, wherein, in the non-impeding configuration, while the completion component feature and the impeder piston are co-operatively disposed in the translatable configuration, and the engagement tab is being urged to displace outwardly relative to an axis that is parallel to the central longitudinal axis of the completion component passage, and while displacement of the completion component feature, relative to the housing, is being urged along an axis that is parallel to the central longitudinal axis of the completion component passage, there is an absence of interference, by the housing, to the outwardly displacement of the engagement tab, such that the engagement tab is displaced outwardly relative to an axis that is parallel to the central longitudinal axis of the completion component passage, with effect that the engagement of the completion component passage and the engagement tab is defeated, and with effect that the impeding, by the transition impeder, of the transitioning of the completion component feature from the first configuration to the second configuration, is defeated. 7. The wellbore completion component as claimed in claim 6 , wherein: the completion component feature, the impeder piston, and the housing are further co-operatively configured for transitioning from the impeding configuration to the non-impeding configuration; and the transitioning of the configuration of the completion component feature, the impeder piston, and the housing from the impeding configuration to the non-impeding configuration is effected in response to the displacement of the co-operating unit relative to the housing. 8. The wellbore completion component as claimed in claim 1 , wherein: the impeder piston and the housing are co-operatively configured such that a contractible compartment is defined between the impeder piston and the housing; at least a portion of the viscous fluid is disposed within the contractible compartment; the contractible compartment is disposed in flow communication with the transition impeding fluid passage; and the completion component feature, the impeder piston, the housing, the contractible compartment, and the viscous fluid are co-operatively configured such that, during the transitioning of the configuration of the completion component feature, the impeder piston, and the housing from the impeding configuration to the non-impeding configuration, contraction of the contractible compartment is effected, with effect that the impeder piston urges the flow of the viscous fluid, disposed within the contractible compartment, through the transition-impeding fluid passage. 9. The wellbore completion component as claimed in claim 8 , wherein: the transition impeding fluid passage is defined within the impeder piston. 10. The wellbore completion component as cl