CN116448501B

CN116448501B - Biochemical sludge and materialized sludge separate sampling device during sludge attribute identification

Info

Publication number: CN116448501B
Application number: CN202310727575.2A
Authority: CN
Inventors: 严小飞; 刘景龙; 张后虎; 徐东; 刘勐琦; 孙聪聪; 陈祥; 孙孜菲; 邬梦成
Original assignee: Nanjing Institute of Environmental Sciences MEE
Current assignee: Nanjing Institute of Environmental Sciences MEE
Priority date: 2023-06-20
Filing date: 2023-06-20
Publication date: 2023-08-18
Anticipated expiration: 2043-06-20
Also published as: CN116448501A

Abstract

The invention discloses a device for separating and sampling biochemical sludge and materialized sludge during sludge attribute identification, which comprises a sludge extraction assembly, and a biochemical reaction tank and a materialized reaction tank which are respectively connected with the sludge extraction assembly through connecting pipelines; the sludge extraction component comprises an outer shell, a water permeable plate clamped at the bottom of the outer shell and a sampling vessel; the lower end of the outer shell is provided with a drain pipe; the sampling vessel is provided with a biochemical sludge cavity and a materialized sludge cavity, and filter cloth is arranged at the bottoms of the biochemical sludge cavity and the materialized sludge cavity; an extrusion electric rod is arranged at the top part in the outer shell body, and an extrusion plug plate is arranged on the extrusion electric rod; the invention has reasonable structural design, solves the problem that the biochemical reaction tank and the physical and chemical reaction tank share one set of drain pipe, the sludge concentrated water and the dehydration are not separated for sampling, and is suitable for popularization and use.

Description

Biochemical sludge and materialized sludge separate sampling device during sludge attribute identification

Technical Field

The invention relates to the technical field of sludge treatment, in particular to a biochemical sludge and materialized sludge separate sampling device during sludge attribute identification.

Background

At present, sludge generated in the sewage treatment process is frequently subjected to the condition that the state hazardous waste directory is not listed, and the hazardous characteristics are unknown, so that the attribute identification of the hazardous waste is required to be carried out, and the subsequent management mode can be clarified.

As known from the general rule for identification of solid waste (GB 34330), the sludge produced by water purification and wastewater treatment belongs to the substances produced during environmental remediation and pollution control, and the technical specification for identification of hazardous waste (HJ 298) states that "solid waste is the substance produced during environmental remediation and pollution control prescribed by GB34330, should be sampled during the production phase where the source of pollutants, the load of operation of facilities and the effect are stable; the solid waste generated in different process links should be sampled respectively according to the environmental management and pollution control process flows. "

The common problem in the enterprises at present is that biochemical reaction sludge and physical and chemical reaction sludge enter a drain pipe together and then are gathered into a unified sludge concentration tank, the concentrated sludge is dehydrated by a filter press, the biochemical reaction sludge and the physical and chemical reaction sludge are mixed together after being generated, and solid wastes generated in different process links cannot be sampled respectively according to the standard requirements; if separate sampling of sludge is to be realized, the subsequent concentration tank is to be emptied, stop valves are added in the drain pipes of the biochemical reaction tank and the physicochemical reaction tank, and when the biochemical reaction tank drains water, the physicochemical reaction is ensured not to drain water, and vice versa, so that separate sampling of the two types of sludge is realized, the normal production of enterprises can be obviously influenced, and inconvenience is brought to field operation.

Disclosure of Invention

Aiming at the technical problems, the invention provides a device for sampling biochemical sludge and materialized sludge separately during sludge attribute identification.

The technical scheme of the invention is as follows: a device for separating and sampling biochemical sludge and materialized sludge during sludge attribute identification comprises a sludge extraction assembly, and a biochemical reaction tank and a materialized reaction tank which are respectively connected with the sludge extraction assembly through connecting pipelines; the biochemical reaction tank and the physical and chemical reaction tank have the same structure;

the sludge extraction assembly comprises an outer shell, a water permeable plate and a sampling vessel, wherein the lower end of the outer shell is provided with a bracket, the water permeable plate is movably clamped at the bottom of the outer shell, and the sampling vessel is movably clamped inside the outer shell and is positioned at the upper end of the water permeable plate; the lower bottom surface of the outer shell is provided with a drain pipe, and the side wall of the outer shell is provided with an opening door; the sampling vessel is provided with a biochemical sludge cavity and a materialized sludge cavity, and filter cloth is arranged at the bottoms of the biochemical sludge cavity and the materialized sludge cavity; a first sample inlet communicated with the biochemical sludge cavity and the materialized sludge cavity is arranged on the side wall of the sampling vessel, and a second sample inlet is arranged on the side wall of the outer shell at a position corresponding to the first sample inlet; the top in the outer shell body and the positions corresponding to the biochemical sludge cavity and the materialized sludge cavity are respectively provided with an extrusion electric rod, and the lower ends of the two extrusion electric rods are respectively provided with an extrusion plug plate;

the two connecting pipelines are arranged, and sludge pumps are arranged at the joints of the two connecting pipelines, the biochemical reaction tank and the physicochemical reaction tank; the joints of the two connecting pipelines and the sludge extraction assembly are respectively provided with a movable joint; the two movable connectors can be sequentially inserted into the second sample inlet and the first sample inlet at the corresponding positions.

Further, the biochemical sludge cavity and the materialized sludge cavity are both provided with a plurality of biochemical sludge cavities and materialized sludge cavities which are symmetrically arranged in the sampling vessel; the side wall of the sampling vessel is provided with a first sample inlet corresponding to the positions of each biochemical sludge cavity and each materialized sludge cavity; the upper end face of the outer shell is provided with a switching motor, an output shaft of the switching motor penetrates through the outer shell, and a spring tube movably clamped with the sampling vessel is sleeved outside the output shaft;

description: through setting up the biochemical mud chamber of several and materialized mud chamber, utilize the switching motor to drive the sample dish and rotate in the shell body, can gather a plurality of biochemical mud samples and materialized mud sample simultaneously, improved sampling efficiency.

Further, a first electric push rod connected with the movable joint is arranged on the side wall of the outer shell;

description: the first electric push rod is utilized to push the movable joint to be inserted into the corresponding second sample inlet and first sample inlet, so that the quick connection between the connecting pipeline and the biochemical sludge cavity and the materialized sludge cavity is realized.

Further, the joints of the connecting pipeline, the biochemical reaction tank and the physical-chemical reaction tank are respectively provided with a flowmeter and a turbidimeter, and the outer shell is provided with a PLC (programmable logic controller) electrically connected with the flowmeter and the turbidimeter;

description: in the biochemical sludge and materialized sludge sampling process, the flow meter and the turbidity meter are utilized to control the amount of the sludge required to be extracted, so that the automatic operation degree of the device is improved.

Further, the upper end surfaces of the biochemical reaction tank and the physicochemical reaction tank are respectively clamped with an installation table, the lower bottom surface of the installation table is provided with a screw rod support, the upper end surface of the installation table is provided with a lifting motor, the output shaft of the lifting motor is provided with a lifting screw rod which is rotationally clamped with the screw rod support, the lifting screw rod is connected with a sampling head which is in sliding clamping connection with the screw rod support through threads, and the sampling head is connected with a connecting pipeline through a telescopic hose;

description: the lifting motor is utilized to drive the lifting screw rod to rotate, so that the sampling head can move up and down along the screw rod support, biochemical sludge and materialized sludge samples with different depths can be extracted by the sampling head, and the reliability of sludge sampling is improved.

Further, the inside of the sampling head is hollow, a plurality of first through holes are distributed at the end, far away from the lifting screw rod, of the sampling head at equal intervals, a plurality of opening and closing plates are connected to the end part of the sampling head in a sliding clamping mode, second through holes which can be communicated with the first through holes at corresponding positions are formed in the opening and closing plates, and reset springs are arranged at the joints of the opening and closing plates and the sampling head; the sampling head is internally provided with a second electric push rod, and the end part of the second electric push rod is provided with an extrusion ball head which is abutted with one end of each opening and closing plate, which is close to each other;

description: when the sampling head reaches the preset depth, the second electric push rod is utilized to push the extrusion ball head to move towards each opening and closing plate, the opening and closing plates are far away from each other, at the moment, the second through hole coincides with the first through hole, sludge enters the sampling head, mutual interference between sludge samples with different depths is avoided, and accordingly accuracy of a sludge detection result is improved.

Further, the upper end surface of the mounting table is provided with a sliding clamping groove, and a sliding seat and a third electric push rod connected with the sliding seat are arranged in the sliding clamping groove; the screw rod bracket, the lifting motor and the sludge pump are arranged on the sliding seat;

description: through setting up third electric putter and sliding seat, be convenient for adjust the horizontal position of sampling head to can gather the mud sample of biochemical reaction pond and the same degree of depth different positions of materialization reaction pond.

Further, a rotating motor is arranged on the upper end face of the mounting table and close to one end of the biochemical reaction tank, a rotating gear positioned at the edge of the mounting table is arranged on an output shaft of the rotating motor, and the rotating gear is in meshed connection with the biochemical reaction tank;

description: the rotating motor is utilized to drive the rotating gear to rotate, so that the mounting table rotates on the biochemical reaction tank and the materialized reaction tank, and sludge samples at all positions inside the biochemical reaction tank and the materialized reaction tank are conveniently collected.

Further, the bottom in each biochemical sludge cavity and materialized sludge cavity is provided with an elastic supporting plate;

description: through setting up the elastic support board, be convenient for shift the mud sample after biochemical mud chamber and materialized mud intracavity portion dehydration, avoid mud adhesion at biochemical mud chamber and materialized mud intracavity portion.

Further, the lower end of the outer shell is of a conical structure;

description: the outer shell of the conical structure is beneficial to the rapid discharge of water in the sludge.

The application method of the invention comprises the following steps:

s1, respectively connecting a sludge pump and an extrusion electric rod with an external power supply;

s2, pumping mud water in the biochemical reaction tank and the materialized reaction tank into the biochemical sludge cavity and the materialized sludge cavity through connecting pipelines respectively by utilizing a sludge pump;

s3, starting two extrusion electric rods, and driving the extrusion plug plates to move along the inside of the biochemical sludge cavity and the inside of the materialized sludge cavity by using the extrusion electric rods to remove water in the biochemical sludge and the materialized sludge; the removed water sequentially passes through the filter cloth and the water permeable plate and then is discharged out of the outer shell through the drain pipe;

s4, using the extrusion electric rod to drive the extrusion plug plate to reset, then opening the opening door, taking out the sampling vessel from the inside of the outer shell, and transferring the biochemical sludge cavity and the dehydrated sludge sample in the materialized sludge cavity.

Compared with the prior art, the invention has the beneficial effects that:

the invention has reasonable structural design, solves the problem that the biochemical reaction tank and the materialized reaction tank can not be sampled separately due to sharing a set of drain pipe, sludge concentrated water and dehydration, and not only improves the efficiency of biochemical sludge and materialized sludge sampling detection work; the device can not negatively affect the water treatment system in the running process, and has higher reliability and stability;

secondly, the lifting motor is utilized to drive the sampling head to move up and down in the biochemical reaction tank and the materialized reaction tank, the third electric push rod is utilized to adjust the horizontal position of the sampling head, and the rotating motor is utilized to drive the sampling head to rotate, so that the effect of sampling sludge at any position in the biochemical reaction tank and the materialized reaction tank by the sampling head is achieved, and the sampling efficiency is improved;

thirdly, the opening and closing plate which can be freely opened is arranged at the end part of the sampling head, so that the mutual interference among sludge at different depths and different positions in the moving process of the sampling head is avoided, and the accuracy of a sludge sample detection result is improved.

Drawings

FIG. 1 is a longitudinal cross-sectional view of the present invention;

FIG. 2 is a schematic illustration of the connection of the outer housing to the connecting tubing of the present invention;

FIG. 3 is a diagram showing the distribution of biochemical sludge chambers and materialized sludge chambers in a sampling vessel in example 2 of the present invention;

FIG. 4 is a schematic structural view of a biochemical reaction tank according to the present invention;

FIG. 5 is a schematic diagram showing the connection of the mounting table and the biochemical reaction tank;

FIG. 6 is a schematic diagram of the structure of the sampling head of the present invention;

FIG. 7 is a schematic diagram of the connection of the opening and closing plate and the sampling head according to the present invention;

FIG. 8 is a schematic diagram showing connection between a rotary electric machine and a biochemical reaction tank according to the present invention;

FIG. 9 is a diagram showing the distribution of biochemical sludge chambers and materialized sludge chambers in a sampling vessel in example 3 of the present invention;

the device comprises a 1-sludge extraction component, a 10-outer shell, a 100-support, a 101-drain pipe, a 102-opening door, a 103-second sample inlet, a 11-water permeable plate, a 12-sampling vessel, a 120-biochemical sludge cavity, a 121-materialized sludge cavity, 122-filter cloth, a 123-first sample inlet, a 13-extrusion electric rod, a 130-extrusion plug plate, a 14-switching motor, a 140-spring pipe, a 15-elastic supporting plate, a 2-connecting pipeline, a 20-sludge pump, a 21-movable joint, a 22-first electric push rod, a 3-biochemical reaction tank, a 4-materialized reaction tank, a 5-mounting table, a 50-screw support, a 51-lifting motor, a 52-lifting screw, a 53-sampling head, a 530-first through hole, a 531-opening and closing plate, 5310-reset springs, 532-second through holes, 533-second electric push rods, 5330-extrusion ball heads, 534-telescopic hoses, 54-sliding clamping grooves, 55-sliding seats, 56-third electric push rods, 57-rotating motors and 570-rotating gears.

Detailed Description

Example 1: the device for sampling biochemical sludge and materialized sludge separately during sludge attribute identification shown in fig. 1 comprises a sludge extraction assembly 1, and a biochemical reaction tank 3 and a materialized reaction tank 4 which are respectively connected with the sludge extraction assembly 1 through connecting pipelines 2; the biochemical reaction tank 3 and the physical and chemical reaction tank 4 have the same structure;

as shown in fig. 1 and 2, the sludge extraction assembly 1 comprises an outer shell 10 with a bracket 100 at the lower end, a water permeable plate 11 movably clamped at the inner bottom of the outer shell 10, and a sampling vessel 12 movably clamped inside the outer shell 10 and positioned at the upper end of the water permeable plate 11; the lower bottom surface of the outer shell 10 is provided with a drain pipe 101, and the side wall of the outer shell 10 is provided with an opening door 102; 1 biochemical sludge cavity 120 and 1 materialized sludge cavity 121 are arranged on the sampling vessel 12, and filter cloth 122 is arranged at the inner bottoms of the biochemical sludge cavity 120 and the materialized sludge cavity 121; a first sample inlet 123 communicated with the biochemical sludge cavity 120 and the materialized sludge cavity 121 is arranged on the side wall of the sampling vessel 12, and a second sample inlet 103 is arranged on the side wall of the outer shell 10 at a position corresponding to the first sample inlet 123; the top in the outer shell 10 and the positions corresponding to the biochemical sludge cavity 120 and the materialized sludge cavity 121 are respectively provided with an extrusion electric rod 13, and the lower ends of the two extrusion electric rods 13 are respectively provided with an extrusion plug plate 130;

as shown in fig. 1, 2 and 4, sludge pumps 20 are arranged at the joints of the two connecting pipelines 2 and the biochemical reaction tank 3 and the physicochemical reaction tank 4; the joints of the two connecting pipelines 2 and the sludge extraction assembly 1 are respectively provided with a movable joint 21; the two movable joints 21 can be sequentially inserted into the second sample inlet 103 and the first sample inlet 123 at the corresponding positions.

Example 2: this embodiment differs from embodiment 1 in that:

as shown in fig. 2 and 3, 4 biochemical sludge chambers 120 and 4 materialized sludge chambers 121 are respectively arranged, and the 4 biochemical sludge chambers 120 and the 4 materialized sludge chambers 121 are symmetrically arranged in the sampling vessel 12; the side wall of the sampling vessel 12 is provided with a first sample inlet 123 corresponding to the positions of each biochemical sludge cavity 120 and each materialized sludge cavity 121; the upper end surface of the outer shell 10 is provided with a switching motor 14, an output shaft of the switching motor 14 penetrates through the outer shell 10, and a spring tube 140 movably clamped with the sampling vessel 12 is sleeved outside the output shaft; the inner bottoms of each biochemical sludge cavity 120 and each materialized sludge cavity 121 are respectively provided with an elastic supporting plate 15.

Example 3: this embodiment differs from embodiment 2 in that:

as shown in fig. 9, 3 biochemical sludge chambers 120 and 3 materialized sludge chambers 121 are provided, and 3 biochemical sludge chambers 120 and 3 materialized sludge chambers 121 are symmetrically provided inside the sampling vessel 12.

Example 4: this embodiment differs from embodiment 3 in that:

as shown in fig. 2, a first electric push rod 22 connected with a movable joint 21 is arranged on the side wall of the outer shell 10; the joints of the connecting pipeline 2 and the biochemical reaction tank 3 and the physicochemical reaction tank 4 are respectively provided with a flowmeter and a turbidimeter, and the outer shell 10 is provided with a PLC controller electrically connected with the flowmeter and the turbidimeter.

Example 5: this embodiment differs from embodiment 4 in that:

as shown in fig. 4, 6 and 7, the upper end surfaces of the biochemical reaction tank 3 and the physicochemical reaction tank 4 are respectively clamped with a mounting table 5, the lower bottom surface of the mounting table 5 is provided with a screw rod bracket 50, the upper end surface of the mounting table 5 is provided with a lifting motor 51, the output shaft of the lifting motor 51 is provided with a lifting screw rod 52 which is rotationally clamped with the screw rod bracket 50, the lifting screw rod 52 is in threaded connection with a sampling head 53 which is in sliding clamping connection with the screw rod bracket 50, and the sampling head 53 is connected with the connecting pipeline 2 through a telescopic hose 534; the sampling head 53 is hollow, 4 first through holes 530 are distributed at equal intervals at one end of the sampling head 53 far away from the lifting screw 52, 4 opening and closing plates 531 are slidably clamped at the end part of the sampling head 53, second through holes 532 which can be communicated with the first through holes 530 at corresponding positions are arranged on each opening and closing plate 531, and a reset spring 5310 is arranged at the joint of each opening and closing plate 531 and the sampling head 53; the second electric push rod 533 is provided inside the sampling head 53, and the end of the second electric push rod 533 is provided with a squeeze bulb 5330 abutting against one end of each opening and closing plate 531.

Example 6: this embodiment differs from embodiment 5 in that:

as shown in fig. 5 and 8, a sliding clamping groove 54 is formed in the upper end surface of the mounting table 5, and a sliding seat 55 and a third electric push rod 56 connected with the sliding seat 55 are arranged in the sliding clamping groove 54; the screw bracket 50, the lifting motor 51 and the sludge pump 20 are all arranged on the sliding seat 55; the upper end face of the mounting table 5 and one end close to the biochemical reaction tank 3 are provided with a rotating motor 57, an output shaft of the rotating motor 57 is provided with a rotating gear 570 positioned at the edge of the mounting table 5, and the rotating gear 570 is in meshed connection with the biochemical reaction tank 3.

The PLC controller, the squeeze motor 13, the switch motor 14, the sludge pump 20, the first motor push rod 22, the flow meter, the turbidity meter, the lift motor 51, the second motor push rod 533, the third motor push rod 56, and the rotary motor 57 used in the present invention are all related art, and are not particularly limited herein, and corresponding products may be selected according to actual needs.

Claims

1. The device for separating and sampling biochemical sludge and materialized sludge during sludge attribute identification is characterized by comprising a sludge extraction assembly (1), and a biochemical reaction tank (3) and a materialized reaction tank (4) which are respectively connected with the sludge extraction assembly (1) through connecting pipelines (2); the biochemical reaction tank (3) and the physical and chemical reaction tank (4) have the same structure;

the sludge extraction assembly (1) comprises an outer shell (10) with a bracket (100) at the lower end, a water permeable plate (11) movably clamped at the inner bottom of the outer shell (10) and a sampling dish (12) movably clamped inside the outer shell (10) and positioned at the upper end of the water permeable plate (11); the bottom surface of the outer shell (10) is provided with a drain pipe (101), and the side wall of the outer shell (10) is provided with an opening door (102); the sampling vessel (12) is provided with a biochemical sludge cavity (120) and a materialized sludge cavity (121), and filter cloth (122) is arranged at the inner bottoms of the biochemical sludge cavity (120) and the materialized sludge cavity (121); a first sample inlet (123) communicated with the biochemical sludge cavity (120) and the materialized sludge cavity (121) is arranged on the side wall of the sampling vessel (12), and a second sample inlet (103) is arranged on the side wall of the outer shell (10) at a position corresponding to the first sample inlet (123); the top in the outer shell (10) and the positions corresponding to the biochemical sludge cavity (120) and the materialized sludge cavity (121) are respectively provided with an extrusion electric rod (13), and the lower ends of the two extrusion electric rods (13) are respectively provided with an extrusion plug plate (130); the upper end face of the outer shell (10) is provided with a switching motor (14), an output shaft of the switching motor (14) penetrates through the outer shell (10), and a spring tube (140) movably clamped with the sampling vessel (12) is sleeved outside the output shaft;

two connecting pipelines (2) are arranged, and sludge pumps (20) are arranged at the joints of the two connecting pipelines (2) with the biochemical reaction tank (3) and the physicochemical reaction tank (4); the joints of the two connecting pipelines (2) and the sludge extraction assembly (1) are provided with movable joints (21); the two movable connectors (21) can be sequentially inserted into the second sample inlet (103) and the first sample inlet (123) at corresponding positions;

the biochemical reaction tank (3) and the materialized reaction tank (4) are connected with an installation table (5) in a clamping mode, a screw rod support (50) is arranged on the lower bottom surface of the installation table (5), a lifting motor (51) is arranged on the upper end surface of the installation table (5), a lifting screw rod (52) which is connected with the screw rod support (50) in a rotating and clamping mode is arranged on an output shaft of the lifting motor (51), a sampling head (53) which is connected with the screw rod support (50) in a sliding and clamping mode is connected with the sampling head (53) through a telescopic hose (534).

2. The device for separating and sampling biochemical sludge and materialized sludge during sludge attribute identification according to claim 1, wherein a plurality of biochemical sludge chambers (120) and materialized sludge chambers (121) are arranged, and the biochemical sludge chambers (120) and materialized sludge chambers (121) are symmetrically arranged in the sampling vessel (12); the side wall of the sampling dish (12) and the positions of each biochemical sludge cavity (120) and each materialized sludge cavity (121) are respectively provided with a first sample inlet (123).

3. The device for separating biochemical sludge from materialized sludge for sludge attribute identification according to claim 1, wherein a first electric push rod (22) connected with a movable joint (21) is arranged on the side wall of the outer shell (10).

4. The device for separating and sampling biochemical sludge and materialized sludge during sludge attribute identification according to claim 1, wherein the connection parts of the connecting pipeline (2) and the biochemical reaction tank (3) and the materialized reaction tank (4) are respectively provided with a flowmeter and a turbidimeter, and a PLC (programmable logic controller) electrically connected with the flowmeter and the turbidimeter is arranged on the outer shell (10).

5. The device for separating biochemical sludge from materialized sludge during sludge attribute identification according to claim 1, wherein the sampling head (53) is hollow, a plurality of first through holes (530) are distributed at one end of the sampling head (53) far away from the lifting screw (52) at equal intervals, a plurality of opening and closing plates (531) are slidably clamped at the end part of the sampling head (53), a second through hole (532) which can be communicated with the first through hole (530) at a corresponding position is arranged on each opening and closing plate (531), and a reset spring (5310) is arranged at the joint of each opening and closing plate (531) and the sampling head (53); the inside second electric putter (533) that is provided with of sampling head (53), second electric putter (533) tip is provided with and opens and close one end butt extrusion bulb (5330) that board (531) are close to each other.

6. The device for separating biochemical sludge from materialized sludge during sludge attribute identification according to claim 1, wherein a sliding clamping groove (54) is formed in the upper end surface of the mounting table (5), and a sliding seat (55) and a third electric push rod (56) connected with the sliding seat (55) are arranged in the sliding clamping groove (54); the screw rod support (50), the lifting motor (51) and the sludge pump (20) are arranged on the sliding seat (55).

7. The device for separating and sampling biochemical sludge and materialized sludge during sludge attribute identification according to claim 5, wherein a rotating motor (57) is arranged at one end, close to the biochemical reaction tank (3), of the upper end face of the mounting table (5), a rotating gear (570) positioned at the edge of the mounting table (5) is arranged on an output shaft of the rotating motor (57), and the rotating gear (570) is in meshed connection with the biochemical reaction tank (3).

8. The device for separating biochemical sludge from materialized sludge for sludge attribute identification according to claim 1, wherein the inner bottom of each biochemical sludge cavity (120) and the materialized sludge cavity (121) is provided with an elastic supporting plate (15).