Test Results Matching your Search
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There are 108 documents that match your query. These 108 documents contain a total of 2,214 individual tests. The documents are listed below. You can click the title of the report to bring up a PDF version of the report in a new browser window. You will need Adobe Acrobat Reader to view the documents.
Executive Summary for Document Search
This search included results from:
- 33 locations
- 6 different industries
- 4 different fuel types
- 35 different engine manufacturers
- 139 different engine types
- 1 test procedure
The aggregate results for the tests in this search criteria show:
- 38 Specific Fuel Consumption tests were performed with an average improvement of 3.439%
- 642 Carbon Mass Balance tests were performed with an average improvement of 8.132%
- 11 Statistical tests were performed with an average improvement of 6.727%
- 299 Smoke Spot tests were performed with an average improvement of 21.889%
- 7 NOx tests were performed with an average improvement of 2.657%
- 365 CO tests were performed with an average improvement of 10.317%
- 389 HC tests were performed with an average improvement of 11.312%
- 416 CO2 tests were performed with an average improvement of 8.991%
- 23 Wear Metals tests were performed with an average improvement of 26.000%
- 19 Oil Consumption tests were performed with an average improvement of 32.389%
- 5 Withdrawal tests were performed with an average improvement of -7.700%
Result 1 of 108
Test Id: | 8 |
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Title: | A.T. Massey, Sprouse Creek Mine |
File Size: | 33.744 MB |
Industries: | Mining, Railroad |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 21-Jul-1994 |
Test Date: | 17-Apr-1994 |
Test Location: | West Virginia, USA |
Summary: | Fuel Economy Results: 7.8% average improvement on 2 Caterpillar 3412 engines via Carbon Mass Balance testing 10.4% average improvement on 3 EMD 567 D3 engines via Carbon Mass Balance testing Engine Emissions Results: 4.4% average improvement on 2 Caterpillar 3412 engines via CO testing -1.2% average improvement on 3 EMD 567 D3 engines via CO testing 11.5% average improvement on 2 Caterpillar 3412 engines via CO2 testing 11.8% average improvement on 3 EMD 567 D3 engines via CO2 testing 29.3% average improvement on 2 Caterpillar 3412 engines via HC testing 91.4% average improvement on 3 EMD 567 D3 engines via HC testing 22.0% average improvement on 2 Caterpillar 3412 engines via Smoke Spot testing 57.7% average improvement on 3 EMD 567 D3 engines via Smoke Spot testing |
Result 2 of 108
Test Id: | 69 |
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Title: | Alaska Railroad Corporation |
File Size: | 72.735 MB |
Industries: | Railroad |
Report Type: | Field Test |
Benefits: | Carbon in engine, Emissions, Fuel economy, Maintenance/engine wear, Wayside fires |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 10-Nov-1995 |
Test Date: | 16-Sep-1995 |
Test Location: | Alaska, USA |
Summary: | Fuel Economy Results: 9.1% average improvement on 12 EMD 645E engines via Carbon Mass Balance testing Engine Emissions Results: -5.8% average improvement on 12 EMD 645E engines via CO testing 5.1% average improvement on 12 EMD 645E engines via CO2 testing -13.9% average improvement on 12 EMD 645E engines via HC testing 24.3% average improvement on 5 EMD 645E engines via Smoke Spot testing |
Result 3 of 108
Test Id: | 78 |
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Title: | Andhra Pradesh |
File Size: | 9.721 MB |
Industries: | Buses |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 30-Oct-1994 |
Test Date: | 28-Oct-1994 |
Test Location: | Andhra Pradesh, India |
Summary: | Fuel Economy Results: 7.7% improvement on a Hino WD6 engine via Carbon Mass Balance testing 9.9% improvement on a Leyland 370 engine via Carbon Mass Balance testing Engine Emissions Results: 0.2% improvement on a Hino WD6 engine via CO testing 9.9% improvement on a Leyland 370 engine via CO testing 10.2% improvement on a Hino WD6 engine via CO2 testing 18.0% improvement on a Leyland 370 engine via CO2 testing 7.7% improvement on a Hino WD6 engine via HC testing 0.0% average improvement on 2 Hino WD6 engines via Smoke Spot testing 50.0% improvement on a Leyland 370 engine via Smoke Spot testing 50.0% improvement on a Leyland 6-65 engine via Smoke Spot testing |
Result 4 of 108
Test Id: | 70 |
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Title: | Armco Steel |
File Size: | 16.072 MB |
Industries: | Railroad |
Report Type: | Field Test |
Benefits: | Fuel economy, Maintenance/engine wear |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 30-Jul-1985 |
Test Date: | 20-Feb-1985 |
Test Location: | Pennsylvania, USA |
Summary: | Fuel Economy Results: 12.7% improvement on a EMD 645E engine via Carbon Mass Balance testing Engine Emissions Results: 21.5% improvement on a EMD 645E engine via CO testing 8.9% improvement on a EMD 645E engine via CO2 testing 41.7% improvement on a EMD 645E engine via HC testing |
Result 5 of 108
Test Id: | 71 |
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Title: | Australia Railroad Group (ARG) |
File Size: | 4.805 MB |
Industries: | Railroad |
Report Type: | Field Test |
Benefits: | Biocide, Emissions, Fuel economy, Maintenance/engine wear, Wayside fires |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 1-Aug-2006 |
Test Date: | 12-Jun-2006 |
Test Location: | Western Australia, Australia |
Summary: | Fuel Economy Results: 5.6% average improvement on 4 EMD 710G3A engines via Carbon Mass Balance testing |
Result 6 of 108
Test Id: | 79 |
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Title: | BEC-allwaste |
File Size: | 22.693 MB |
Industries: | Trucking |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 15-Sep-1996 |
Test Date: | 10-Jul-1996 |
Test Location: | Alabama, USA |
Summary: | Fuel Economy Results: 6.3% improvement on a Caterpillar 3114 engine via Carbon Mass Balance testing 10.3% improvement on a Caterpillar 3406 engine via Carbon Mass Balance testing 14.8% improvement on a Caterpillar 3406-B engine via Carbon Mass Balance testing 12.2% improvement on a Cummins 400 Turbo engine via Carbon Mass Balance testing 14.5% improvement on a Cummins 5.9 engine via Carbon Mass Balance testing Engine Emissions Results: -0.8% improvement on a Caterpillar 3114 engine via CO testing 0.2% improvement on a Caterpillar 3406 engine via CO testing -3.4% improvement on a Caterpillar 3406-B engine via CO testing 17.1% improvement on a Cummins 400 engine via CO testing -1.7% improvement on a Cummins 5.9 engine via CO testing 13.2% improvement on a Caterpillar 3114 engine via CO2 testing 14.4% improvement on a Caterpillar 3406 engine via CO2 testing 11.8% improvement on a Caterpillar 3406-B engine via CO2 testing 10.5% improvement on a Cummins 400 engine via CO2 testing 9.5% improvement on a Cummins 5.9 engine via CO2 testing 14.1% improvement on a Caterpillar 3114 engine via HC testing 42.4% improvement on a Caterpillar 3406 engine via HC testing 29.3% improvement on a Caterpillar 3406-B engine via HC testing 19.1% improvement on a Cummins 400 engine via HC testing 29.1% improvement on a Cummins 5.9 engine via HC testing 36.4% improvement on a Caterpillar 3114 engine via Smoke Spot testing 25.0% improvement on a Caterpillar 3406 engine via Smoke Spot testing 14.3% improvement on a Caterpillar 3406-B engine via Smoke Spot testing 0.0% improvement on a Cummins 400 Turbo engine via Smoke Spot testing 20.0% improvement on a Cummins 5.9 engine via Smoke Spot testing |
Result 7 of 108
Test Id: | 14 |
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Title: | Bellevue Gold Mine Power Station |
File Size: | 13.352 MB |
Industries: | Generators |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 1-Dec-1992 |
Test Date: | 25-Oct-1992 |
Test Location: | Western Australia, Australia |
Summary: | Fuel Economy Results: 1.0% improvement on a Cummins KTA38 engine via Carbon Mass Balance testing 7.1% average improvement on 3 Cummins KTA50 engines via Carbon Mass Balance testing -2.2% improvement on a Cummins KTA38 engine via Specific Fuel Consumption testing 2.3% average improvement on 9 Cummins KTA50 engines via Specific Fuel Consumption testing Engine Emissions Results: -4.4% average improvement on 2 Cummins KTA38 engines via CO testing -45.7% average improvement on 6 Cummins KTA50 engines via CO testing -10.2% average improvement on 2 Cummins KTA38 engines via CO2 testing 7.5% average improvement on 6 Cummins KTA50 engines via CO2 testing 100.0% average improvement on 2 Cummins KTA38 engines via HC testing 38.0% average improvement on 6 Cummins KTA50 engines via HC testing 38.5% improvement on a Cummins KTA38 engine via Smoke Spot testing 0.0% improvement on a Cummins KTA50 engine via Smoke Spot testing |
Result 8 of 108
Test Id: | 80 |
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Title: | BFI Holding |
File Size: | 16.594 MB |
Industries: | Trucking |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy, Maintenance/engine wear |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 18-Nov-1994 |
Test Date: | 7-Sep-1994 |
Test Location: | Duiven, Netherlands |
Summary: | Fuel Economy Results: 10.1% average improvement on 3 DAF 2300 engines via Carbon Mass Balance testing -3.5% improvement on a DAF 2500 engine via Carbon Mass Balance testing 6.7% improvement on a DAF 65 180 engine via Carbon Mass Balance testing 13.4% improvement on a DAF 75 engine via Carbon Mass Balance testing 5.6% average improvement on 2 DAF 75S 240 engines via Carbon Mass Balance testing 7.9% average improvement on 2 DAF 85 330 engines via Carbon Mass Balance testing 8.8% improvement on a Mercedes 3528 engine via Carbon Mass Balance testing 3.7% improvement on a Scania 81 engine via Carbon Mass Balance testing 10.2% improvement on a Scania 93H 280 engine via Carbon Mass Balance testing Engine Emissions Results: 24.7% average improvement on 3 DAF 2300 engines via CO testing 1.6% improvement on a DAF 2500 engine via CO testing 32.8% improvement on a DAF 65 180 engine via CO testing 24.0% improvement on a DAF 75 engine via CO testing 12.9% average improvement on 2 DAF 75S 240 engines via CO testing 19.9% average improvement on 2 DAF 85 330 engines via CO testing 35.4% improvement on a Mercedes 3528 engine via CO testing 26.8% improvement on a Scania 81 engine via CO testing 26.2% improvement on a Sulzer 11,000 SHP engine via CO testing 8.0% average improvement on 3 DAF 2300 engines via CO2 testing 1.9% improvement on a DAF 2500 engine via CO2 testing 12.0% improvement on a DAF 65 180 engine via CO2 testing 9.6% improvement on a DAF 75 engine via CO2 testing 8.6% average improvement on 2 DAF 75S 240 engines via CO2 testing 9.8% average improvement on 2 DAF 85 330 engines via CO2 testing 8.6% improvement on a Mercedes 3528 engine via CO2 testing -7.0% improvement on a Scania 81 engine via CO2 testing 6.7% improvement on a Scania 93H 280 engine via CO2 testing 1.1% average improvement on 3 DAF 2300 engines via HC testing 23.4% improvement on a DAF 2500 engine via HC testing -24.9% improvement on a DAF 65 180 engine via HC testing 4.3% improvement on a DAF 75 engine via HC testing 10.9% average improvement on 2 DAF 75S 240 engines via HC testing 0.3% average improvement on 2 DAF 85 330 engines via HC testing 3.0% improvement on a Mercedes 3528 engine via HC testing 0.9% improvement on a Scania 81 engine via HC testing 4.3% improvement on a Scania 93H 280 engine via HC testing 14.1% average improvement on 4 DAF 2300 engines via Smoke Spot testing 12.5% improvement on a DAF 2500 engine via Smoke Spot testing 14.3% improvement on a DAF 65 180 engine via Smoke Spot testing 12.5% improvement on a DAF 75 engine via Smoke Spot testing -14.3% improvement on a DAF 75S 240 engine via Smoke Spot testing 15.0% average improvement on 2 DAF 85 330 engines via Smoke Spot testing 25.0% improvement on a Mercedes 3528 engine via Smoke Spot testing 45.5% improvement on a Scania 81 engine via Smoke Spot testing 28.6% improvement on a Scania 93H 280 engine via Smoke Spot testing |
Result 9 of 108
Test Id: | 39 |
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Title: | Big Bell Mine |
File Size: | 0.051 MB |
Industries: | Generators, Mining |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy, Maintenance/engine wear |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 1-Sep-1999 |
Test Date: | 16-Aug-1999 |
Test Location: | Western Australia, Australia |
Summary: | Fuel Economy Results: 4.4% average improvement on 2 Caterpillar 3612 engines via Carbon Mass Balance testing 2.4% average improvement on 2 Caterpillar 3612 engines via Specific Fuel Consumption testing Engine Emissions Results: 0.0% average improvement on 2 Caterpillar 3612 engines via Smoke Spot testing |
Result 10 of 108
Test Id: | 40 |
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Title: | Blue Circle Cement |
File Size: | 0.067 MB |
Industries: | Mining |
Report Type: | Field Test |
Benefits: | Emissions, Fuel economy, Maintenance/engine wear |
Fuels: | 2D Diesel (Regular Diesel) |
Report Date: | 1-Aug-1997 |
Test Date: | 1-Mar-1997 |
Test Location: | Queensland Australia, Australia |
Summary: | Fuel Economy Results: 6.7% average improvement on 3 Caterpillar 777A engines via Carbon Mass Balance testing 4.5% average improvement on 5 Caterpillar 777A engines via Statistical testing Engine Emissions Results: 2.4% average improvement on 3 Caterpillar 777A engines via Smoke Spot testing Withdrawl Results (i.e. what happened after treatment was stopped): -7.7% average improvement on 5 Caterpillar 777A engines via Withdrawal testing |
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