Materials and processes for reducing combustion by-products in a lubrication system for an internal combustion engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16N-039/06
F16N-039/00
B01D-035/00
F01M-009/02
F01M-009/00
출원번호
UP-0283435
(2005-11-18)
등록번호
US-7520371
(2009-07-01)
발명자
/ 주소
Lockledge, Scott P.
Brownawell, Darrell W.
출원인 / 주소
Lutek, LLC
대리인 / 주소
Woodcock Washburn LLP
인용정보
피인용 횟수 :
6인용 특허 :
50
초록▼
A lubrication system having an oil filter modified to replace or supplement the performance of lubricant additives that may be used within an internal combustion engine to increase the performance of a lubricant. The formulation of the lubricant is changed in accordance with the chemicals placed in
A lubrication system having an oil filter modified to replace or supplement the performance of lubricant additives that may be used within an internal combustion engine to increase the performance of a lubricant. The formulation of the lubricant is changed in accordance with the chemicals placed in the oil filter. For example, when the oil filter contains a strong base, the lubricant concentration of detergent will decrease, in some cases to zero, while the dispersant concentration in the lubricant will increase. The dispersant is the ideal weak base to neutralize combustion acid at the piston ring zone, carry the resultant weak base-combustion acid complex to the strong base in the oil filter, undergo ion exchange with the strong base, immobilize the acid in the oil filter and recycle back to the piston ring zone for reuse as an acid neutralization agent. The reduction or elimination of detergent from the lubricant will reduce the fouling of the emission filter and of deposit formation on engine parts such as the piston. The oil filter may also contain an additive which is slowly released into the lubricant. For example, a ZnDDP anti-wear additive may be slowly released from the oil filter to the lubricant. Because the ZnDDP has low molecular weight alkyl groups it has limited solubility in the lubricant. The rate of release is limited by the equilibrium concentration of the additive in the lubricant. As a result, a relatively constant concentration of the additive may be maintained in the lubricant. The resultant closed system allows the oil drain intervals to be significantly extended.
대표청구항▼
What is claimed: 1. An internal combustion engine lubrication system adapted to produce low levels of lubricant additive combustion by-products, comprising: filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent p
What is claimed: 1. An internal combustion engine lubrication system adapted to produce low levels of lubricant additive combustion by-products, comprising: filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent particles, the internal pores and the interstitial pores collectively defining filtration media pores, and a strong base material associated with at least some of the internal pores, wherein the filtration media pores have a surface area greater than or equal to 25 m2/gm that is derived from filtration media pores that are large enough to receive a combustion acid-dispersant weak base complex contained within oil flowing through the filtration media, the filtration media sequestering acids and/or neutralized acids as lubricant passes through the filtration media without adding to at least one of sulfated ash, phosphorus, and sulfur (SAPS) levels of the lubricant; and a lubricant having SAPS levels at least 10% below maximum SAPS levels allowed for an unused lubricant formulated for use in said internal combustion engine lubrication system without said filtration media. 2. The lubrication system of claim 1, wherein the filtration media further comprises an anti-oxidant, an organic acid neutralizing agent, or a combination thereof. 3. The lubrication system of claim 2, wherein the anti-oxidant comprises a hydroperoxide decomposition agent, a radical scavenger, or a combination thereof. 4. The lubrication system of claim 2, wherein the anti-oxidant comprises MoS compounds, MoS2 compounds, Mo4S4 (C8H17OCS2)6 compounds, hindered phenols, aromatic amines, divalent sulfur, disulfides, phosphates, trivalent phosphorus, phosphates, hydroquinones, dihydroquinolines, metal deactivators, or NaOH, or a combination thereof. 5. The lubrication system of claim 1, wherein at least one of the SAPS levels is reduced by at least 10% and as much as 90% below the maximum SAPS levels allowed for the unused lubricant. 6. The lubrication system of claim 1, wherein the filtration media is disposed in a chemical filter. 7. The lubrication system of claim 1, wherein the strong base material comprises magnesium oxide, zinc oxide, or a combination thereof. 8. An internal combustion engine lubrication system adapted to produce low levels of lubricant additive combustion by-products, wherein the lubrication system experiences a loss of a volume of lubricant over time during the ordinary course of operation of the combustion engine, comprising: filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent particles, the internal pores and the interstitial pores collectively defining filtration media pores, and a strong base material associated with at least some of the internal pores, wherein the filtration media pores have a surface area greater than or equal to 25 m2/gm that is derived from filtration media pores that are large enough to receive a combustion acid-dispersant weak base complex contained within oil flowing through the filtration media, the filtration media sequestering acids and/or neutralized acids as lubricant passes through the filtration media without adding to at least one of sulfated ash, phosphorus, and sulfur (SAPS) levels of the lubricant; and a lubricant having SAPS levels at least 10% below maximum SAPS levels allowed for an unused lubricant formulated for use in said internal combustion engine lubrication system without said filtration media; and a top-up-oil of a volume approximately equal to the volume of lubricant lost during operation of the combustion engine, wherein the top-up-oil has substantially elevated amounts of at least one lubricant additive. 9. The lubrication system of claim 8, wherein at least one of the SAPS levels is reduced by at least 10% and as much as 90% below the maximum SAPS levels allowed for the unused lubricant. 10. The lubrication system of claim 8, wherein the filtration media is disposed in a chemical filter. 11. The lubrication system of claim 8, wherein the filtration media further comprises an anti-oxidant, an organic acid neutralizing agent, or a combination thereof. 12. The lubrication system of claim 8, wherein the top-up-oil comprises an oil having substantially reduced levels of detergent. 13. The lubrication system of claim 8, wherein the substantially elevated amounts of at least one lubricant additive of the top-up-oil comprises elevated amounts of viscosity modifier dispersant, anti-wear agent, anti-oxidant, or a combination thereof. 14. An internal combustion engine lubrication system adapted to produce low levels of lubricant additive combustion by-products, comprising: a lubricant having reduced levels of a lubricant additive relative to a level of the lubricant additive in an unused lubricant formulated to have a maximum sulfated ash, phosphorus, and sulfur (SAPS) level allowed for use in said internal combustion engine lubrication system; and filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent particles, the internal pores and the interstitial pores collectively defining filtration media pores, and a strong base material associated with at least some of the internal pores, wherein the filtration media pores have a surface area greater than or equal to 25 m2/gm that is derived from filtration media pores that are large enough to receive a combustion acid-dispersant weak base complex contained within oil flowing through the filtration media, the filtration media sequestering acids and/or neutralized acids as lubricant passes through the filtration media without adding to the SAPS levels of the lubricant. 15. The lubrication system of claim 14, wherein the filtration media further comprises an anti-oxidant or a combination of said strong base material with said anti-oxidant. 16. The lubrication system of claim 15, wherein the anti-oxidant comprises a hydroperoxide decomposition agent, a radical scavenger, or a combination thereof. 17. The lubrication system of claim 15, wherein the anti-oxidant comprises MoS compounds, MoS2 compounds, Mo4S4 (C8H17OCS2)6 compounds, hindered phenols, aromatic amines, divalent sulfur, disulfides, phosphates, trivalent phosphorus, phosphates, hydroquinones, dihydroquinolines, metal deactivators, or NaOH, or a combination thereof. 18. The lubrication system of claim 14, wherein at least one of the SAPS levels is reduced by at least 10% and as much as 70% below the maximum SAPS levels allowed for the unused lubricant without said filtration media. 19. The lubrication system of claim 14, wherein the strong base material comprises magnesium oxide, zinc oxide, or a combination thereof. 20. An internal combustion engine lubrication system adapted to produce low levels of lubricant additive combustion by-products, comprising: a lubricant having lubricant additives that produce a sulfated ash content at or below about 0.9 wt %, and/or a phosphorus content at or below about 0.1 wt %; and filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent particles, the internal pores and the interstitial pores collectively defining filtration media pores, and a strong base material associated with at least some of the internal pores, wherein the filtration media pores have a surface area greater than or equal to 25 m2/gm that is derived from filtration media pores that are large enough to receive a combustion acid-dispersant weak base complex contained within oil flowing through the filtration media, the filtration media sequestering acids and/or neutralized acids as the lubricant passes through the filtration media without adding to the sulfated ash content or the phosphorus content of the lubricant. 21. The lubrication system of claim 20, wherein the lubricant comprises lubricant additives that produce a sulfated ash content at or below about 0.5 wt % and/or a phosphorus content at or below about 0.06 wt %. 22. The lubrication system of claim 20, wherein the lubricant comprises lubricant additives that produce a sulfated ash content at or below about 0.3 wt % and/or a phosphorus content at or below about 0.04 wt %. 23. A lubrication system for a diesel fueled internal combustion engine, the lubrication system adapted to produce low levels of lubricant additive combustion by-products, comprising: filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent particles, the internal pores and the interstitial pores collectively defining filtration media pores, and a strong base material associated with at least some of the internal pores, wherein the filtration media pores have a surface area greater than or equal to 25 m2/gm that is derived from filtration media pores that are large enough to receive a combustion acid-dispersant weak base complex contained within oil flowing through the filtration media, the filtration media sequestering acids and/or neutralized acids as lubricant passes through the filtration media without adding to at least one of sulfated ash, phosphorus, and sulfur (SAPS) levels of the lubricant; and a lubricant having SAPS levels at least 10% below maximum SAPS levels allowed for an unused lubricant formulated for use in said internal combustion engine lubrication system without said filtration media. 24. The lubrication system of claim 23, wherein the lubricant contains less than or equal to 1.1 weight percent sulfated ash content. 25. The lubrication system of claim 23, wherein the lubricant contains less than or equal to 3660 parts per million of sulfur. 26. The lubrication system of claim 23, wherein the lubricant contains less than or equal to 1050 parts per million of phosphorus. 27. A lubrication system for a gasoline fueled internal combustion engine, the lubrication system adapted to produce low levels of lubricant additive combustion by-products, comprising: filtration media including particles having internal pores formed within individual particles and interstitial pores formed between adjacent particles, the internal pores and the interstitial pores collectively defining filtration media pores, and a strong base material associated with at least some of the internal pores, wherein the filtration media pores have a surface area greater than or equal to 25 m2/gm that is derived from filtration media pores that are large enough to receive a combustion acid-dispersant weak base complex contained within oil flowing through the filtration media, the filtration media sequestering acids and/or neutralized acids as lubricant passes through the filtration media without adding to at least one of sulfated ash, phosphorus, and sulfur (SAPS) levels of the lubricant; and a lubricant having SAPS levels at least 10% below maximum SAPS levels allowed for an unused lubricant formulated for use in said internal combustion engine lubrication system without said filtration media. 28. The lubrication system of claim 27, wherein the lubricant contains less than or equal to 0.7 weight percent sulfated ash content. 29. The lubrication system of claim 27, wherein the lubricant is a 10W multi-grade lubricant containing less than or equal to 0.6 weight percent sulfur. 30. The lubrication system of claim 27, wherein the lubricant is a 0W-XX or 5W-XX grade lubricant containing less than or equal to 0.45 weight percent sulfur. 31. The lubrication system of claim 27, wherein the lubricant contains less than or equal to 0.7 weight percent phosphorus.
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