First Time In The World By TRL RAIN Patented Technology
Spentwash Concentrated to 90%
Solving all waste water problems of molasses based distillery’s

Normally no treatment technology can concentrate spent wash to 90% without carry-overs.

Spent wash from molasses based distillery’s.

Crystal clear water for reuse.

90% concentrated spent wash.

With TRL RAIN Patented technology – No primary treatment, No secondary treatment, No tertiary treatment, No RO, No post treatment of waster water, No Digestors no carry-overs of cod and no colour.

A REAL ZERO LIQUID DISCHARGE
concentrated spent wash can be used as FUEL or super FERTILIZER

Output  Condensate of  WOR Pics

Output  Condensate of AMC Pics

Waste Water Feed Parameter:

SR.No Sample TSS pH TDS COD
1 WOR 11 2.74 723 11542
2 AMC 6.45 460.9 80800
3 MIXED EFFLUENT 6120 6.22 4890 9152

Treated Water Parameter:

SR.No Sample TSS pH TDS COD
1 WOR 5 7.21 98 20
2 AMC 2 7.29 324 60
3 MIXED EFFLUENT 10 7.80 79 195

Inferences:

  • COD , TSS, TDS & pH test results of treated WOR , AMC & Effluent are within statutory limits.
  • It is evident from the above data points, TRL Rain technology can be used for treatment of WOR & Effluent.

First bottle is treated spill and wash water from an oil refinery without any Oil, solvent or impurities, which can be reused. The second bottle is the waste untreated water. The remaining residue is oil and sludge where the oil can be removed by separation technology and sludge can be sent to Land filling site.

Sample 1

Sample 2

ONGC Sample 1

No. Characteristic Result – Pre treatment Result – Post treatment % Difference
1 pH at 32 deg. C 7.29 9.64 -32.24
2 Suspended Solids 4.4 1.4 68.18
3 Oil & Grease 44.22 1.22 97.24
4 COD 2,816.00 110.38 96.08
5 BOD (Cal) 1,609.14 63.06 96.08
6 Chloride as CL¯ 5,964.00 71 98.81
7 Salinity as NaCl 9,840.60 117.15 98.81
8 Carbonate as CO3¯² Nil Nil Nil
9 Bicarbonate as HCO3¯ 1,632.82 241.56 85.21
10 Sulphate as SO4²¯ Nil Nil Nil
11 Sulphate as S¯ 2.50 Nil 100.00
12 Calcium as Ca²+ 84.00 Nil 100.00
13 Magnesium as Mg²+ 70.47 17.01 75.86
14 Sodium as Na+ (Cal) 4,246.26 104.88 97.53
15 Total Hardness 500.00 70 86.00
16 Total Dissolved Solids (TDS) 11,988.00 404.35 96.63
17 Fluoride 2.12 1.7 19.81

ONGC Sample 2

No. Characteristic Result – Pre treatment Result – Post treatment % Difference
1 pH at 32 deg. C 7.1 9.01 -26.90
2 Suspended Solids 56 1 98.21
3 Oil & Grease 9.01 0.44 95.12
4 COD 2,006.51 296 85.25
5 BOD (Cal) 1,146.57 169 85.26
6 Chloride as CL¯ 4,828.00 53.25 98.90
7 Salinity as NaCl 7,966.20 87.86 98.90
8 Carbonate as CO3¯² Nil Nil Nil
9 Bicarbonate as HCO3¯ 1,825.12 295.24 83.82
10 Sulphate as SO4²¯ 63.45 28.03 55.82
11 Sulphate as S¯ Nil Nil Nil
12 Calcium as Ca²+ 48.00 Nil 100.00
13 Magnesium as Mg²+ 29.16 31.59 -8.33
14 Sodium as Na+ (Cal) 3,705.76 99.45 97.32
15 Total Hardness 240.00 130 45.83
16 Total Dissolved Solids (TDS) 10,436.00 507.56 95.14
17 Fluoride 4.96 0.21 95.77
No. Characteristic Result – Pre treatment Result – Post treatment % Difference
1 Ph at 24 deg. C 8.08 9.30 (-) 15.10
2 Total Dissolved Solids, mg/l 137,250 280 99.80
3 Chloride (as Cl), mg/l 15,816.37 33.46 99.79
4 Sulphate (as SO4), mg/l 170.16 6.32 96.29
5 Total Hardness (as CaCO3). Mg/l 904.7 17.44 98.07
6 Sodium (as Na) mg/l 23,240 16.39 99.93
7 Total Suspended Solids mg/l 1,610 45 97.20
8 Biological Oxygen Demand mg/l 5,270 27 99.49
9 Chemical Oxygen Demand, mg/l 15,984 88 99.45
10 Oil & Grease mg/l 28 < 0.4 98.57

Treatment of Hazardous waste water from their manufacturing of dyes and intermediates By TRL RAIN PATENTED Technology

Grape Juice concentrated from 17 brix to 70 brix. It can be concentrated to more than 90 Brix with TRL-RAIN

Amitara Green Hi Tech Textiles Park Ltd., Textile RO reject waste water treated with TRL RAIN™.

AMITARA GREEN HIGH TECH TEXTILE PARK

TRIAL WATER ANALYSIS REPORT DATE: 23-10-2020
PARAMETER FEED  CONDENSATE from TRL RAIN % Difference CONCENTRATE from TRL RAIN
PH  7.73 8.65 -11.90 9.35
TDS 64,500 200 99.69 2,87,900
COLOR 910 NIL 100.00
TH.  2,490 26 98.96 6,490
CA. H. 1,086 14 98.71 4,445
MG. H. 1,404 12 99.15 2,045
ALK M. 900 64 92.89 1,700
CHLORIDE 12,066 121 99.00 54,670
SULFATE 290 0 100.00 25,920
SILICA 290 1.185 99.59 135.6
COD 2,080 176 91.54 8,160
No. Characteristic Result – Pre treatment Result – Post treatment % Difference
1 Chemical Oxygen Demand, mg/l 122,640 PPM 90 PPM 99.93
2 Total Dissolved Solids, mg/l 48.43% 288 PPM 99.94
3 Total Suspended Solids mg/l 328 PPM < 10 PPM 96.95
4 Ammonical Nitrogen 2.94% 68 PPM 99.77

Treatment of Hazardous waste water from their manufacturing of dyes and intermediates.

This hazardous waste water which was treated by TRL RAIN Technology is one the most worst and most challenging water for any technology and cannot be treated by any existing Evaporation technology except Spray Dryers and that too with great difficulty and high maintenance.

We successfully demonstrated that in TRL RAIN can treat even such challenging water without any problems.

No. Characteristic Result – Pre treatment Result – Post treatment % Difference
1 COD, mg/l 23,300 136 99.41
2 TDS, mg/l 110,700 18 99.98
3 TSS mg/l 540 PPM < 10 98.14
4 Ammonical Nitrogen 2200 56 97.45

Treatment of Hazardous waste water from their manufacturing of dyes and intermediates for applications in Textile Industry.

No. Characteristic Result – Pre treatment Result – Post treatment % Difference
1 COD, mg/l 58400 92 99.84
2 TDS, mg/l 181740 480 99.73
3 TSS, mg/l 3354 170 94.93
4 P.H 6.79 7.92

Treatment of Hazardous waste water from their manufacturing of dyes and intermediates.

We successfully demonstrated that in TRL RAIN can treat even such challenging
water without any problems.