Additives for fuels and oils comprising functionalised diblock copolymers

What is claimed is: 1. An additive concentrate comprising a functionalised diblock copolymer in admixture with an organic liquid miscible with fuel or oil, the copolymer comprising two polymeric blocks wherein: (i) the first block consists of a chain of ethylenic structural units, optionally interrupted by one or more structural units derived from 1-alkene co-monomers higher than ethylene, and (ii) the second block comprises a chain of structural units derived from one or more α,β-unsaturated monomers selected from styrene, substituted styrene, acrylate, methacrylate, diene compounds, vinyl esters, fumarate esters and maleic anhydride and derivatives thereof, and wherein said first and second blocks are terminally joined such that the copolymer has the following structure: wherein each R group independently represents an alkyl or aryl group, and wherein the aromatic ring substituent joined to the second block is positioned meta or para to the aromatic ring substituent joined to the first block. 2. The additive concentrate of claim 1 wherein each R group independently represents an alkyl group having from 1 to 4 carbon atoms. 3. The additive concentrate of claim 2 wherein each R group is methyl. 4. The additive concentrate of claim 1 wherein, in the copolymer, the aromatic ring substituent joined to the second block is positioned meta to the aromatic ring substituent joined to the first block. 5. The additive concentrate of claim 1 wherein, in the copolymer, the first block consists of a polyethylene chain. 6. The additive concentrate of claim 1 wherein, in the copolymer, the first block of the copolymer consists of a polyethylene chain interrupted by structural units derived from 1-hexene or 1-octene. 7. The additive concentrate of claim 1 wherein, in the copolymer, the second block consists of a chain of structural units derived from one or more α,β-unsaturated monomers selected from styrene, substituted styrene, acrylate, methacrylate, diene compounds, vinyl esters, fumarate esters and maleic anhydride and derivatives thereof. 8. The additive concentrate of claim 7 wherein the second block of the copolymer consists of a homo- or copolymeric chain derived from one or more acrylate or methacrylate monomers. 9. The additive concentrate of claim 7 wherein, in the copolymer, the second block consists of homo- or copolymeric chain derived from one or more vinyl esters. 10. The additive concentrate of claim 1 wherein the first block of the copolymer has a number average molecular weight (Mn), as measured by GPC against polystyrene standards, in the range of 500 to 10,000. 11. The additive concentrate of claim 1 wherein the second block of the copolymer has a number average molecular weight (Mn), as measured by GPC against polystyrene standards, in the range of 1,000 to 100,000. 12. A fuel or oil composition comprising: (i) a fuel or oil derived from one or more petroleum, animal, vegetable or synthetic sources, the fuel or oil containing one or more n-alkyl-, iso-alkyl- or n-alkenyl-substituted compounds exhibiting a tendency to crystallise from the fuel or oil in cold storage or use thereby adversely affecting the cold flow behaviour of the fuel or oil, and (ii) the additive concentrate of claim 1 , wherein the additive concentrate is present in the composition in an amount sufficient to improve the cold flow behaviour of the fuel or oil during cold storage or use. 13. The composition of claim 12 , wherein the fuel or oil is a diesel fuel or heating oil, or a lubricating oil. 14. A method of improving the cold flow behaviour of a fuel or oil composition derived from one or more petroleum, animal, vegetable or synthetic sources and containing one or more n-alkyl-, iso-alkyl- or n-alkenyl-substituted compounds exhibiting a tendency to crystallise from the fuel or oil in cold storage or use thereby adversely affecting the cold flow behaviour of the fuel or oil, the method comprising: (i) determining the cold flow behaviour of the fuel or oil in question and the improvement that is required; (ii) determining the amount of the additive concentrate of claim 1 necessary to effect the desired improvement in cold flow behaviour; and (iii) treating the fuel or oil with that determined amount of said additive concentrate. 15. A functionalised diblock copolymer comprising two polymeric blocks wherein: (i) the first block consists of a chain of ethylenic structural units, optionally interrupted by one or more structural units derived from 1-alkene co-monomers higher than ethylene, and (ii) the second block comprises a chain of structural units derived from one or more α,β-unsaturated monomers selected from styrene, substituted styrene, acrylate, methacrylate, diene compounds, vinyl esters, fumarate esters and maleic anhydride and derivatives thereof, and wherein said first and second blocks are terminally joined such that the copolymer has the following structure: wherein each R group independently represents an alkyl or aryl group, and wherein the aromatic ring substituent joined to the second block is positioned meta or para to the aromatic ring substituent joined to the first block. 16. A process for manufacture of a functionalised diblock copolymer comprising two polymeric blocks wherein: (i) the first block consists of a chain of ethylenic structural units, optionally interrupted by one or more structural units derived from 1-alkene co-monomers higher than ethylene, and (ii) the second block comprises a chain of structural units derived from one or more α,β-unsaturated monomers selected from styrene, substituted styrene, acrylate, methacrylate, diene compounds, vinyl esters, fumarate esters and maleic anhydride and derivatives thereof, and wherein said first and second blocks of the copolymer are terminally joined such that the copolymer has the following structure: wherein each R group independently represents an alkyl or aryl group, and wherein the aromatic ring substituent joined to the second block is positioned meta or para to the aromatic ring substituent joined to the first block; the process comprising the following steps: a) in a first step, polymerising ethylene, and optionally one or more 1-alkene co-monomers higher than ethylene, in the presence of a metallocene catalyst system to form a first polymer block, being a chain consisting of ethylenic structural units optionally bearing pendent alkyl groups originating from 1-alkene comonomer(s), the reaction being carried out in the presence of a compound of the formula (I): in a reaction vessel pressurised with hydrogen gas, wherein, in the course of the reaction, the compound (I) is terminally incorporated onto the first polymer block resulting in the formation of a terminally unsaturated intermediate of the formula (II): b) in a second step, recovering the intermediate (II) from the reaction mixture of the first step; and c) in a third step, reacting the intermediate (II) at its terminal double bond in a subsequent free-radical polymerisation reaction to