RU2115127C1 - Process detecting change of oil quality transported over pipe- line and system for its implementation - Google Patents

Abstract

FIELD: transportation of oil over pipe-lines. SUBSTANCE: process detecting change of quality of oil transported over pipe-line is based on measurement of quantity Q_in.i and quality index K_in.i with reception of each lot of product from each producer and on determination of average value K_out by each of these quality indices across outlet of pipe-line when oil is passed to consumer. In this case there is determined average value K_out by each quality index K_in when lot of oil is accepted at inlet to pipe-line from each producer by way of consistent measurements of accepted lots over specified time period by formula

, where n is number of lots of oil from one producer over specified time period. Then average value K_out for each of quality indices across outlet from pipe-line is determined by consistent measurements of quality indices K_out.i for same time period foe lots of oil passed to consumer by Q_out.i in each formula

and quality index is converted in terms of money to C which value is found by formula

, where Q_out is amount of oil passed to consumers, Ck is specific cost of unit of quality index of oil, K is number of quality indices taken into account. EFFECT: system makes it possible to take stock and record quality of oil, to take accounts of change of quality of oil passed by various producers in terms of money. 5 cl, 4 dwg

Description

 The invention relates to accounting and quality control of oil transported through the pipeline, allowing to take into account in monetary terms the quality of oil, which, when transported in the pipeline when mixing oil delivered by different manufacturers, and therefore of different quality, leads to a change in the quality characteristics of oil when it is delivered to consumers .

 A known method for determining the quality of parameters of a liquid, for example water in a pipeline, is based on measuring its quantity and indicators of various parameters for each of the input channels, comparing the obtained parameters and generating control signals to maintain the specified liquid parameters.

 A system for implementing the known method comprises blocks for measuring liquid parameters, including parameter sensors at the inlet and in various zones of the pipeline, blocks for comparing the measured parameters and the set ones, and blocks for determining the set parameters [1].

 The closest in technical essence to the claimed method is a method for determining the quality of liquid products during transportation in the pipeline [2], based on measuring the quantity and quality indicators at the reception of each batch of products and determining the average value for each of the quality indicators at the outlet of the pipeline.

 The implementation system of the known method contains blocks for measuring the quality indicator of a manufacturer’s product according to the number of quality indicators installed at the corresponding inlet of the pipeline, blocks for measuring the indicator at the outlet of the pipeline according to the number of quality indicators. The system contains sampling subsystems, the work of which is coordinated by a computer, according to the received analytical data for process control.

 The system works on schedule and upon request to generate data for analysis of information on quality indicators and the quantity of products transported in the pipeline.

 This method and system is selected as a prototype.

 The disadvantage of the prototype is the limited functionality of the method of determining the quality of the product by converting the measurement data of the samples and the inability to use the results for material interest in improving the quality of the controlled products, in particular, when monitoring the quality indicators of oil delivered by different manufacturers.

 The technical result of the proposed proposal is to expand the functionality of the method for determining changes in oil quality during transportation and the system for its implementation by determining in monetary terms the oil quality indicators of each producer by taking into account the oil quality indicators from each producer at the entrance to the system and determining the oil quality indicators at the output from the system upon delivery to the consumer.

 The technical result is achieved by the fact that in the method for determining changes in oil quality during transportation and the system for its implementation, the monetary indicators of oil quality of each producer are determined in monetary terms by taking into account the quality indicators of oil from each producer at the entrance to the system and the indicators of oil quality at the exit of the system are determined upon delivery to the consumer.

где
n - число партий нефти, принятой к транспортировке, от одного производителя за данный период времени, определяют среднее значение K_вых по каждому показателю качества нефти на выходе трубопровода путем последовательных измерений K_выхi показателей качества за аналогичный период времени партий нефти, сдаваемых потребителю, по Q_выхi в каждой по формуле

и преобразуют показатель качества нефти каждого производителя в показатель качества в денежном выражении C, величину которого определяют по формуле

где
Q_вых - количество нефти, сданное потребителям;
C_к - удельная стоимость единицы показателя качества нефти;
K - число учитываемых показателей качества.Technical result is achieved by a method for determining the change in quality of oil during transportation in the pipeline, based on the change quantity Q _vhi and quality indicators K _vhi, e.g., in the form of oil density and sulfur content upon receipt of each batch of product from each producer and determining the mean value _vyhi K for each of the quality indicators at the outlet conduit returning the user to determine the average value of the quality index K _Rin when receiving parties oil inlet pipe for each pro a driver, by means of successive measurements taken by the parties for a predetermined time period according to the formula

Where
n is the number of batches of oil accepted for transportation from one producer for a given period of time, determine the average value of K _oi for each indicator of oil quality at the pipeline outlet by successive measurements of K _oii quality indicators for the same period of time of oil batches delivered to the consumer, by Q _output in each according to the formula

and convert the oil quality indicator of each producer into a quality indicator in money terms C, the value of which is determined by the formula

Where
Q _o - the amount of oil delivered to consumers;
C _to - the unit cost of a unit of indicator of oil quality;
K is the number of recorded quality indicators.

 In addition, the sum of quality indicators for a given period of time is a constant value.

 In addition, when measuring the oil quality indicator, the percentage of water in the batch and / or solids, and / or the percentage of chloride salts, and / or the percentage of heavy metals are determined.

 The system for implementing the method comprises blocks for measuring the oil quality indicator of each producer according to the number of quality indicators installed at the corresponding inlet of the pipeline, blocks for measuring the oil quality indicator at the outlet for the number of quality indicators, groups of subtractors, groups of multipliers and adders according to the number of producers are entered into the system, output the unit for measuring the oil quality indicator of each producer and the output of the unit for measuring the corresponding oil quality indicator at the outlet terms at the input of the corresponding subtracter, respectively, the output of each of which is connected to the first input of the corresponding multiplier of the first and second groups, respectively, the second input of each of which is the input of the unit cost of the unit of the same quality indicator, the outputs are connected to the corresponding inputs of the adder, the output of which and the output of the quantity the unit for measuring the oil quality indicator at the outlet of the pipeline delivered to the oil consumer is connected to the inputs of the multiplier of the corresponding manufacturer .

 The unit for measuring the oil quality indicator of each producer and the unit for measuring the oil quality indicator at the outlet of the pipeline contains each divider, multipliers, adders, an oil quality indicator and an oil quantity sensor, the outputs of which are connected to the counters of the first and second groups of the same batch, respectively, the outputs of which are connected to multipliers of the same name, the outputs of which and the outputs of the counters of the second group are connected to the inputs of the first and second adders, respectively, the outputs of which are connected to the inputs of litel, the output of which is the output of the block.

 The method and system for determining the quality of oil during transportation in the pipeline is based on the fact that oil, passing through the transport system, is supplied to consumers after its multi-stage and multi-variant mixing. The mixing of several grades of oil, differing in composition and physico-chemical properties, leads to a change in its quality parameters. Changing the quality parameters causes a change in its consumer properties, which affects the economic interests of oil producers. Oil producers are financially interested and have the right to rely on the payment of oil in accordance with its original properties. For this purpose, a mechanism is needed that compensates for losses to producers whose oil loses its quality during transportation.

 The proposal will be clear from the drawings, illustrating the claimed objects.

 In Fig.1 shows a diagram of a pipeline having many inputs and, for example, one output, Fig.2 is a preferred embodiment of a functional diagram of the system, Fig.3 is an example of execution of a block for measuring a quality indicator, Fig.4 is an example of a block measuring the indicator of oil quality at the outlet.

The system for implementing the proposed method comprises a network of pipelines 1, inputs 2 _i , through which oil is received from producers, outputs 3 of the pipeline, oil from which is supplied to consumers (Fig. 1).

In FIG. 2 is a functional diagram of the system, where 4 ₁ , 4 ₂ is a block for measuring the oil quality indicator, respectively, according to the density and sulfur content of each producer at the inlet of the pipeline, 5 ₁ , 5 ₂ is a block for measuring the oil quality indicator at the pipeline inlet, respectively, for the density and sulfur content , subtracters June ₁ and 6 ₂ to the number of manufacturers for the respective quality measure density and sulfur content, multipliers July ₁ and 7 _2, respectively for the number of producers quality measure density and sulfur content, the adder 8 9 multiplier.

In FIG. 3 is a functional block diagram of a block 4 ₁ measuring an oil quality indicator by density (block 4 ₂ of an oil indicator measuring by sulfur content is similar); and FIG. 4 is an example of a block 5 ₁ measuring an oil indicator by specific density at the pipeline outlet (block 5 measurement of the oil quality indicator of sulfur content is performed similarly).

Block 4 ₁ contains a sensor 10 of the oil quality indicator (density), counters 11 ₁ - 11 _{n of the} first group, counters 12 ₁ - 12 _{n of the} second group according to the number of oil lots, adder 13, multipliers 14 ₁ - 14 _n , adder 15, divider 16 sensor 17 of the amount of oil.

In Fig. 4, block 5 ₁ contains multipliers 18 ₁ - 18 _n , oil quality indicator (density) sensor 19, oil quantity sensor 20, adders 21 and 22, divider 23, input 24 for setting the measurement period, meter groups 25 ₁ - 25 _n , 26 ₁ - 26 _n by the number of oil shipments.

 The method for determining changes in the quality index of oil during transportation in the pipeline and the system for its implementation are implemented as follows.

When each batch of oil is received from the producer into a single pipeline 1 at the inlet of the pipeline, the quality indicators K _Вi (p) are measured in terms of density and K _Вi (s) in sulfur content, which may be more depending on the quality requirements of the oil transported and delivered to consumers and the amount of Q _inj (where j = 1 ... k) by the number of manufacturers. Thus, for each producer, the parameters of the quantity and quality of the oil received from him are formed. When oil is mixed by all manufacturers at the outlet of pipeline 3, the quality indicators of oil change. At the outlet of the pipeline, through the block 5 ₁ (or 5 ₂ ), the oil quality indicators are measured and the oil quality indicator at the output K _o (p) or K _o (s) is determined.

Measurements for each manufacturer are carried out for a given period of time, for example, within a month. Thus, in the measurement units 4 _i and 5 _i , data on the quantity and quality parameters received from the j producer and delivered to consumers of oil is accumulated over the course of a month.

 However, the method and system, in addition, evaluate the change in the traditional qualitative characteristics of oil in monetary terms, which allows oil producers to compensate for the change in its qualitative parameters when mixed in the pipeline. Thus, the commercial interests of all manufacturers can be respected. compensation distribution is carried out in accordance with the original properties handed over by the oil producer.

 The measured parameters are converted into cash equivalent as follows.

Measured by sensors in the blocks 4 and 5, _{i i} quality indicators of each batch of each producer K _vhi and the amount of oil in the batch Q _vhi determine the mean value of the respective quality score for each producer according to the formula
K _in = ∑ (Q in _; • K _in ) / ∑ Q _in ;
Where
n is the number of oil lots of each producer for a given period of time (for example, a month).

During a given similar period of time by means of block 5 ₁ (5 ₂ ) determine the average value of the indicator of oil quality K _output delivered to the consumer by the formula
K _{o out} = ∑ (Q _{o out} • K _{o out} ) / ∑ Q _{o out} ,
Where
K _oi - the indicator of each batch at the outlet of the pipeline;
Q _oi - the amount of oil in the party at the outlet of the pipeline;
n is the number of batches of oil checked at the outlet (for ease of measurement, the number of batches at the inlet at delivery and at the outlet during the calculation are the same).

Taking into account the obtained quality indicators for each of the parameters, a quality indicator is determined in monetary terms for each manufacturer according to the formula
C = Q Σ C _{to O} (K _O -K _Rin)
Where
C - the amount of monetary compensation (discount or allowance) for each producer in monetary terms;
C _to - the unit cost of a unit of oil quality indicator (accepted by the participants of the Quality Bank, i.e. all producers), for example:
C _to (p) (for density) = 37.7 c.u.,
C _to (s) (for percentage of sulfur) = 3.68 cu for a given period of time.

 For example, if a producer passed oil to the system with "improved" in comparison with the average quality indicators of his group of producers, then he will receive a premium for quality. If the manufacturer has handed over the oil with a "deterioration" in quality, then the producer will be given a discount for the "deterioration" in quality.

 The total amount of mutual compensations (discounts and allowances) for all producers (owners) of oil should be equal to 0 or a value insignificant.

∑ C = 0
Where
j = 1, ... N is the number of manufacturers.

 Thus, the proposed method allows you to take into account the quality of oil during transportation in the pipeline, and the system for its implementation allows you to convert changes in the values of traditional quality indicators into equivalent or monetary quality indicators of the delivered oil.

 The claimed method and system for its implementation formed the basis for the creation of the Federal Russian Bank for Oil Quality.

Sources of information
1. PCT application WO 95/13497 cl. F 17 D 3/01, 1995.

 2. EP, application, 244751, cl. G 01 N 35/08, 1987 (prototype).

Claims (5)

1. The method of determining changes in the quality of oil during transportation in the pipeline, based on measuring the quantity Q _xi and quality indicators K _xi when each batch of product is received from each manufacturer and determining the average value of K _oi for each of these quality indicators at the outlet of the pipeline when delivered to the consumer, characterized in that they determine the average value for each quality indicator K _in when receiving a batch of oil at the inlet of the pipeline for each producer by sequential measurements of the received batches for a given period of time according to the formula

where n is the number of batches of oil from one manufacturer for a given period of time,
determine the average value of K _oi for each of the quality indicators at the outlet of the pipeline by successive measurements of K _oii quality indicators for a similar period of time delivered to the consumer of batches of oil by Q _ohi in each according to the formula

and convert the oil quality indicator for each producer into a quality indicator in monetary terms C, the value of which is determined by the formula

where Q _ox - the amount of oil delivered to consumers;
With _to - the unit cost of a unit of oil quality indicator;
K is the number of recorded quality indicators.  2. The method according to claim 1, characterized in that the sum of the oil quality indicators in monetary terms of all oil producers in the pipeline for a given period of time is a constant value.  3. The method according to claim 1, characterized in that when measuring the quality of the oil determine the percentage of water in the party and / or solids, and / or the percentage of chloride salts, and / or the content of heavy metals.  4. A system for determining changes in the quality of oil during transportation in the pipeline, containing units for measuring the quality indicator of oil of each producer according to the number of quality indicators installed at the corresponding inlet of the pipeline, units for measuring the indicator of oil quality at the outlet of the pipeline according to the number of quality indicators, characterized in that the system introduced the first and second groups of subtractors, the first and second groups of multipliers and adders according to the number of manufacturers, the output of the unit for measuring the oil quality indicator of each manufacturer and the output of the measuring unit of the corresponding indicator of oil quality at the outlet of the pipeline are connected to the input of the corresponding subtractor of the first and second groups, respectively, the output of each of which is connected to the first input of the corresponding multiplier of the first and second groups, respectively, the second input of each of which is a specific value input units of the same quality indicator, the outputs are connected to the corresponding inputs of the adder, the output of which and the output of the amount of delivered The oil user is provided with oil quality measuring unit at the outlet of the pipeline connected to the inputs of the multiplier of the respective manufacturer.  5. The system according to claim 4, characterized in that the unit for measuring the oil quality indicator of each producer and the unit for measuring the oil quality indicator at the outlet of the pipeline each contains a divider, multipliers, adders, an oil quality indicator and an oil quantity sensor, the outputs of which are connected to the meters the first and second groups of the same batch, respectively, the outputs of which are connected to the same multipliers, the outputs of which and the outputs of the counters of the second group are connected to the inputs of the first and second adder, respectively, the outputs of which are connected to the inputs of the divider, the output of which is the output of each block.

Images