Passive, gravity-driven system for treatment of an effluent in a diagnostic system

What is claimed is: 1. A passive, gravity-driven treatment system, operatively coupled to an automated slide staining apparatus, for treatment of a waste stream exiting the automated slide staining apparatus, wherein the gravity-driven treatment system comprises: (a) a homogenizing reservoir fluidly connected to the automated slide staining apparatus for receiving a radical initiator and said waste stream exiting the automated slide staining apparatus at a given flow rate, wherein the waste stream comprises a set of fluid components having an aqueous component containing one or more target compounds, wherein a residence time of each fluid component in the homogenizing reservoir is sufficient for promoting an even mixing of the set of fluid components to form a homogenous target effluent at or near a first outlet of the homogenizing reservoir; (b) a radical generating reservoir, wherein the target effluent is routed from the first outlet of the homogenizing reservoir to the radical generating reservoir via a channel, wherein gravity facilitates flow of the target effluent from the homogenizing reservoir to the radical generating reservoir; (c) a radical generator coupled to the radical generating reservoir, wherein the radical generator is configured to irradiate the target effluent while the target effluent is disposed in the radical generating reservoir, and promote advanced oxidation processes (AOPs) that breakdown said target compound, wherein the radical initiator is effective for accelerating said AOPs when the radical initiator is exposed to the radical generator, thus reducing a detectable concentration of the one or more target compounds and the target effluent becomes a treated effluent; and (d) a first disposal unit fluidically coupled to the radical generating reservoir, wherein the first disposal unit receives the treated effluent exiting from a waste outlet of the radical generating reservoir, and wherein the first disposal unit is configured such that the treated effluent is not flowed to the automated slide staining apparatus. 2. The system of claim 1 , wherein the set of fluid components further comprises an oil component, wherein as a result of buoyancy, the oil component rises and floats above the aqueous component when in the homogenizing reservoir. 3. The system of claim 2 , further comprising a second disposal unit for receiving the oil component draining from an oil waste outlet of the homogenizing reservoir, wherein said draining of the oil component is facilitated by gravity. 4. The system of claim 1 , wherein the one or more target compounds is 3,3′-diaminobenzidine (DAB). 5. The system of claim 1 , wherein the at least one target compound is 3,3′-diaminobenzidine (DAB). 6. The system of claim 1 , wherein the radical generator comprises a UV irradiation source. 7. The system of claim 6 , wherein the radical generator comprises one or more UV irradiation sources in parallel or series. 8. The system of claim 1 , wherein the radical generator is disposed inside the radical generating reservoir so as to form an in-line flow-through UV irradiation system. 9. A passive, gravity-driven treatment system, operatively coupled to an automated slide staining apparatus, for treatment of a waste stream exiting the automated slide staining apparatus, wherein the system comprises: (a) a homogenizing reservoir fluidly connected to the automated slide staining apparatus for receiving the waste stream and a radical initiator, wherein the waste stream comprises an oil-phase fluid component and an aqueous fluid component containing at least one target compound, wherein as a result of buoyancy, the oil-phase fluid component rises and floats above the aqueous fluid component when in the homogenizing reservoir so as to form an upper layer of oil effluent and a lower layer of target effluent, wherein the radical initiator is disposed in the target effluent; (b) a radical generating reservoir fluidly connected to the homogenizing reservoir via a channel, wherein the channel is connected to a first outlet of the homogenizing reservoir and to an inlet of the radical generating reservoir, wherein the first outlet is positioned near a base of the homogenizing reservoir, wherein the inlet is positioned at or near a base of the radical generating reservoir, wherein gravity facilitates flow of the target effluent from the homogenizing reservoir to the radical generating reservoir via the channel; (c) a radical generator coupled to the radical generating reservoir, wherein the radical generator is configured to irradiate the target effluent while the target effluent is disposed in the radical generating reservoir, and promote advanced oxidation processes (AOPs) that breakdown said the at least one target compound, wherein the radical initiator is effective for accelerating said AOPs when the radical initiator is exposed to the radical generator, thus reducing a detectable concentration of the at least one target compound and the target effluent becomes a treated effluent; (d) a first disposal unit for receiving the treated effluent exiting from a waste outlet of the radical generating reservoir, and wherein the first disposal unit is configured such that the treated effluent is not flowed to automated slide staining; and (e) a second disposal unit for receiving the oil effluent exiting from an oil waste outlet of the homogenizing reservoir, wherein the oil waste outlet is positioned above the lower layer of target effluent so as to provide a route for gravity-facilitated drainage of the oil effluent from the homogenizing reservoir. 10. The system of claim 9 , wherein a residence time of each fluid component in the homogenizing reservoir is sufficient for separating the oil-phase fluid component from the aqueous fluid component, and for an even mixing of the aqueous fluid component and the radical initiator, wherein the residence time is a function of the given flow rate and dimensions of the homogenizing reservoir. 11. A passive, gravity-driven treatment system, operatively coupled to a diagnostic system, for treatment of a waste stream exiting the diagnostic system, wherein the gravity-driven treatment system comprises: (a) a homogenizing reservoir fluidly connected to the diagnostic system for receiving the waste stream comprising at least one target compound and one or more fluid components, wherein a residence time of each fluid component in the homogenizing reservoir is sufficient for promoting one or more of the following: i) an even mixing of aqueous fluid components to form an aqueous effluent; ii) an even mixing of non-aqueous fluid components to form a non-aqueous effluent; or iii) separation of the non-aqueous effluent from the aqueous effluent, wherein the at least one target compound is disposed in either the non-aqueous effluent or the aqueous effluent, said effluent containing the at least one target compound is hereinafter referred to as the target effluent; (b) a radical generating reservoir for receiving the target effluent from the homogenizing reservoir via a channel fluidly connecting the reservoirs, wherein gravity facilitates flow of the target effluent from the homogenizing reservoir to the radical generating reservoir; and (c) a radical generator coupled to the radical generating reservoir, wherein the radical generator is configured to irradiate the target effluent while the target effluent is disposed in the radical generating reservoir, and promote advanced oxidation processes (AOPs) that breakdown said at least one target compound, thereby reducing a detectable concentration of the at least one target compound and the target effluent becomes a treated effluent; wherein the diagnost