US20240132421A1 - Emulsion-type explosives of the water-in-oil type - Google Patents
Emulsion-type explosives of the water-in-oil type Download PDFInfo
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- US20240132421A1 US20240132421A1 US18/280,520 US202218280520A US2024132421A1 US 20240132421 A1 US20240132421 A1 US 20240132421A1 US 202218280520 A US202218280520 A US 202218280520A US 2024132421 A1 US2024132421 A1 US 2024132421A1
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- 239000000203 mixture Substances 0.000 claims abstract description 274
- 239000000839 emulsion Substances 0.000 claims abstract description 185
- ZCCIPPOKBCJFDN-UHFFFAOYSA-N calcium nitrate Chemical compound [Ca+2].[O-][N+]([O-])=O.[O-][N+]([O-])=O ZCCIPPOKBCJFDN-UHFFFAOYSA-N 0.000 claims abstract description 143
- 239000003921 oil Substances 0.000 claims abstract description 123
- 239000000446 fuel Substances 0.000 claims abstract description 111
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- 239000012071 phase Substances 0.000 claims abstract description 105
- 239000012074 organic phase Substances 0.000 claims abstract description 82
- PAWQVTBBRAZDMG-UHFFFAOYSA-N 2-(3-bromo-2-fluorophenyl)acetic acid Chemical compound OC(=O)CC1=CC=CC(Br)=C1F PAWQVTBBRAZDMG-UHFFFAOYSA-N 0.000 claims abstract description 75
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- NHNBFGGVMKEFGY-UHFFFAOYSA-N nitrate group Chemical group [N+](=O)([O-])[O-] NHNBFGGVMKEFGY-UHFFFAOYSA-N 0.000 claims abstract description 21
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- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 description 1
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- QOSMNYMQXIVWKY-UHFFFAOYSA-N Propyl levulinate Chemical compound CCCOC(=O)CCC(C)=O QOSMNYMQXIVWKY-UHFFFAOYSA-N 0.000 description 1
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- ZEMPKEQAKRGZGQ-XOQCFJPHSA-N glycerol triricinoleate Natural products CCCCCC[C@@H](O)CC=CCCCCCCCC(=O)OC[C@@H](COC(=O)CCCCCCCC=CC[C@@H](O)CCCCCC)OC(=O)CCCCCCCC=CC[C@H](O)CCCCCC ZEMPKEQAKRGZGQ-XOQCFJPHSA-N 0.000 description 1
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- 229910052739 hydrogen Inorganic materials 0.000 description 1
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Classifications
-
- C—CHEMISTRY; METALLURGY
- C06—EXPLOSIVES; MATCHES
- C06B—EXPLOSIVES OR THERMIC COMPOSITIONS; MANUFACTURE THEREOF; USE OF SINGLE SUBSTANCES AS EXPLOSIVES
- C06B47/00—Compositions in which the components are separately stored until the moment of burning or explosion, e.g. "Sprengel"-type explosives; Suspensions of solid component in a normally non-explosive liquid phase, including a thickened aqueous phase
- C06B47/14—Compositions in which the components are separately stored until the moment of burning or explosion, e.g. "Sprengel"-type explosives; Suspensions of solid component in a normally non-explosive liquid phase, including a thickened aqueous phase comprising a solid component and an aqueous phase
- C06B47/145—Water in oil emulsion type explosives in which a carbonaceous fuel forms the continuous phase
Definitions
- the present disclosure relates to emulsion-type explosives of the water-in-oil type.
- Emulsion-type explosives have become increasingly more important in the civil explosives industry.
- the organic phase thus forms a thin film around the droplets of the oxidizer phase.
- Typical examples of commonly used fuels include diesel, paraffin wax, paraffin oil, slack wax and the like.
- an emulsifier is added, which acts at the interface between the two phases to stabilize the emulsion. Due to its organic nature, the emulsifier is included in the stoichiometry of the explosion. Due to supersaturation and the immiscibility of the two phases that are mixed, an emulsion explosive is a metastable system. The emulsion is said to “break” when the organic phase and the oxidizer phase separate and/or some oxidizer crystallizes out of the oxidizer phase.
- Ammonium nitrate (AN) emulsions used for mining applications normally use a non-renewable mineral fuel, typically diesel, as the main fuel.
- AN Non-renewable mineral fuel
- diesel typically diesel
- Patent documents often mention the use of vegetable oil as a trivial raw material to be used in explosive emulsions.
- a renewable oil such as vegetable oil
- This observation may be attributed to the different chemistry and properties of the non-renewable oils compared to renewable oils.
- the inventors have observed that monosalt emulsions with ammonium nitrate in the oxidizer phase and a fuel comprising vegetable oil in the organic phase does not form a stable emulsion.
- stable explosive emulsions comprising renewable oils, in particular a vegetable oil, as fuel can be obtained by adding a suitable amount of one or more secondary salts, in particular calcium nitrate.
- stable explosive emulsions with viscosities similar to explosive emulsions based on non-renewable fuel oils were also obtained with a fuel comprising both a bio-fuel, such as a hydrotreated vegetable oil (HVO), and a straight vegetable oil, when using a higher amount of one or more secondary salts in the oxidizer phase.
- a bio-fuel such as a hydrotreated vegetable oil (HVO)
- HVO hydrotreated vegetable oil
- the preparation method of the explosive emulsions of the present disclosure is similar to that of traditional monosalt AN/diesel based explosive emulsions, without the need to pre-emulsify the composition or the need for high shear stress device after pumping the explosive emulsion.
- an explosive emulsion composition of the water-in-oil type comprising
- the explosive emulsion comprises between 85 wt. % and 95 wt. % oxidizer phase and between 5 wt. % and 15 wt. % organic phase, both in view of the total weight of the emulsion composition.
- the fuel consists of between 0 wt. % and 50 wt. %, in particular between 0 wt. % and 30 wt. % of one or more non-renewable oils and 50 wt. % and between 100 wt. %, in particular between 70 wt. % and 100 wt. % of one or more renewable oils in view of the total weight of the fuel composition, particularly wherein said one or more renewable oils comprises a straight vegetable oils.
- the fuel more in particular consists of 100 wt. % of one or more renewable oils in view of the total weight of the fuel composition.
- the oxidizer phase comprises between 40 wt. % and 75 wt. % of ammonium nitrate (AN) and between 25 wt. % and 50 wt. % of calcium nitrate (CN), in particular between 25 wt. % and 40 wt. % CN, and optionally one or more other secondary nitrate salts, all in view of the total weight of the oxidizer phase composition.
- AN ammonium nitrate
- CN calcium nitrate
- the oxidizer phase comprises between 5 wt. % and 25 wt. % of water in view of the total weight of the oxidizer phase composition.
- the one or more emulsifiers are present in an amount of between 0.5 wt. % and 5.0 wt. %, more in particular between 1.0 wt. % and 2.5 wt. %, in view of the total weight of the total emulsion composition.
- the one or more emulsifiers are added to prevent separation of the different phases and thus to obtain a stable emulsion.
- the one or more emulsifiers are from a renewable source.
- a fully green explosive emulsion is obtained.
- the one or more renewable oils in the explosive composition according to the present disclosure typically comprise a straight vegetable oil and may further be chosen from
- the straight vegetable oil may be chosen from chosen from soybean oil, palm oil, rapeseed oil, maize oil, corn oil, sunflower oil, ricin oil, coconut oil, jojoba oil, jatropha oil or a mixture thereof
- the renewable oil, particularly the straight vegetable oil, in an explosive emulsion composition according to the present disclosure has a viscosity of at least 20 cP at 40° C., in particular at least 25 cP at 40° C.
- the explosive emulsion composition comprises
- the explosive emulsion comprises
- the present disclosure relates to water-in-oil type emulsion explosives comprising an (aqueous) oxidizer (discontinuous) phase and an organic (continuous) phase.
- the present disclosure provides stable, green explosive emulsions in which most or even all of the non-renewable oil in the organic phase as used in traditional explosive emulsions is replaced by one or more renewable oils and wherein the oxidizer phase generally comprises ammonium nitrate and at least one secondary nitrate salt.
- the viscosity of the explosive emulsions according to the present disclosure can be adapted to be used in different applications.
- the evaluation of the stability, in particular the shear stress stability, of an explosive emulsion composition is known to the skilled person and includes determining the number and size of crystal formed in the emulsion by means of a polarized light microscope analysis, as further explained below.
- the explosive emulsion composition of the present disclosure generally comprises between 80 wt. % and 95 wt. % of an oxidizer phase and between 5 wt. % and 20 wt. % of an organic phase, both in view of the total weight of the emulsion composition. More in particular, the explosive emulsion composition comprises between 85 wt. % and 95 wt. %, or between 90 wt % and 95 wt. %, of an oxidizer phase and between 5 wt. % and 15 wt. %, or between 5 wt. % and 10 wt. %, of an organic phase in view of the total weight of the emulsion composition.
- the organic phase of the explosive emulsion composition according to the present disclosure generally comprises between 1 wt. % and 8 wt. %, more in particular between 2 wt. % and 6.5 wt. %, between 2.5 wt. % and 6.5 wt. % or between 2 wt. % and 5 wt. %, even more in particular between 3.0 wt. % and 6.0 wt. %, or between 3 wt. % and 4.5 wt. % of a fuel composition, based on the total weight of the emulsion composition.
- the fuel composition as envisaged herein generally comprises between 20 wt. % and 100 wt.
- the one or more renewable oils have a viscosity of at least 20 cP or at least 25 cP at 40° C., as measured with a Brookfield viscometer.
- the fuel composition consists of between 0 wt. % and 40 wt. %, between 0 wt. % and 30 wt. %, between 0 wt. % and between 20 wt. % or between 0 wt. % and 10 wt. % of one or more non-renewable oils and between 60 wt. % and 100 wt. %, between 70 wt. % and 100 wt. %, between 80° wt. % and 100 wt. % or between 90 wt. % and 100 wt. % (respectively, of one or more renewable oils, in view of the total weight of the fuel composition. It is understood that the total weight % of the different oils needs to be equal to 100.
- the non-renewable oil is diesel or white oil.
- the fuel composition of the explosive emulsion composition according to the present disclosure comprise between 20 wt. % and 100 wt. %, such as between 30 wt. % and 100 wt. %, or between 40 wt. % and 100 wt. % of a straight vegetable oil (SVO), in view of the total weight of the fuel composition.
- the one or more renewable oils typically have a viscosity of at least 20 cP or at least 25 cP at 40° C., as e.g. measured with a Brookfield viscometer or by ASTM D445-19.
- a fuel composition comprising a SVO and an oxidizer phase comprising ammonium nitrate and calcium nitrate as discussed below results in an explosive emulsion composition with stability and viscosity properties comparable to a monosalt AN/diesel based explosive emulsion of the prior art, and, hence, suitable for multiple applications.
- the fuel composition consists of 100 wt. % of one or more renewable oils in view of the total weight of the fuel composition, particularly wherein said one or more renewable oils comprises a straight vegetable oil.
- the fuel composition may consist of between 0 wt. % and 100 wt. % or between 10 wt. % and 90 wt. % of one or more biofuels, more in particular one or more hydrotreated renewable oils (HVO), and between 0 wt. % and 100 wt. % or between 10 wt. % and 90 wt. % of one or more straight vegetable oils (SVO).
- HVO hydrotreated renewable oils
- the fuel composition consists of between 20 wt. % and 80 wt. %, between 30 wt. % and 70 wt. % or between 40 wt. % and 60 wt. %, of one or more biofuels, more in particular one or more hydrotreated renewable oils (HVO), and between 20 wt. % and 80 wt. %, between 30 wt. % and 70 wt. % or between 40 wt. % and 60 wt. %, of one or more straight vegetable oils (SVO), wherein the total weight % of the one or more biofuels, in particular HVO, and the one or more SVO equals 100.
- HVO hydrotreated renewable oils
- a fuel composition comprising a SVO and a HVO (or another biofuel), and an oxidizer phase comprising ammonium nitrate and calcium nitrate as discussed below results in a stable explosive emulsion composition and allows for an even better control of the viscosity of the explosive emulsion of the present disclosure.
- the one or more renewable oils can be chosen from a straight vegetable oil (SVO), a straight animal fat, a biofuel comprising bio-diesel, recycled vegetable oil, recycled animal fat or a hydrotreated renewable oil. Also a mixture of two of these can be applied.
- SVO straight vegetable oil
- a straight animal fat a biofuel comprising bio-diesel
- recycled vegetable oil recycled animal fat or a hydrotreated renewable oil.
- a mixture of two of these can be applied.
- a straight vegetable oil is defined as any of a group of oils that are esters of fatty acids and glycerol and are obtained from plants.
- the straight vegetable oil is chosen from soybean oil, palm oil, rapeseed oil, canola oil, maize oil, corn oil, sunflower oil or a mixture thereof.
- SVO's which are economically less attractive, but which are also suitable, are groundnut oil, kernel oil, virgin olive oil, oil of olive residues, karite nuts butter, castor bean oil, hydrogenated castor oil, tung nuts oil, safflower seed oil, sesame seed oil, mustard seed oil, poppy seed oil, vegetable tallow, stillingia oil, kapok oil, cottonseed oil linseed oil, hempseed oil, rice bran oil, linseed oil, algae oil, peanut oil and safflower oil or a mixture thereof.
- the straight animal fat can be cattle fat, buffalo fat, sheep fat, goats fat, pigs fat, poultry fat, camels fat, fat from other camelids, ghee fat or whale fat (blubber), fish oil or a mixture thereof. Animal fats tend to have more free fatty acids than vegetable oils do.
- Bio-fuels are any type of transportation fuel that is derived from biomass including plant or algae material or animal waste. Bio-fuels are renewable.
- Biodiesel is a form of diesel fuel derived from plants or animals and consisting of long-chain fatty acid esters. It is typically made by chemically reacting lipids such as animal fat (tallow), soybean oil or other vegetable oils with an alcohol, producing methyl, ethyl or propyl ester by a chemical process called esterification. Biodiesel has a lower boiling point and viscosity than SVO. Pure biodiesel is marketed as B100 at the gasoline stations.
- Recycled vegetable oil or recycled animal fat originates from cooking such as frying or other industrial processes without intermediate processing.
- Hydrotreated renewable oils also referred to as hydrotreated vegetable oils or HVO
- hydrotreated renewable or vegetable oils are paraffinic bio-based liquid oils originating from many kinds of vegetable oils, such as rapeseed, sunflower, soybean, and palm oil, as well as animal fats or rests from wood processing.
- hydrotreated renewable or vegetable oils are obtained by subjecting fatty acid containing oils, such as vegetable oils or waste fats to a hydro-processing treatment or a hydrotreatment, wherein hydrogen is used to make paraffin and cycloalkanes out of the unsaturated compounds in the oils, which typically further undergo hydrocracking or isomerization.
- the term “hydrotreated vegetable oil” or HVO also refers to recycled vegetable oil, animal fats or waste fats, that have been subject to the hydrotreatment process.
- the oxidizer phase of the explosive emulsion composition of the present invention comprises next to ammonium nitrate (AN) as an oxidizer salt also a suitable amount of one or more of a secondary nitrate salt such as an alkaline earth metal nitrate salt, in particular calcium nitrate (CN), and/or an alkali metal nitrate salt, in particular sodium nitrate (SN).
- AN ammonium nitrate
- CN calcium nitrate
- SN alkali metal nitrate salt
- the oxidizer phase of the explosive emulsion composition according to the present disclosure generally comprises at least 40 wt.
- % of AN particularly between 40 wt % and 80 wt % AN, more particularly between 40 wt % and 75 wt %, even more particularly between 40 wt % and 70 wt % or between 40 wt % and 65 wt %, in view of the total weight of the oxidizer phase composition.
- the oxidizer phase may comprise at least 40 wt. % of AN, particularly between 40 wt % and 80 wt. % of AN, and at least 10 wt. % of CN, and, optionally, one or more other secondary nitrate salts, with wt. % in view of the total weight of the oxidizer phase composition.
- the oxidizer phase comprises between 40 wt. % to 80 wt. % AN and between 15 wt. % and 50 wt. %, particularly between 20 wt. % and 50 wt. %, more particularly between 20 wt. % and 40 wt. % of calcium nitrate, and, optionally, one or more other secondary nitrate salts, such as sodium nitrate, with wt. % in view of the total weight of the oxidizer phase composition.
- the oxidizer phase comprises between 40 wt. % to 75 wt. % AN or between 40 wt. % and 70 wt % of AN and between 25 wt.
- the ratio AN:CN in the oxidizer phase ranges between 5:1 and 0.8:1, particularly ranges between 4:1 and 1:1 or between 3:1 and 1:1.
- the use of calcium nitrate as secondary nitrate salt in the concentrations considered herein in combination with a fuel composition comprising a vegetable oil in the concentrations considered elsewhere herein allows to obtain stable explosive emulsion compositions with a suitable viscosity range for multiple applications, particularly with a viscosity comparable to traditional monosalt AN/diesel based explosive emulsions.
- These explosive emulsion compositions according to the present disclosure have a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
- the explosive emulsion according to the present disclosure comprises
- the explosive emulsion composition according to the present disclosure typically has a viscosity of between 10 000 and 200 000 cP, as measured with a Brookfield viscometer with spindle size 7 and frequency of 20 rpm, particularly as measured at a temperature between 20° C. and 80° C.
- the oxidizer phase may also comprise at least 40 wt. % of AN, particularly between 40 wt % and 75 wt. % of AN, and at least 20 wt. % CN, SN, or a mixture thereof, particularly between 20 wt % and 50 wt. % CN, SN, or a mixture thereof, more particularly between 20 wt % and 40 wt. % CN, SN, or a mixture thereof, even more particularly between 20 wt. % and 35° wt. % or between 25 wt. % and 35 wt. % CN, SN or a mixture thereof, with wt/% in view of the total weight of the oxidizer phase composition.
- an explosive emulsion composition according to the present disclosure comprising SN in the concentrations considered herein in combination with a fuel composition comprising a vegetable oil in the concentrations considered elsewhere herein may be suitable for use in packaged emulsion (cartridge) applications.
- the oxidizer phase of the explosive emulsion composition according to the present disclosure further typically comprises between 5 wt. % and 25 wt. % or between 7 wt. % and 25 wt. % of (de-ionized) water in view of the total weight of the oxidizer composition. More in particular, the amount of water present in the oxidizer phase is between 10 wt. % and 20 wt. %, such as between 12 wt. % and 17 wt. % or about 15 wt. %.
- the organic phase of the explosive emulsion composition according to the present disclosure furthermore comprises an emulsifier which is added to prevent separation of the different phases and thus to obtain a stable emulsion.
- emulsifiers include, but are not limited to PIB (polyisobutylene) derivatives such as PIBSA (polyisobutylene succinic anhydrides), sorbitan ester emulsifiers such as SMO (sorbitan monooleate) and mixtures thereof. It is however remarked that other types of emulsifiers, leading also to highly stable emulsions, could be used.
- the emulsifier may be chosen from the wide range of emulsifiers known in the art to be suitable for the preparation of explosive emulsion compositions.
- the emulsifier can be bio-sourced, i.e. produced from renewable resources. When the fuel is also completely from a renewable origin, providing an emulsifier which is bio-sourced provides a fully green solution of an explosive emulsion.
- emulsifiers meaning a single emulsifier or a mixture of different emulsifiers
- Typical amounts of such emulsifiers in view of the total weight of the emulsion composition are between 0.5 and 5 wt. %, more in particular between 1.0 wt. % and 2.5 wt. %.
- Adding a biofuel such as a hydrotreated renewable oil lowers the viscosity of the composition.
- the viscosity of the composition can be adjusted. This is particular the case when using CN as secondary nitrate salt.
- the explosive emulsion composition typically has a viscosity of between 10 000 and 200 000 cP, as measured with a Brookfield viscometer with spindle size 7 and frequency of 20 rpm, particularly as measured at a temperature between 20° C. and 80° C.
- the explosive emulsion composition according to the present disclosure comprises
- the explosive emulsion composition has a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
- the explosive emulsion composition comprises between 2.5 wt. % and 6.5 wt. %, particularly between 3.0 wt. % and 6.0 wt. % of a fuel composition, in view of the total weight of the emulsion composition.
- the explosive emulsion composition according to the present disclosure comprises
- the explosive emulsion composition according to the present disclosure may comprise
- the explosive emulsion according to the present disclosure may comprise
- the explosive emulsion composition according to the present disclosure may comprise
- the explosive emulsion composition according to the present disclosure may comprise
- the explosive emulsion composition according to the present disclosure may comprise
- the explosive emulsion composition according to the present disclosure may comprise
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Abstract
An explosive emulsion composition of the water-in-oil type, comprising
-
- between 80 wt. % and 95 wt. % of an oxidizer phase composition comprising
- at least 40 wt. % of ammonium nitrate (AN), and
- at least 15 wt. % of calcium nitrate (CN), and optionally one or more other secondary nitrate salts,
- between 5 wt. % and 20 wt. % of an organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of the total weight of the organic phase composition,
characterized in that the fuel composition comprises between 20 wt. % and 100 wt. % of a straight vegetable oil (SVO), and
wherein the explosive emulsion composition is stable and has a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
- between 80 wt. % and 95 wt. % of an oxidizer phase composition comprising
Description
- The present disclosure relates to emulsion-type explosives of the water-in-oil type.
- Emulsion-type explosives have become increasingly more important in the civil explosives industry. The organic phase thus forms a thin film around the droplets of the oxidizer phase. Typical examples of commonly used fuels include diesel, paraffin wax, paraffin oil, slack wax and the like. In the organic phase, an emulsifier is added, which acts at the interface between the two phases to stabilize the emulsion. Due to its organic nature, the emulsifier is included in the stoichiometry of the explosion. Due to supersaturation and the immiscibility of the two phases that are mixed, an emulsion explosive is a metastable system. The emulsion is said to “break” when the organic phase and the oxidizer phase separate and/or some oxidizer crystallizes out of the oxidizer phase.
- Ammonium nitrate (AN) emulsions used for mining applications normally use a non-renewable mineral fuel, typically diesel, as the main fuel. However, there is a demand for a “greener” solution (more environmentally friendly) and a more sustainable solution in view of the raw materials used in the explosive emulsion.
- It is already known to use vegetable oils in explosive emulsions. However, it has been found that using vegetable oil exponentially increases the viscosity and this is a problem for many applications. The primary problem however with this kind of explosive emulsions is that there is a loss of stability of the emulsion. Emulsions are by nature unstable systems. Contrary to a classical emulsion in which the organic phase containing a classical, non-renewable fuel (e.g. diesel) is mixed with an aqueous ammonium nitrate solution i.e. a monosalt oxidizer phase, mixing the same oxidizer phase with the same emulsifier, and instead of diesel, a vegetable oil which by nature has a totally different chemistry and behavior than diesel, no emulsion will be formed, and if it forms, it will lead to an unstable emulsion that will break in a short time.
- Patent documents often mention the use of vegetable oil as a trivial raw material to be used in explosive emulsions. However, after testing performed by the present inventors, it became clear that it is not trivial to replace large amounts of the usually used fuel, e.g. diesel or other petroleum derived fuels, i.e. non-renewable fuel, by a renewable oil, such as vegetable oil, because, after formation of the emulsion, the stability and viscosity thereof are problematic. This observation may be attributed to the different chemistry and properties of the non-renewable oils compared to renewable oils. In particular, the inventors have observed that monosalt emulsions with ammonium nitrate in the oxidizer phase and a fuel comprising vegetable oil in the organic phase does not form a stable emulsion.
- There thus remains a need for a greener explosive emulsion in which the majority or the totality of the non-renewable oil is replaced by a renewable oil, which is a stable emulsion and which has a viscosity which can be adapted to be used in different applications, in particular which has a viscosity comparable to the viscosity of the monosalt emulsions of the prior art, having an ammonium nitrate oxidizer phase and a diesel oil fuel.
- The inventors have surprisingly found that stable explosive emulsions comprising renewable oils, in particular a vegetable oil, as fuel can be obtained by adding a suitable amount of one or more secondary salts, in particular calcium nitrate. In particular embodiments, stable explosive emulsions with viscosities similar to explosive emulsions based on non-renewable fuel oils were also obtained with a fuel comprising both a bio-fuel, such as a hydrotreated vegetable oil (HVO), and a straight vegetable oil, when using a higher amount of one or more secondary salts in the oxidizer phase. Advantageously, the preparation method of the explosive emulsions of the present disclosure is similar to that of traditional monosalt AN/diesel based explosive emulsions, without the need to pre-emulsify the composition or the need for high shear stress device after pumping the explosive emulsion.
- According to a first aspect of the present disclosure, an explosive emulsion composition of the water-in-oil type is disclosed, comprising
-
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, comprising
- at least 40 wt. % ammonium nitrate (AN), such as between 40 wt. % and up to 80 wt. % AN, and
- at least 15 wt. % of calcium nitrate (CN), particularly at least 20 wt. % of CN, and optionally one or more other secondary nitrate salts, in view of the total weight of the oxidizer phase composition,
- between 5 wt. % and 20 wt. % of an organic phase in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of the total weight of the organic phase composition,
- in which the fuel composition comprises between 20 wt. % and 100 wt. % of a renewable oil, particularly a straight vegetable oil (SVO), in view of the total weight of the fuel composition;
- wherein the explosive emulsion composition has a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
By replacing at least 20 wt. %, particularly at least 50 wt. % in view of the total weight of the organic phase composition of the explosive emulsion of the normally used non-renewable oil with one or more renewable oils, in particular a SVO, a “greener” explosive emulsion is obtained. However, as already mentioned above, adding a renewable oil increases the viscosity, and causes a huge loss of stability of the emulsion. Reformulating the composition of the emulsion with at least one secondary nitrate salt, in particular at least 15 wt. % CN, at least 20 wt. % CN, or more particularly at least 25 wt. % CN, in view of the total weight of the oxidizer phase composition added to the already present ammonium nitrate in the oxidizer phase surprisingly allows to produce stable emulsions, with a viscosity comparable to the viscosity of monosalt AN/diesel based explosive emulsion, and thus suitable for use in a wide range of applications.
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, comprising
- In a possible embodiment of an explosive composition according to the present disclosure, the explosive emulsion comprises between 85 wt. % and 95 wt. % oxidizer phase and between 5 wt. % and 15 wt. % organic phase, both in view of the total weight of the emulsion composition.
- In an optional embodiment of an explosive composition according to the present disclosure, the fuel consists of between 0 wt. % and 50 wt. %, in particular between 0 wt. % and 30 wt. % of one or more non-renewable oils and 50 wt. % and between 100 wt. %, in particular between 70 wt. % and 100 wt. % of one or more renewable oils in view of the total weight of the fuel composition, particularly wherein said one or more renewable oils comprises a straight vegetable oils. The fuel more in particular consists of 100 wt. % of one or more renewable oils in view of the total weight of the fuel composition.
- In an embodiment of an explosive composition according to the present disclosure, the oxidizer phase comprises between 40 wt. % and 75 wt. % of ammonium nitrate (AN) and between 25 wt. % and 50 wt. % of calcium nitrate (CN), in particular between 25 wt. % and 40 wt. % CN, and optionally one or more other secondary nitrate salts, all in view of the total weight of the oxidizer phase composition.
- In an embodiment of an explosive composition according to the present disclosure, the oxidizer phase comprises between 5 wt. % and 25 wt. % of water in view of the total weight of the oxidizer phase composition.
- In a possible embodiment of an explosive composition according to the present disclosure, the one or more emulsifiers are present in an amount of between 0.5 wt. % and 5.0 wt. %, more in particular between 1.0 wt. % and 2.5 wt. %, in view of the total weight of the total emulsion composition. The one or more emulsifiers are added to prevent separation of the different phases and thus to obtain a stable emulsion.
- In a more particular embodiment of an explosive composition according to the present disclosure, the one or more emulsifiers are from a renewable source. In combination with 100 wt. % of one or more renewable oils, particularly comprising a SVO, in view of the total weight of the fuel composition, a fully green explosive emulsion is obtained.
- In particular embodiments, the one or more renewable oils in the explosive composition according to the present disclosure typically comprise a straight vegetable oil and may further be chosen from
-
- a straight animal fat, and/or
- a biofuel comprising bio-diesel, a recycled vegetable oil, a recycled animal fat or a hydrotreated renewable oil;
- The straight vegetable oil may be chosen from chosen from soybean oil, palm oil, rapeseed oil, maize oil, corn oil, sunflower oil, ricin oil, coconut oil, jojoba oil, jatropha oil or a mixture thereof
- More in particular, the renewable oil, particularly the straight vegetable oil, in an explosive emulsion composition according to the present disclosure has a viscosity of at least 20 cP at 40° C., in particular at least 25 cP at 40° C.
- In a possible embodiment of an explosive emulsion composition according to the present disclosure, the explosive emulsion composition comprises
-
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, wherein the oxidizer phase comprises
- between 40 wt. % and 65 wt. % AN, particularly between 40° wt. % and 60° wt % AN;
- between 25 wt. % and 50 wt. % CN, in particular between 30 wt. % and 40 wt. % CN, and, optionally, one or more other secondary nitrate salts,
- between 5 wt. % and 25 wt. % water, particularly between 10 wt % and 20 wt % water,
- in view of the total weight of the oxidizer phase composition; and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of the total weight of the organic phase composition,
- in which the fuel composition consists of (a) between 50 wt. % and 100 wt. % of a straight vegetable oil, and (b) between 0 wt. % and 50 wt. % of a non-renewable oil or a renewable oil chosen from a straight animal fat, a biofuel comprising bio-diesel, a recycled vegetable oil, a recycled animal fat or a hydrotreated renewable oil, in view of the total weight of the fuel composition, the total weight of the oils being 100;
- wherein the explosive emulsion composition has a viscosity between 30,000 cP and 115,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, wherein the oxidizer phase comprises
- In a further optional embodiment of an explosive emulsion composition according to the present disclosure, the explosive emulsion comprises
-
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 80 wt. % AN, or between 40 wt. % and 75 wt. % AN, and
- between 15 wt. % and 50 wt. % CN, in particular between 20 wt. % and 50° wt. % or between 25 wt. % and 50 wt. % CN, and, optionally, one or more other secondary nitrate salts,
- between 5 wt. % and 25 wt. % water, particularly between 10 wt. % and 20 wt. % water,
- in view of the total weight of the oxidizer phase composition, and
- between 5 wt. % and 20 wt. % of an organic phase in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers, and
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of the total weight of the organic phase composition
- in which the fuel composition consists of
- between 0 wt. % and 80 wt. % of one or more biofuels, more specifically one or more hydrotreated renewable oils, particularly between 20 wt. % and 80 wt. %, more particularly between 30 wt % and 70 wt % of a biofuel, more in particular a hydrotreated renewable oil and
- between 20 wt. % and 100 wt. % of one or more straight vegetable oils, particularly between 20 wt. % and 80 wt. % of a straight vegetable oil, more particularly between 30 wt % and 70 wt % of a straight vegetable oil;
- in view of the total weight of the fuel composition, the total weight % of the oils being 100.
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, the oxidizer phase comprising
- The present disclosure relates to water-in-oil type emulsion explosives comprising an (aqueous) oxidizer (discontinuous) phase and an organic (continuous) phase. In general, the present disclosure provides stable, green explosive emulsions in which most or even all of the non-renewable oil in the organic phase as used in traditional explosive emulsions is replaced by one or more renewable oils and wherein the oxidizer phase generally comprises ammonium nitrate and at least one secondary nitrate salt. Advantageously, the viscosity of the explosive emulsions according to the present disclosure can be adapted to be used in different applications. The evaluation of the stability, in particular the shear stress stability, of an explosive emulsion composition is known to the skilled person and includes determining the number and size of crystal formed in the emulsion by means of a polarized light microscope analysis, as further explained below.
- The explosive emulsion composition of the present disclosure generally comprises between 80 wt. % and 95 wt. % of an oxidizer phase and between 5 wt. % and 20 wt. % of an organic phase, both in view of the total weight of the emulsion composition. More in particular, the explosive emulsion composition comprises between 85 wt. % and 95 wt. %, or between 90 wt % and 95 wt. %, of an oxidizer phase and between 5 wt. % and 15 wt. %, or between 5 wt. % and 10 wt. %, of an organic phase in view of the total weight of the emulsion composition.
- The organic phase of the explosive emulsion composition according to the present disclosure generally comprises between 1 wt. % and 8 wt. %, more in particular between 2 wt. % and 6.5 wt. %, between 2.5 wt. % and 6.5 wt. % or between 2 wt. % and 5 wt. %, even more in particular between 3.0 wt. % and 6.0 wt. %, or between 3 wt. % and 4.5 wt. % of a fuel composition, based on the total weight of the emulsion composition. The fuel composition as envisaged herein generally comprises between 20 wt. % and 100 wt. % of one or more renewable oils (meaning a single renewable oil or a mixture of different renewable oils) and may consists of between 0 wt. % and 50 wt. % of one or more non-renewable oils (meaning a single non-renewable oil or a mixture of different non-renewable oils), and between 50 wt. % and 100 wt. % of one or more renewable oils (meaning a single renewable oil or a mixture of different renewable oils), in view of the total weight of the fuel composition. More in particular, the one or more renewable oils have a viscosity of at least 20 cP or at least 25 cP at 40° C., as measured with a Brookfield viscometer.
- More in particular, the fuel composition consists of between 0 wt. % and 40 wt. %, between 0 wt. % and 30 wt. %, between 0 wt. % and between 20 wt. % or between 0 wt. % and 10 wt. % of one or more non-renewable oils and between 60 wt. % and 100 wt. %, between 70 wt. % and 100 wt. %, between 80° wt. % and 100 wt. % or between 90 wt. % and 100 wt. % (respectively, of one or more renewable oils, in view of the total weight of the fuel composition. It is understood that the total weight % of the different oils needs to be equal to 100. In particular embodiments, the non-renewable oil is diesel or white oil.
- More in particular, the fuel composition of the explosive emulsion composition according to the present disclosure comprise between 20 wt. % and 100 wt. %, such as between 30 wt. % and 100 wt. %, or between 40 wt. % and 100 wt. % of a straight vegetable oil (SVO), in view of the total weight of the fuel composition. The one or more renewable oils typically have a viscosity of at least 20 cP or at least 25 cP at 40° C., as e.g. measured with a Brookfield viscometer or by ASTM D445-19.
- Advantageously, the combination of a fuel composition comprising a SVO and an oxidizer phase comprising ammonium nitrate and calcium nitrate as discussed below results in an explosive emulsion composition with stability and viscosity properties comparable to a monosalt AN/diesel based explosive emulsion of the prior art, and, hence, suitable for multiple applications.
- In particular embodiments, the fuel composition consists of 100 wt. % of one or more renewable oils in view of the total weight of the fuel composition, particularly wherein said one or more renewable oils comprises a straight vegetable oil. The fuel composition may consist of between 0 wt. % and 100 wt. % or between 10 wt. % and 90 wt. % of one or more biofuels, more in particular one or more hydrotreated renewable oils (HVO), and between 0 wt. % and 100 wt. % or between 10 wt. % and 90 wt. % of one or more straight vegetable oils (SVO).
- In particular, the fuel composition consists of between 20 wt. % and 80 wt. %, between 30 wt. % and 70 wt. % or between 40 wt. % and 60 wt. %, of one or more biofuels, more in particular one or more hydrotreated renewable oils (HVO), and between 20 wt. % and 80 wt. %, between 30 wt. % and 70 wt. % or between 40 wt. % and 60 wt. %, of one or more straight vegetable oils (SVO), wherein the total weight % of the one or more biofuels, in particular HVO, and the one or more SVO equals 100. Advantageously, the combination of a fuel composition comprising a SVO and a HVO (or another biofuel), and an oxidizer phase comprising ammonium nitrate and calcium nitrate as discussed below results in a stable explosive emulsion composition and allows for an even better control of the viscosity of the explosive emulsion of the present disclosure.
- The one or more renewable oils can be chosen from a straight vegetable oil (SVO), a straight animal fat, a biofuel comprising bio-diesel, recycled vegetable oil, recycled animal fat or a hydrotreated renewable oil. Also a mixture of two of these can be applied.
- A straight vegetable oil is defined as any of a group of oils that are esters of fatty acids and glycerol and are obtained from plants. In particular embodiments, the straight vegetable oil is chosen from soybean oil, palm oil, rapeseed oil, canola oil, maize oil, corn oil, sunflower oil or a mixture thereof. Less preferred SVO's which are economically less attractive, but which are also suitable, are groundnut oil, kernel oil, virgin olive oil, oil of olive residues, karite nuts butter, castor bean oil, hydrogenated castor oil, tung nuts oil, safflower seed oil, sesame seed oil, mustard seed oil, poppy seed oil, vegetable tallow, stillingia oil, kapok oil, cottonseed oil linseed oil, hempseed oil, rice bran oil, linseed oil, algae oil, peanut oil and safflower oil or a mixture thereof.
- The straight animal fat can be cattle fat, buffalo fat, sheep fat, goats fat, pigs fat, poultry fat, camels fat, fat from other camelids, ghee fat or whale fat (blubber), fish oil or a mixture thereof. Animal fats tend to have more free fatty acids than vegetable oils do.
- Bio-fuels are any type of transportation fuel that is derived from biomass including plant or algae material or animal waste. Bio-fuels are renewable.
- Biodiesel is a form of diesel fuel derived from plants or animals and consisting of long-chain fatty acid esters. It is typically made by chemically reacting lipids such as animal fat (tallow), soybean oil or other vegetable oils with an alcohol, producing methyl, ethyl or propyl ester by a chemical process called esterification. Biodiesel has a lower boiling point and viscosity than SVO. Pure biodiesel is marketed as B100 at the gasoline stations.
- Recycled vegetable oil or recycled animal fat originates from cooking such as frying or other industrial processes without intermediate processing.
- Hydrotreated renewable oils, also referred to as hydrotreated vegetable oils or HVO, are paraffinic bio-based liquid oils originating from many kinds of vegetable oils, such as rapeseed, sunflower, soybean, and palm oil, as well as animal fats or rests from wood processing. As well understood by the skilled person, hydrotreated renewable or vegetable oils are obtained by subjecting fatty acid containing oils, such as vegetable oils or waste fats to a hydro-processing treatment or a hydrotreatment, wherein hydrogen is used to make paraffin and cycloalkanes out of the unsaturated compounds in the oils, which typically further undergo hydrocracking or isomerization. The term “hydrotreated vegetable oil” or HVO also refers to recycled vegetable oil, animal fats or waste fats, that have been subject to the hydrotreatment process.
- The presence of a renewable oil in the organic phase causes a drop in emulsion stability. The inventors have surprisingly found that the emulsion stability is maintained when the oxidizer phase of the explosive emulsion composition of the present invention comprises next to ammonium nitrate (AN) as an oxidizer salt also a suitable amount of one or more of a secondary nitrate salt such as an alkaline earth metal nitrate salt, in particular calcium nitrate (CN), and/or an alkali metal nitrate salt, in particular sodium nitrate (SN). The oxidizer phase of the explosive emulsion composition according to the present disclosure generally comprises at least 40 wt. % of AN, particularly between 40 wt % and 80 wt % AN, more particularly between 40 wt % and 75 wt %, even more particularly between 40 wt % and 70 wt % or between 40 wt % and 65 wt %, in view of the total weight of the oxidizer phase composition.
- The oxidizer phase may comprise at least 40 wt. % of AN, particularly between 40 wt % and 80 wt. % of AN, and at least 10 wt. % of CN, and, optionally, one or more other secondary nitrate salts, with wt. % in view of the total weight of the oxidizer phase composition.
- In particular embodiments, the oxidizer phase comprises between 40 wt. % to 80 wt. % AN and between 15 wt. % and 50 wt. %, particularly between 20 wt. % and 50 wt. %, more particularly between 20 wt. % and 40 wt. % of calcium nitrate, and, optionally, one or more other secondary nitrate salts, such as sodium nitrate, with wt. % in view of the total weight of the oxidizer phase composition. In more particular embodiments, the oxidizer phase comprises between 40 wt. % to 75 wt. % AN or between 40 wt. % and 70 wt % of AN and between 25 wt. % and 50 wt. %, particularly between 30 wt. % and 50 wt. %, more particularly between 30 wt. % and 40 wt. % of calcium nitrate, and, optionally, one or more other secondary nitrate salts, such as sodium nitrate, with wt. % in view of the total weight of the oxidizer phase composition. Stated differently, the ratio AN:CN in the oxidizer phase ranges between 5:1 and 0.8:1, particularly ranges between 4:1 and 1:1 or between 3:1 and 1:1. Advantageously, the use of calcium nitrate as secondary nitrate salt in the concentrations considered herein in combination with a fuel composition comprising a vegetable oil in the concentrations considered elsewhere herein allows to obtain stable explosive emulsion compositions with a suitable viscosity range for multiple applications, particularly with a viscosity comparable to traditional monosalt AN/diesel based explosive emulsions. These explosive emulsion compositions according to the present disclosure have a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
- Adding a biofuel such as a hydrotreated renewable oil lowers the viscosity of the composition. By adjusting the amount of biofuel added, the viscosity of the composition can be adjusted to the desired value, in particular to be even more similar to the viscosity of the traditional monosalt AN/diesel based explosive emulsions. This is particular the case when using CN as secondary nitrate salt, particularly at the concentrations discussed elsewhere herein. Accordingly, in particular embodiments, the explosive emulsion according to the present disclosure comprises
-
- (i) an oxidizer phase comprising between 40 wt. % and 80 wt. % of AN and between 15 wt. % and 50 wt. % of CN, in particular an oxidizer phase comprising between 40 wt. % and 75 wt. % AN or between 40 wt. % and 70 wt. % of AN and between 20 wt. % and 50 wt. % CN or between 25 wt. % and 50 wt. % of CN, and
- (ii) a fuel composition consisting of between 20 wt. % and 80 wt. %, between 30 wt. % and 70 wt. % or between 40 wt. % and 60 wt. %, of one or more biofuels, particularly one or more hydrotreated renewable oils (HVO), and between 20 wt. % and 80 wt. %, between 30 wt. % and 70 wt. % or between 40 wt. % and 60 wt. %, of one or more straight vegetable oils (SVO), wherein the total weight % of the one or more biofuels, in particular HVO, and the one or more SVO equals 100.
- The explosive emulsion composition according to the present disclosure typically has a viscosity of between 10 000 and 200 000 cP, as measured with a Brookfield viscometer with spindle size 7 and frequency of 20 rpm, particularly as measured at a temperature between 20° C. and 80° C.
- The oxidizer phase may also comprise at least 40 wt. % of AN, particularly between 40 wt % and 75 wt. % of AN, and at least 20 wt. % CN, SN, or a mixture thereof, particularly between 20 wt % and 50 wt. % CN, SN, or a mixture thereof, more particularly between 20 wt % and 40 wt. % CN, SN, or a mixture thereof, even more particularly between 20 wt. % and 35° wt. % or between 25 wt. % and 35 wt. % CN, SN or a mixture thereof, with wt/% in view of the total weight of the oxidizer phase composition. When the explosive emulsion composition comprises SN as a secondary salt, the viscosity of the composition is very high. However, a high viscosity is an issue for many applications as it becomes almost impossible to pump into the bore hole. Accordingly, an explosive emulsion composition according to the present disclosure comprising SN in the concentrations considered herein in combination with a fuel composition comprising a vegetable oil in the concentrations considered elsewhere herein may be suitable for use in packaged emulsion (cartridge) applications.
- The oxidizer phase of the explosive emulsion composition according to the present disclosure further typically comprises between 5 wt. % and 25 wt. % or between 7 wt. % and 25 wt. % of (de-ionized) water in view of the total weight of the oxidizer composition. More in particular, the amount of water present in the oxidizer phase is between 10 wt. % and 20 wt. %, such as between 12 wt. % and 17 wt. % or about 15 wt. %.
- The organic phase of the explosive emulsion composition according to the present disclosure furthermore comprises an emulsifier which is added to prevent separation of the different phases and thus to obtain a stable emulsion. Particular emulsifiers include, but are not limited to PIB (polyisobutylene) derivatives such as PIBSA (polyisobutylene succinic anhydrides), sorbitan ester emulsifiers such as SMO (sorbitan monooleate) and mixtures thereof. It is however remarked that other types of emulsifiers, leading also to highly stable emulsions, could be used. In this context, the emulsifier may be chosen from the wide range of emulsifiers known in the art to be suitable for the preparation of explosive emulsion compositions. The emulsifier can be bio-sourced, i.e. produced from renewable resources. When the fuel is also completely from a renewable origin, providing an emulsifier which is bio-sourced provides a fully green solution of an explosive emulsion.
- Typically, between 12 wt. % and 50 wt. % of one or more emulsifiers (meaning a single emulsifier or a mixture of different emulsifiers) in view of the total weight of the organic phase composition is present. Typical amounts of such emulsifiers in view of the total weight of the emulsion composition are between 0.5 and 5 wt. %, more in particular between 1.0 wt. % and 2.5 wt. %.
- Adding a biofuel such as a hydrotreated renewable oil lowers the viscosity of the composition. By adjusting the amount of biofuel added, the viscosity of the composition can be adjusted. This is particular the case when using CN as secondary nitrate salt.
- The explosive emulsion composition typically has a viscosity of between 10 000 and 200 000 cP, as measured with a Brookfield viscometer with spindle size 7 and frequency of 20 rpm, particularly as measured at a temperature between 20° C. and 80° C.
- In particular embodiments, the explosive emulsion composition according to the present disclosure comprises
-
- between 85 wt. % and 95 wt. % of an oxidizer phase, in particular between 90 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 75 wt. % AN, in particular between 40 wt. % or between 70 wt. % AN,
- between 15 wt % and 50 wt. % CN, or between 20 wt. % and 50 wt. % CN, in particular between 20 wt. % and 40 wt. % CN, and, optionally, one or more other secondary nitrate salts, and
- between 5 wt. % and 20 wt. % water, in particular between 10 wt % and 20 wt % of water,
- in view of the total weight of the oxidizer phase composition, and
- between 5 wt. % and 15 wt. % of an organic phase, in particular between 5 wt. % and 10 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers, and
- between 50 wt. % and 88 wt. % of fuel,
- in view of the total weight of the organic phase composition,
- wherein:
- (a) the fuel composition consists of
- between 0 wt. % and 50 wt. % of one or more non-renewable oils, particularly between 0 wt. and 30 wt. % of one or more non-renewable oils such as diesel or other petroleum-derived fuels, and
- between 50 wt. % and 100 wt. % of one or more renewable oils, particularly between 70 wt. % and 100 wt. % of one or more renewable oils, wherein said one or more renewable oils comprises a straight vegetable oil,
- in view of the total weight of the fuel composition, the total weight % of the oils being 100;
- or
- (b) the fuel composition consists of
- between 0 wt. % and 80 wt. % of a biofuel, such as a hydrotreated renewable oils, in particular between 20 wt. % and 80 wt. % of a biofuel, such as a hydrotreated renewable oil; and
- between 20 wt. % and 100 wt. % of one or more SVOs, in particular between 20 wt. % and 80 wt. % of one or more SVOs,
- in view of the total weight of the fuel composition, the total weight % of the oils being 100;
- or
- (c) the fuel composition consists of 100 wt. % one or more renewable oils, in view of the total weight of the fuel composition, wherein said one or more renewable oils comprises a straight vegetable oil, in particular wherein the fuel composition consists of 100 wt. % of one or more SVOs
- between 85 wt. % and 95 wt. % of an oxidizer phase, in particular between 90 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- wherein the explosive emulsion composition has a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
- In particular, the explosive emulsion composition comprises between 2.5 wt. % and 6.5 wt. %, particularly between 3.0 wt. % and 6.0 wt. % of a fuel composition, in view of the total weight of the emulsion composition.
- In particular embodiments, the explosive emulsion composition according to the present disclosure comprises
-
- between 85 wt. % and 95 wt. % of an oxidizer phase, particularly between 90 wt % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the aqueous oxidizer phase comprising
- between 40 wt. % and 65 wt. % AN, particularly between 40 wt. % and 60 wt. % AN,
- between 25 wt. % and 50 wt. % CN, particularly between 30 wt. % and 40 wt. % CN, and
- between 10 wt. % and 20 wt. % water,
- in view of the total weight of the oxidizer composition; and
- between 5 wt. % and 15 wt. % of an organic phase, particularly between 5 wt. % and 10 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of total weight of the organic phase composition,
- wherein the fuel composition consists of (a) between 50 wt. % and 100 wt. % of a straight vegetable oil, and (b) between 0 wt. % and 50 wt. % of a non-renewable oil or a renewable oil chosen from a straight animal fat, a biofuel comprising bio-diesel, a recycled vegetable oil, a recycled animal fat or a hydrotreated renewable oil, in view of the total weight of the fuel composition,
wherein the explosive emulsion composition has a viscosity between 30,000 cP and 115,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
In particular, the explosive emulsion composition comprises between 2.5 wt. % and 6.5 wt. %, particularly between 3.0 wt. % and 6.0 wt. % of a fuel composition, in view of the total weight of the emulsion composition.
- between 85 wt. % and 95 wt. % of an oxidizer phase, particularly between 90 wt % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the aqueous oxidizer phase comprising
- In certain embodiments, the explosive emulsion composition according to the present disclosure may comprise
-
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 80 wt. % AN, in particular between 40 wt. % or between 75 wt. % AN,
- between 10 wt. % and 50 wt. % CN, in particular between 15 wt. % and 40 wt. % CN, and, optionally, one or more other secondary nitrate salts, and
- between 5 wt. % and 25 wt. % water, in particular between 7 wt. % and 25 wt % water, such as between 10 wt % and 20 wt % of water.
- in view of the total weight of the oxidizer phase composition, and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers, and
- between 50 wt. % and 88 wt. % of fuel,
- in view of the total weight of the organic phase composition,
- in which the fuel consists of
- between 0 wt. % and 50 wt. % of one or more non-renewable oils, particularly between 0 wt. and 30 wt. % of one or more non-renewable oils such as diesel or other petroleum-derived fuels, and
- between 50 wt. % and 100 wt. % of one or more renewable oils, particularly between 70 wt. % and 100 wt. % of one or more renewable oils, particularly wherein the renewable oil is a SVO,
- in view of the total weight of the fuel composition, the total weight % of the oils being 100.
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- In certain embodiments, the explosive emulsion according to the present disclosure may comprise
-
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 80 wt. % AN,
- between 10 wt. % and 50 wt. % CN, in particular between 15 wt. % and 40 wt. % CN, more in particular between 15 wt. % and 30 wt. % CN, and, optionally, one or more other secondary nitrate salts; and,
- between 5 wt. % and 25 wt. % water, particularly between 7 wt. % and 25 wt % water, such as between 10 wt. % and 20 wt. % water, in view of the total weight of the oxidizer composition, and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of total weight of the organic phase composition,
- in which the fuel composition consists of
- between 0 wt. % and 100 wt. % of one or more biofuels, more in particular one or more hydrotreated renewable oils, and
- between 0 wt. % and 100 wt. % of one or more SVO's,
- in view of the total weight of the fuel composition.
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, the oxidizer phase comprising
- In certain embodiments, the explosive emulsion composition according to the present disclosure may comprise
-
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 75 wt. % AN, particularly between 40 wt. % and 70 wt. % AN,
- between 20 wt. % and 50 wt. % CN, SN, or a mixture thereof, in particular between 20 wt. % and 40 wt. % CN, SN, or a mixture thereof, more in particular between 20 wt % and 40 wt % SN or between 20 wt. % and 30 wt. % SN,
- between 5 wt. % and 25 wt. % water, in particular between 7 wt. % and 20 wt. % water,
- in view of the total weight of the oxidizer phase composition, and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers, and
- between 50 wt. % and 88 wt. % of fuel,
- in view of the total weight of the organic phase composition,
- in which the fuel consists of
- between 0 wt. % and 50 wt. % of one or more non-renewable oils, such as diesel or other petroleum-derived fuels, and
- between 50 wt. % and 100 wt. % of one or more renewable oils,
- in view of the total weight of the fuel composition, the total weight % of the oils being 100.
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- In certain embodiments, the explosive emulsion composition according to the present disclosure may comprise
-
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 75 wt. % AN, particularly between 40 wt. % and 70 wt. % AN,
- between 20 wt. % and 50 wt. % CN, SN, or a mixture thereof, in particular between 20 wt. % and 40 wt. % CN, SN, or a mixture thereof, more in particular between 20 wt % and 35 wt % or between 25 wt % and 35 wt. % CN, SN or a mixture thereof,
- between 5 wt. % and 25 wt. % water, in particular between 7 wt. % and 25 wt. % water, such as between 10 wt. % and 20 wt. % water,
- in view of the total weight of the oxidizer phase composition, and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers, and
- between 50 wt. % and 88 wt. % of fuel,
- in view of the total weight of the organic phase composition,
- in which the fuel consists of
- between 0 wt. % and 40 wt. % of one or more non-renewable oils, particularly between 0 wt. and 20 wt. % of one or more non-renewable oils such as diesel or other petroleum-derived fuels, and
- between 60 wt. % and 100 wt. % of one or more renewable oils, particularly between 80 wt. % and 100 wt. % of one or more renewable oils
- in view of the total weight of the fuel composition, the total weight % of the oils being 100.
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the oxidizer phase comprising
- In certain embodiments, the explosive emulsion composition according to the present disclosure may comprise
-
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, the oxidizer phase comprising
- between 40 wt. % and 80 wt. % AN,
- between 10 wt. % and 50 wt. % CN, SN, or a mixture thereof, in particular between 15 wt. % and 40 wt. % CN, SN, or a mixture thereof, such as between 20 wt. % and 40 wt. % CN, SN, or a mixture thereof, and,
- between 5 wt. % and 25 wt. % water, particularly between 7 wt. % and 25 wt % water, such as between 10 wt. % and 20 wt % water,
- in view of the total weight of the oxidizer composition, and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of total weight of the organic phase composition,
- in which the fuel composition consists of
- between 0 wt. % and 100 wt. % of one or more biofuels, more in particular one or more hydrotreated renewable oils, and
- between 0 wt. % and 100 wt. % of one or more SVO's,
- in view of the total weight of the fuel composition.
- between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, the oxidizer phase comprising
- In certain embodiments, the explosive emulsion composition according to the present disclosure may comprise
-
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the aqueous oxidizer phase comprising
- between 40 wt. % and 75 wt. % AN,
- between 20 wt. % and 50 wt. % SN, in particular between 20 wt. % and 40 wt. % SN or between 20 wt % and 30 wt. % SN, and optionally one or more other secondary nitrate salts.
- between 5 wt. % and 25 wt. % water,
- in view of the total weight of the oxidizer composition; and
- between 5 wt. % and 20 wt. % of an organic phase, more in particular between 5 wt. % and 15 wt. % of an organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
- between 12 wt. % and 50 wt. % of one or more emulsifiers,
- between 50 wt. % and 88 wt. % of a fuel composition,
- in view of total weight of the organic phase composition,
- in which the fuel composition consists of
- between 0 wt. % and 100 wt. % of one or more biofuels, more in particular one or more hydrotreated renewable oils, and
- between 0 wt. % and 100 wt. % of one or more SVO's,
- in view of the total weight of the fuel composition.
- between 80 wt. % and 95 wt. % of an oxidizer phase, more in particular between 85 wt. % and 95 wt. % of an oxidizer phase, in view of the total weight of the emulsion composition, the aqueous oxidizer phase comprising
- In Table 1 below, an overview is given of the tested samples of explosive emulsions, produced by the following procedure:
-
- weighing solid AN, CN and/or SN into a beaker and adding (de-ionized) water,
- heating and stirring this mixture forming a heated oxidizer solution of between 50° C. to 90° C., typically between 70° C. and 80° C.,
- pre-mixing by gradual addition of this heated oxidizer solution to a heated mixture of oil and emulsifier while stirring at 800 rpm,
- refining at 2000 rpm for 1.5 min.
It is remarked that the steps, times and rpm used depend obviously on the equipment used, protocol developed, etc, and are not essential parts of this disclosure and can consequently be varied.
- The following materials are used:
-
- crystalline grade ammonium nitrate (NH4NO3 or AN),
- calcium nitrate (Ca(NO3)2 or CN) using granules containing double salt calcium nitrate and with the overall composition: 79 wt. % Ca(NO3)2, 6 wt. % NH4NO3, 15 wt. % H2O,
- guaranteed reagent (GR) grade for analysis sodium nitrate (NaNO3 or SN),
- de-ionized (DI) water,
- food grade soybean oil (Coop, originating from Spain),
- food grade rapeseed oil (Rema1000, originating from Germany).
- BioLife 58 from Total, which is a type of hydrotreated vegetable (renewable) oil.
- The following emulsifiers were used in the tests as shown in Table 1:
-
- Lubrizol 2810 (referred to in Table 1 as “Lubrizol”) from Lubrizol which is a type of emulsifier in which PIBSA is the dominant component,
- Anfomul 2500 (referred to in Table 1 as “Anfomul”) from Croda which is a PIB-lactone base polymeric emulsifier,
- C615 from Experse which is a type of emulsifier in which PIBSA is the dominant component, and
- SPAN ° 80 (referred to in Table 1 as “SPAN”) from Croda which is a type of SMO emulsifier.
- The following samples as produced by the procedure as described above were tested:
-
- The reference which is a common emulsion with solely ammonium nitrate in the oxidizer phase, diesel as the fuel and a PIBSA emulsifier in the organic phase.
- Samples 1 to 6 which are monosalt-emulsions with ammonium nitrate in the oxidizer phase, soybean/rapeseed oil as fuel and different types of PIBSA emulsifier in the organic phase.
- Sample 7 wherein part of the vegetable oil of sample 2 is replaced by diesel as fuel in the organic phase.
- Sample 8 wherein there is an overfueling of the organic phase in view of sample 2.
- Samples 9 and 10 in which an amount of less than 5 wt. % of a secondary salt, i.e. SN or CN, in view of the total emulsion composition, is added to AN, with soybean oil as fuel and a PIBSA emulsifier in the organic phase.
- Samples 11 and 12 in which a higher amount of CN as a secondary salt, i.e. 14.1 wt. % and 27.9 wt. % versus the total weight of the emulsion composition, is added to AN in the oxidizer phase, in combination with soybean oil as the fuel and a PIBSA emulsifier in the organic phase.
- Sample 13 in which a higher amount of CN as a secondary salt, i.e. 27.9 wt. % versus the total weight of the emulsion composition, is added to AN in the oxidizer phase, in combination with soybean oil as the fuel and an SMO emulsifier in the organic phase.
- Sample 14 in which a higher amount of CN as a secondary salt, i.e. 36.8 wt. % versus the total weight of the emulsion composition, is added to AN in the oxidizer phase, in combination with soybean oil as the fuel and a PIBSA emulsifier in the organic phase.
- Sample 15 in which a higher amount of SN as a secondary salt, i.e. 14.5 wt. % versus the total weight of the emulsion composition, is added to AN in the oxidizer phase, in combination with soybean oil as a fuel and a PIBSA emulsifier in the organic phase.
- Sample 16 in which a higher amount of SN as a secondary salt, i.e. 14.6 wt. % versus the total weight of the emulsion composition, is added to AN in the oxidizer phase, in combination with soybean oil as a fuel and an SMO emulsifier in the organic phase.
- Sample 17 in which a higher amount of SN as a secondary salt, i.e. 27.9 wt. % versus the total weight of the emulsion composition, is added to AN in the oxidizer phase, in combination with soybean oil as a fuel and a PIBSA emulsifier in the organic phase.
- Samples 18 and 19 in which in view of sample 5, part of the rapeseed oil is replaced by a hydrotreated vegetable oil (BioLife) in the organic phase, in particular in sample 18 in an equal amount and in sample 19 the amount of straight vegetable oil is double the amount of the hydrotreated vegetable oil. A higher amount of a secondary salt, more in particular 27.9 wt. % of CN in view of the total weight of the emulsion composition, is added to AN in the oxidizer phase.
It is remarked that samples 1 to 10 are samples not according to the present disclosure, while samples 11 to 19 are samples according to the present disclosure.
-
TABLE 1 Overview of the tested samples with their composition expressed in weight % in view of the total emulsion composition Fuel oil Emulsifier Sample AN CN SN DI water Type Amount Type Amount Reference 80.8 0.0 0.0 14.3 Diesel 3.7 Lubrizol 1.2 Sample 1 80.8 0.0 0.0 14.3 Soybean 3.7 Anfomul 1.2 Sample 2 80.9 0.0 0.0 14.2 Soybean 3.7 Lubrizol 1.2 Sample 3 80.9 0.0 0.0 14.2 Soybean 3.7 C615 1.2 Sample 4 80.7 0.0 0.0 14.3 Rapeseed 3.8 Anfomul 1.2 Sample 5 80.9 0.0 0.0 14.3 Rapeseed 3.6 Lubrizol 1.2 Sample 6 80.8 0.0 0.0 14.3 Rapeseed 3.7 C615 1.2 Sample 7 77.1 0.0 0.0 18.1 Soybean + diesel 3.6 Lubrizol 1.2 50/50 Sample 8 75.3 0.0 0.0 17.7 Soybean 5.2 Lubrizol 1.7 Sample 9 75.9 0.0 4.8 14.2 Soybean 3.9 Lubrizol 1.3 Sample 10 75.8 4.8 0.0 14.3 Soybean 3.9 Lubrizol 1.3 Sample 11 65.6 14.1 0.0 14.2 Soybean 4.6 Lubrizol 1.5 Sample 12 51.1 27.9 0.0 13.9 Soybean 5.4 Lubrizol 1.8 Sample 13 51.1 27.9 0.0 13.9 Soybean 5.3 SPAN 1.8 Sample 14 42.5 36.8 0.0 12.8 Soybean 5.9 Lubrizol 2.0 Sample 15 64.5 0.0 14.5 13.9 Soybean 4.5 Lubrizol 1.5 Sample 16 65.3 0.0 14.6 14.0 Soybean 4.5 SPAN 1.5 Sample 17 51.1 0.0 27.9 13.9 Soybean 5.3 Lubrizol 1.8 Sample 18 51.1 27.9 0.0 13.9 Rapeseed/BioLife 5.9 Lubrizol 1.2 50/50 Sample 19 51.1 27.9 0.0 13.9 Rapeseed/BioLife 5.9 Lubrizol 1.2 67/33 -
TABLE 2 Overview of the tested samples with their composition expressed in weight % Oxidizer Organic Organic phase phase (wt. % phase (wt. % Oxidizer phase composition composition (wt. % in view of in view of (wt. % in view of oxidizer in view of the organic total emulsion total emulsion phase composition) phase composition) Sample composition) composition) AN CN SN DI water Fuel oil Emulsifier Reference 95.1 4.9 85.0 0.0 0.0 15.0 75.3 24.7 Sample 1 95.1 4.9 85.0 0.0 0.0 15.0 75.3 24.7 Sample 2 95.1 4.9 85.0 0.0 0.0 15.0 75.1 24.9 Sample 3 95.1 4.9 85.0 0.0 0.0 15.0 75.2 24.8 Sample 4 95.0 5.0 85.0 0.0 0.0 15.0 75.8 24.2 Sample 5 95.2 4.8 85.0 0.0 0.0 15.0 74.9 25.1 Sample 6 95.1 4.9 85.0 0.0 0.0 15.0 75.4 24.6 Sample 7 95.2 4.8 81.0 0.0 0.0 19.0 75.0 25.0 Sample 8 93.1 6.9 81.0 0.0 0.0 19.0 75.0 25.0 Sample 9 94.8 5.2 80.0 0.0 5.0 15.0 75.0 25.0 Sample 10 94.8 5.2 79.9 5.0 0.0 15.0 75.0 25.0 Sample 11 93.9 6.1 69.9 15.0 0.0 15.1 75.5 24.5 Sample 12 92.1 7.9 46.1 40.0 0.0 13.8 75.0 25.0 Sample 13 92.9 7.1 55.0 30.0 0.0 14.9 75.0 25.0 Sample 14 92.9 7.1 55.0 30.0 0.0 15.0 75.1 24.9 Sample 15 92.9 6.0 69.5 0.0 15.6 14.9 75.0 25.0 Sample 16 94.0 6.0 69.5 0.0 15.6 14.9 75.0 25.0 Sample 17 92.9 7.1 55.0 0.0 30.0 14.9 75.0 25.0 Sample 18 92.9 7.1 55.0 30.0 0.0 15.0 83.1 16.9 Sample 19 92.9 7.1 55.0 30.0 0.0 15.0 83.1 16.9 - The shear stress stability of the different tested samples as mentioned in Table 1 as mentioned in Table 3 below was measured by the following method:
-
- cooling the explosive emulsion to room temperature (20° C.),
- mixing the cooled explosive emulsion in a kitchen mixer and stressing it for 30 minutes,
- revealing the number and the size of the formed crystals by means of a polarized light microscope analysis,
- multiplying the crystal size and the crystal number resulting in a stability score between 0 and 20, where 0 corresponds to a separated emulsion and 20 to a perfect emulsion with nearly no crystals. In industry, emulsions having a stability score between 18 and 20 are considered stable.
- The viscosity as mentioned in Table 3 below of the different tested samples as
- mentioned in Table 1 was measured using the following measurement method: a spindle of a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm is rotated for 30 s (this time being an optional choice in the viscometer settings). The viscosity of the following emulsions is measured as:
-
- freshly made emulsion (temperature may typically vary from between 50° C. and 85° C. depending on the salt concentration—higher salt content requires higher temperature for dissolution)
- at a temperature of 70° C.;
- cooled emulsion (1 hour at 5° C.), which gives emulsion temperatures of ˜30° C.
The viscosity is measured in mPa*s=cP and a typical value for a commercial emulsion is between 35 000 and 50 000 cP. Based on our experience and equipment, the measured viscosity is well reproducible and has an and has an accuracy of ±2000 cP.
-
TABLE 3 The viscosity of the samples which are freshly made, at a temperature of 70° C. and at a temperature of 30° C., and the stability of the tested samples as listed in Table 1 Viscosity (mPa*s) Stability Sample Fresh 70° C. 30° C. (LSST) Reference 41800 51600 65600 20 Sample 1 130000 113000 123000 Crystallized Sample 2 144000 136000 175000 Crystallized Sample3 131000 157000 186000 Crystallized Sample 4 118000 111000 131000 Crystallized Sample 5 133000 152000 174000 Crystallized Sample 6 107000 119000 146000 Crystallized Sample 7 102000 110000 117000 Crystallized Sample 8 125000 116000 152000 Crystallized Sample 9 144000 >200000 >>200000 Crystallized Sample 10 Did not emulsify Sample 11 83000 93400 115000 19.3 Sample 12 68400 70000 109000 20.0 Sample 13 72400 50600 94800 19.9 Sample 14 83400 74000 104000 20.0 Sample 15 200000 185000 >>200000 19.4 Sample 16 60400 140000 175000 19.8 Sample 17 133000 163000 185000 19.4 Sample 18 35600 30600 38400 20.0 Sample 19 48400 46200 54200 20.0 - Out of results as shown in Table 3, it can be concluded that:
-
- Monosalt emulsions with ammonium nitrate in the oxidizer phase and vegetable oil as a fuel in the organic phase form an emulsion which is however not stable and crystallizes during transport, regardless of the type of vegetable oil and emulsifier used.
- When part of the vegetable oil is replaced by diesel to try to improve the stability of the monosalt emulsion, the desired effect is not accomplished.
- Overfueling of the organic phase to try to increase stability, which is a common industrial practice, also does not have the desired effect.
- Addition of some amount of a secondary salt (less than 5 wt. % versus the total weight of the emulsion composition) in order to increase stability does not have the desired effect.
- Addition of a higher amount of a secondary salt (for instance at least 14 wt. % in view of the total weight of the emulsion composition or 15 wt. % in view of the weight of the oxidizer phase composition) surprisingly stabilizes the emulsion. It is however remarked that, when adding SN as a secondary salt, the viscosity becomes very high. In e.g. packaged emulsion (cartridge) applications, a high viscosity is however acceptable.
- By replacing part of the vegetable oil in the organic phase by a hydrotreated vegetable oil (HVO) and adding a higher amount of a secondary salt, particularly CN, the viscosity is reduced and is close to the reference sample.
- The type of emulsifier (SMO or PIBSA) has no significant impact on the viscosity and the shear stress stability of the explosive emulsion.
Claims (20)
1. An explosive emulsion composition of the water-in-oil type, comprising
between 80 wt. % and 95 wt. % of an oxidizer phase in view of the total weight of the emulsion composition, comprising:
at least 40 wt. % of ammonium nitrate (AN),
at least 15 wt. % of calcium nitrate (CN), and optionally one or more other secondary nitrate salts,
in view of the total weight of the oxidizer phase composition, and
between 5 wt. % and 20 wt. % of an organic phase in view of the total weight of the emulsion composition, the organic phase comprising:
between 12 wt. % and 50 wt. % of one or more emulsifiers, and
between 50 wt. % and 88 wt. % of a fuel composition,
in view of the total weight of the organic phase composition,
characterized in that the fuel composition comprises between 20 wt. % and 100 wt. % of a straight vegetable oil (SVO), in view of the total weight of the fuel composition; and
wherein the explosive emulsion composition is stable and has a viscosity between 25,000 cP and 125,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
2. The explosive emulsion composition according to claim 1 , wherein the oxidizer phase comprises
at least 40 wt. % of the ammonium nitrate (AN); and
at least 25 wt. % of the calcium nitrate (CN) and optionally one or more of the other secondary nitrate salts, in view of the total weight of the oxidizer phase composition.
3. The explosive emulsion composition according to claim 1 , wherein the fuel composition consists of between 0 wt. % and 50 wt. % of a non-renewable oil and between 50 wt. % and 100 wt. % of one or more renewable oils, in view of the total weight of the fuel composition, wherein said one or more renewable oils comprises a straight vegetable oil.
4. The explosive emulsion composition according to claim 3 , wherein the fuel composition consists of between 0 wt. % and 50 wt. % of the non-renewable oil, and between 50 wt. % and 100 wt. % of the straight vegetable oil, in view of the total weight of the fuel composition.
5. The explosive emulsion composition according to claim 1 wherein the fuel composition consists of 100 wt. % of one or more renewable oils, in view of the total weight of the fuel composition, wherein said one or more renewable oils comprises a straight vegetable oil.
6. The explosive emulsion composition according to claim 3 , wherein the one or more renewable oils is comprise the straight vegetable oil and, optionally, one or more oils chosen from a straight animal fat, a biofuel comprising bio-diesel, a recycled vegetable oil, a recycled animal fat and a hydrotreated renewable oil.
7. The explosive emulsion composition according to claim 5 , wherein the fuel composition consists of 100% of the straight vegetable oil, in view of the total weight of the fuel composition.
8. The explosive emulsion composition according to claim 5 , wherein the fuel composition consists of
between 20 wt. % and 100 wt. % of the straight vegetable oil, and
between 0 wt. % and 80 wt. % of a biofuel,
in view of the total weight of the fuel composition.
9. The explosive emulsion composition according to claim 8 , wherein the fuel composition consists of
between 20 wt. % and 80 wt. % of the straight vegetable oil, and
between 20 wt. % and 80 wt. % of the biofuel,
in view of the total weight of the fuel composition,
10. The explosive emulsion composition according to claim 1 , wherein the straight vegetable oil is chosen from soybean oil, palm oil, rapeseed oil, canola oil, maize oil, corn oil, sunflower oil, ricin oil, coconut oil, jojoba oil, jatropha oil or a mixture thereof.
11. The explosive emulsion composition according to claim 1 , wherein the explosive emulsion composition comprises between 85 wt. % and 95 wt. % of the oxidizer phase and between 5 wt. % and 15 wt. % of the organic phase, both in view of the total weight of the emulsion composition.
12. The explosive emulsion composition according to claim 11 , wherein the explosive emulsion composition comprises between 90 wt. % and 95 wt. % of the oxidizer phase and between 5 wt. % and 10 wt. % of the organic phase, both in view of the total weight of the emulsion composition.
13. The explosive emulsion composition according to claim 11 , wherein the explosive emulsion comprises between 2.5 wt. % and 6.5 wt. % of the fuel composition, in view of the total weight of the emulsion composition.
14. The explosive emulsion composition according to claim 1 , wherein the oxidizer phase comprises between 5 wt. % and 20 wt. % of water, in view of the total weight of the oxidizer phase composition.
15. The explosive emulsion composition according to claim 1 , wherein the one or more emulsifiers are present in an amount of between 0.5 wt. % and 5.0 wt. %, in view of the total weight of the emulsion composition.
16. The explosive emulsion composition according to claim 1 , wherein the one or more emulsifiers are from a renewable source.
17. The explosive emulsion composition according to claim 1 , wherein the explosive emulsion comprises:
between 85 wt. % and 95 wt. % of the oxidizer phase, in view of the total weight of the emulsion composition, the aqueous oxidizer phase comprising
between 40 wt. % and 65 wt. % AN,
between 25 wt. % and 50 wt. % CN, optionally, one or more of the other secondary nitrate salts, and
between 10 wt. % and 20 wt. % water,
in view of the total weight of the oxidizer composition; and
between 5 wt. % and 15 wt. % of the organic phase, in view of the total weight of the emulsion composition, the organic phase comprising
between 12 wt. % and 50 wt. % of the one or more emulsifiers, and
between 50 wt. % and 88 wt. % of the fuel composition,
in view of total weight of the organic phase composition,
wherein the fuel composition consists of (a) between 50 wt. % and 100 wt. % of the straight vegetable oil, and (b) between 0 wt. % and 50 wt. % of a non-renewable oil or a renewable oil chosen from a straight animal fat, a biofuel comprising bio-diesel, a recycled vegetable oil, a recycled animal fat or a hydrotreated renewable oil, in view of the total weight of the fuel composition,
wherein the explosive emulsion composition has a viscosity between 30,000 cP and 115,000 cP, as measured with a Brookfield viscometer with spindle size 7 at a frequency of 20 rpm at 30° C.
18. The explosive emulsion composition of claim 2 wherein the oxidizer phase comprises 40 to 75 wt % of AN and 25 to 50 wt % of CN.
19. The explosive emulsion composition of claim 3 wherein the fuel composition consists of 0 to 30 wt % of the non-renewable oil and 70 to 100 wt % of the one or more renewable oils.
20. The explosive composition of claim 4 wherein the renewable oil is diesel or white oil.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP21161191.8A EP4056545A1 (en) | 2021-03-08 | 2021-03-08 | Emulsion-type explosives of the water-in-oil type |
EP21161191.8 | 2021-03-08 | ||
PCT/EP2022/055797 WO2022189381A1 (en) | 2021-03-08 | 2022-03-08 | Emulsion-type explosives of the water-in-oil type |
Publications (2)
Publication Number | Publication Date |
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US20240132421A1 true US20240132421A1 (en) | 2024-04-25 |
US20240228402A9 US20240228402A9 (en) | 2024-07-11 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US18/280,520 Pending US20240228402A9 (en) | 2021-03-08 | 2022-03-08 | Emulsion-type explosives of the water-in-oil type |
Country Status (6)
Country | Link |
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US (1) | US20240228402A9 (en) |
EP (2) | EP4056545A1 (en) |
AU (1) | AU2022233004A1 (en) |
BR (1) | BR112023017507A2 (en) |
CA (1) | CA3207422A1 (en) |
WO (1) | WO2022189381A1 (en) |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AR241896A1 (en) * | 1982-05-12 | 1993-01-29 | Union Explosivos Rio Tinto | A compound and procedure for obtaining explosives in emulsion. |
US4931110A (en) * | 1989-03-03 | 1990-06-05 | Ireco Incorporated | Emulsion explosives containing a polymeric emulsifier |
CA2049628C (en) * | 1991-08-21 | 2002-02-26 | Clare T. Aitken | Vegetable oil emulsion explosive |
AUPR054800A0 (en) * | 2000-10-04 | 2000-10-26 | Orica Explosives Technology Pty Ltd | Emulsion explosive |
DE10208317A1 (en) * | 2001-02-27 | 2002-09-05 | Dynaenergetics Gmbh & Co Kg | Biodegradable emulsion explosive contains aqueous phase of organic oxidant and external phase of organic fuel, particularly plant oil |
-
2021
- 2021-03-08 EP EP21161191.8A patent/EP4056545A1/en not_active Withdrawn
-
2022
- 2022-03-08 WO PCT/EP2022/055797 patent/WO2022189381A1/en active Application Filing
- 2022-03-08 BR BR112023017507A patent/BR112023017507A2/en unknown
- 2022-03-08 EP EP22711522.7A patent/EP4305007A1/en active Pending
- 2022-03-08 CA CA3207422A patent/CA3207422A1/en active Pending
- 2022-03-08 US US18/280,520 patent/US20240228402A9/en active Pending
- 2022-03-08 AU AU2022233004A patent/AU2022233004A1/en active Pending
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Publication number | Publication date |
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AU2022233004A1 (en) | 2023-09-07 |
EP4056545A1 (en) | 2022-09-14 |
WO2022189381A1 (en) | 2022-09-15 |
BR112023017507A2 (en) | 2023-10-10 |
CA3207422A1 (en) | 2022-09-15 |
US20240228402A9 (en) | 2024-07-11 |
EP4305007A1 (en) | 2024-01-17 |
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