Vapour recovery system for recovering hydrocarbon            fuel from hydrocarbon vapours, comprise cooler that is            circulated with a coolant to cause hydrocarbon vapours            to condense into hydrocarbon fuel and where uncondensed            hydrocarbon vapours in cooler enter pre-cooler

	Vapour recovery system for recovering hydrocarbon fuel from hydrocarbon vapours, comprise cooler that is circulated with a coolant to cause hydrocarbon vapours to condense into hydrocarbon fuel and where uncondensed hydrocarbon vapours in cooler enter pre-cooler
	AHUJA S H
	2023-05-16
专利权人	TIANMO ENVIRONMENTAL INDIA PVT LTD (TIAN-Non-standard)
申请日期	2023-05-16
专利号	IN202311034384-A
成果简介	NOVELTY - Vapour recovery system a trap tank (302) connected with a valve (314), an inlet tank (304) and a compressor (310), where the compressor compresses the hydrocarbon vapours by mixing water to maintain atmospheric temperature, a gas liquid separator (312) connected to the compressor for receiving the compressed hydrocarbon vapours, a circulating liquid cooler connected to the gas liquid separator for recycling water, a pre-cooler receiving hydrocarbon vapours from the gas liquid separator for cooling the hydrocarbon vapours, a cooler receiving hydrocarbon vapours from the pre-cooler, where the cooler is circulated with a coolant to cause the hydrocarbon vapours to condense into hydrocarbon fuel and where the uncondensed hydrocarbon vapours in cooler enter pre-cooler from one end of the tube and passed to a membrane unit at other end and refrigeration unit to drain the circulated coolant from the cooler and to cool drained coolant to required temperature. USE - Vapour recovery system for recovering hydrocarbon fuel from hydrocarbon vapours. ADVANTAGE - The vapour recovery system enables the recovery of hydrocarbon fuel from hydrocarbon vapors during the loading and unloading processes at bulk terminals. This prevents the loss of valuable hydrocarbons such as petrol, diesel, and aviation fuel. The system utilizes artificial intelligence learning algorithms to provide real-time monitoring of the hydrocarbon vapor recovery process. This allows for dynamic adjustments and continuous optimization, maximizing the recovery of hydrocarbons from vapors during loading/unloading. DETAILED DESCRIPTION - Vapour recovery system a trap tank connected with a valve, an inlet tank and a compressor, where the compressor compresses the hydrocarbon vapours by mixing water to maintain atmospheric temperature, a gas liquid separator connected to the compressor for receiving the compressed hydrocarbon vapours, a circulating liquid cooler connected to the gas liquid separator for recycling water, a pre-cooler receiving hydrocarbon vapours from the gas liquid separator for cooling the hydrocarbon vapours, a cooler receiving hydrocarbon vapours from the pre-cooler, where the cooler is circulated with a coolant to cause the hydrocarbon vapours to condense into hydrocarbon fuel and where the uncondensed hydrocarbon vapours in cooler enter pre-cooler from one end of the tube and passed to a membrane unit at other end and refrigeration unit to drain the circulated coolant from the cooler and to cool drained coolant to required temperature before passing the coolant to the glycol tank, and a gasoline tank for collecting the hydrocarbon fuel. An INDEPENDENT CLAIM is included for a vapour recovery process for recovering hydrocarbon fuel from hydrocarbon vapours during loading/unloading of hydrocarbon fuel, which involves filtering the hydrocarbon vapours in a trap tank and an inlet tank to remove unwanted impurities, compressing the hydrocarbon vapours at preset pressure in a ms compressor and mixing water during compressing to maintain atmospheric temperature, separating the hydrocarbons vapours and the water in a circulating liquid cooler, passing the compressed hydrocarbon vapours in a pre-cooler and a cooler, feeding the cooler with a coolant at the tube side at one end and draining the coolant into a refrigeration unit at the other end of the tube, where the coolant is maintained at a fixed temperature, passing the uncondensed hydrocarbon vapours from the cooler into the pre-cooler at one end of the tube and passing it to a membrane unit through a valve maintained at a pressure of 4 kg/cm2, filtering the hydrocarbon vapours in the membrane unit into a permeate stream and a retentate stream, and collecting the condensed hydrocarbons vapours in the cooler into a gasoline tank. DESCRIPTION OF DRAWING(S) - The drawing illustrates a detailed diagram of recovery of hydrocarbons from the hydrocarbon vapours at a loading/unloading terminal. 302Trap tank 304Inlet tank 310Compressor 312Gas liquid separator 314Valve
IPC 分类号	B01D-005/00 ; B01D-053/00 ; B01D-053/22 ; B67D-007/04 ; C10G-001/02
国家	印度
专业领域	能源矿产
语种	英语
成果类型	专利
文献类型	科技成果
条目标识符	http://119.78.100.226:8889/handle/3KE4DYBR/21863
专题	中国科学院新疆生态与地理研究所
作者单位	TIANMO ENVIRONMENTAL INDIA PVT LTD (TIAN-Non-standard)
推荐引用方式 GB/T 7714	AHUJA S H. Vapour recovery system for recovering hydrocarbon fuel from hydrocarbon vapours, comprise cooler that is circulated with a coolant to cause hydrocarbon vapours to condense into hydrocarbon fuel and where uncondensed hydrocarbon vapours in cooler enter pre-cooler. IN202311034384-A[P]. 2023.

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