CN102940311A - Method for adjusting each component in cigarette design based on carbon monoxide release amount - Google Patents
Method for adjusting each component in cigarette design based on carbon monoxide release amount Download PDFInfo
- Publication number
- CN102940311A CN102940311A CN2012105346308A CN201210534630A CN102940311A CN 102940311 A CN102940311 A CN 102940311A CN 2012105346308 A CN2012105346308 A CN 2012105346308A CN 201210534630 A CN201210534630 A CN 201210534630A CN 102940311 A CN102940311 A CN 102940311A
- Authority
- CN
- China
- Prior art keywords
- cigarette
- carbon monoxide
- air permeability
- parameter
- paper
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- Paper (AREA)
- Cigarettes, Filters, And Manufacturing Of Filters (AREA)
Abstract
The invention provides a method for adjusting each cigarette design parameter in cigarette design based on carbon monoxide release amount. The method comprises the following steps: 1) determining an emission index of carbon monoxide in smoke; 2) establishing a carbon monoxide emission relationship model based on cigarette paper additive amount, cigarette paper air permeability, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expansion stem ratio; 3) selecting corresponding parameters according to the carbon monoxide emission relationship model, acquiring a carbon monoxide emission sample value, wherein the parameters comprise the cigarette paper additive amount, cigarette paper air permeability, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expansion stem ratio, and acquiring the carbon monoxide emission sample value corresponding to the parameters; and 4) comparing the sample value with the emission index, if the sample value is not greater than the emission index, performing cigarette design by employing corresponding parameters, otherwise repeating step 3). The components are reasonably adjusted according to the relevance among the parameters counted by the carbon monoxide emission relationship model only, and the effects of reducing harm and reducing tar can be well achieved.
Description
Technical field
The present invention relates to the Cigarette design field, particularly relate to a kind of method of adjustment based on each Cigarette design parameter in the Cigarette design of carbon monoxide burst size.
Background technology
How reduce harmful substance in the cigarette smoke by effective means, improve the cigarette quality, be the common topic of being concerned about inside and outside the industry, also be main task and the focus of industry tackling of key scientific and technical problems always, and this also is simultaneously that I cross the focal issue that must face and solve in the cigarette evolution.Each tobacco research institution is devoted to the research of this work always and has obtained gratifying achievement, but still has achievement greatly to can not get using, reason be more the complexity of flue gas system and people to cigarette special suck requirement.
In existing research field, the technical staff has summarized 189 pieces of open source literatures to people such as Paschke in the cigarette, contains 300 multiple additives to the impact research of cigarette smoke character.They find different additive and add concentration the impact of smoke components be there are differences.In most cases, after some additive added with its maximum addition in commercial cigarettes or excess (one addition all is the ppm level), some smoke components had and increases or reduce.
But the design of cigarette also can exist the discharging on flue gas to exist very large impact, therefore, science is differentiated the Cigarette design indexs such as cigarette paper additive consumption, cigarette paper parameter, filter stick pressure drop, other pipe tobacco ginseng proportionings exactly to the influence degree of flue gas composition burst size amount, to judging lowering harm and decreasing coking additive effect, improve the cigarette product quality safety and have important practical significance.
About the Cigarette design indexs such as additive amount, cigarette paper parameter, filter stick pressure drop in the cigarette paper on the impact of flue gas composition burst size amount, at existing many researchs reports in the past, and have the researcher attempt setting up the Cigarette design index parameter is adjusted and the flue gas composition burst size between regression equation.But most of research mainly is confined to the effect that the single index adjustment changes the conventional component of flue gas (tar, nicotine, carbon monoxide), only there is small part to research and analyse the Cigarette design parameter to 7 kinds of impacts that mainly contain the pest burst size of flue gas, or studies the synergistic effect of many indexs.
The conspicuousness of present many correlative studys infers it all is by obtaining with the simple, intuitive comparison that contrasts cigarette, can not be with additive amount, cigarette paper parameter, filter stick pressure drop in the cigarette paper, the Cigarette design indexs such as other pipe tobacco ginseng proportionings change the fluctuation that impact and the experimental error of Chemical Components in Cigarette Smoke are brought to be distinguished, and has affected the accurate judgement of additive lowering harm and decreasing coking effect.Up to now, research about many indexs synergistic action effect, but there is repugnance in the analysis of its indivedual index action effects with the conclusion of other research, therefore differentiate additive amount, cigarette paper parameter, filter stick pressure drop in the cigarette paper according to analysis result, other pipe tobacco ginseng proportionings are to the feasible way that do not have of the conventional fume indication influence degree of cigarette, and then seriously influence Cigarette design, make the design of cigarette can't well reach the lowering harm and decreasing coking effect.
Summary of the invention
Goal of the invention of the present invention is to overcome the defective of prior art, provide a kind of in producing the cigarette process, can effectively control the CO emission in the flue gas, the method for adjustment based on each Cigarette design parameter in the Cigarette design of carbon monoxide burst size of raising production of cigarettes efficient.
In order to realize above-mentioned goal of the invention, the invention provides:
A kind of method of adjustment based on each component in the Cigarette design of carbon monoxide burst size said method comprising the steps of:
1) determines the step of the discharge index of carbon monoxide in flue gas;
2) set up the carbon monoxide emission relational model of joining proportioning based on cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop, expanded cut stem;
3) select relevant parameter according to the carbon monoxide emission relational model, obtain the step of carbon monoxide emission model value, described parameter comprises cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expanded cut stem ginseng proportioning;
4) make comparisons according to sample value and discharge index, if described model value is not more than discharge index, adopt corresponding parameter to carry out Cigarette design, otherwise adjust repeating step 3 after each Cigarette design parameter).
Further, when not distinguishing the tipping paper air permeability, described carbon monoxide emission relational model is: A=7.9716+421.05 * b1-0.0103 * b3+20.4336 * b6, wherein A is the discharge capacity of carbon monoxide, b1 is the cigarette paper additive consumption, b3 is the tipping paper air permeability, and b6 is expanded cut stem ginseng proportioning.
Further, when the tipping paper air permeability was 150CU, described carbon monoxide emission relational model was: A=7.8441-0.0407 * b2+53.8000 * b6, and wherein b2 is air permeance for cigarette paper, b6 is expanded cut stem ginseng proportioning, and A is CO emission.
Further, when the tipping paper air permeability is 300CU, A=-11.8800+0.3015 * b2+0.0134 * b5, wherein b2 is air permeance for cigarette paper, and b5 is the filter stick pressure drop, and A is CO emission.
Further, when the tipping paper air permeability is 450CU, A=-5.6600+2860 * b1-0.119 * b2, wherein b1 is the cigarette paper additive consumption, and b2 is air permeance for cigarette paper, and A is CO emission.
Further, repeating step 3 in the step 4)) time, also comprise according to the carbon monoxide emission relational model obtain cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expanded cut stem ginseng proportioning respectively with the relevance of CO emission, and regulate the step of described parameter according to this relevance.
Further, control method for described parameter is: the relevance according to parameters and carbon monoxide burst size is regulated the parameter of current use, at first determine the tipping paper air permeability, then increase or reduce the value of parameters according to the relevance formula of each corresponding Cigarette design parameter and carbon monoxide burst size under the different tipping paper air permeabilities.
Further, the control method for described parameter is when the tipping paper air permeability is 150CU, improves air permeance for cigarette paper and/or reduce expanded cut stem ginseng proportioning.
Further, the control method for described parameter is when the tipping paper air permeability is 300CU, reduces air permeance for cigarette paper and/or reduce the filter stick pressure drop.
Further, the control method for described parameter is when the tipping paper air permeability is 450CU, reduces the cigarette paper additive consumption and/or improve air permeance for cigarette paper.
Further, parameters on the size of carbon monoxide burst size impact is: the tipping paper air permeability〉swollen silk ginseng proportioning expands〉air permeance for cigarette paper〉the cigarette paper additive consumption〉the forming paper air permeability〉the filter stick pressure drop.
Compared with prior art, the invention has the advantages that:
Technical scheme of the present invention is by in the production process of cigarette, employing is based on the carbon monoxide emission relational model of cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop, expanded cut stem ginseng proportioning, fundamentally controlled the discharge capacity of carbon monoxide in the cigarette, and need not existing process equipment and material are improved, relevance between the parameters that only needs to count on according to the carbon monoxide emission relational model is rationally regulated component, just can be good at reaching the lowering harm and decreasing coking effect.
Description of drawings
Fig. 1 is method flow diagram of the present invention.
The specific embodiment
The invention will be further described below in conjunction with specific embodiment.
As shown in Figure 1, the invention provides a kind of method of adjustment based on each component in the Cigarette design of carbon monoxide burst size, said method comprising the steps of:
1) determines the step of the discharge index of carbon monoxide in flue gas;
2) set up the carbon monoxide emission relational model of joining proportioning based on cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop, expanded cut stem;
3) select relevant parameter according to the carbon monoxide emission relational model, obtain the step of carbon monoxide emission model value, described parameter comprises cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expanded cut stem ginseng proportioning;
4) make comparisons according to sample value and discharge index, if described model value is not more than discharge index, adopt corresponding parameter to carry out Cigarette design, otherwise adjust repeating step 3 after each Cigarette design parameter).
Wherein, repeating step 3 in the step 4)) time, also comprise according to the carbon monoxide emission relational model and obtain the cigarette paper additive consumption, air permeance for cigarette paper, the tipping paper air permeability, the forming paper air permeability, filter stick pressure drop and expanded cut stem ginseng proportioning respectively with the relevance of CO emission, wherein, wherein, control method for described parameter is: the relevance according to parameters and carbon monoxide burst size is regulated the parameter of current use, at first determine the tipping paper air permeability, then increase or reduce the value of parameters according to the relevance formula of each corresponding Cigarette design parameter and carbon monoxide burst size under the different tipping paper air permeabilities.
Embodiment 1
The statistics of all data all is to adopt from ISO 4387 domestic transformation standards with detecting among the present invention, and employing prepares according to different materials design parameter demand, single-tobacco-typed cigarette cigarette product is laboratory sample.
The measurement standard of sample is: ISO regime scheme is according to GB/T 19609(ISO 4387 domestic transformation standards) regulation set: suction capacity, 35mL; Suction frequency, 60s/ mouth; Artificially do not seal the filter stick air penetrability.
The detection of cigarette physical index is carried out according to GB/T 22838.The mensuration of N-nitrosamine in the flue gas gas phase is carried out according to GB/T 23228-2008.
Described carbon monoxide emission relational model is by the flue gas inspection result to carrying out in multiple cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop, the expanded cut stem ginseng proportioning situation, so adopt multiple stepwise regression, and then obtain above-mentioned several parameter to the impact size statistical model of carbon monoxide in flue gas burst size.
The parameter of each cigarette sample such as following table.
The parameter of table 1 cigarette laboratory sample (adopting identical tobacco raw material)
| Sample number into spectrum | Additive in the cigarette paper (citrate) consumption | Air permeance for cigarette paper (CU) | Tipping paper air permeability (CU) | Forming paper air permeability (CU) | The filter stick pressure drop | Other pipe tobacco ginseng is joined |
| 1 | 0.7% | 30 | 150 | 12000 | 800Pa | 10% |
| 2 | 0.7% | 60 | 150 | 12000 | 800Pa | 10% |
| 5 | 0.5% | 40 | 150 | 12000 | 800Pa | 10% |
| 6 | 0.7% | 40 | 150 | 12000 | 800Pa | 10% |
| 7 | 0.9% | 40 | 150 | 12000 | 800Pa | 10% |
| 8 | 0.7% | 40 | 300 | 12000 | 800Pa | 10% |
| 9 | 0.7% | 40 | 450 | 12000 | 800Pa | 10% |
| 10 | 0.7% | 40 | 150 | 6000 | 800Pa | 10% |
| 11 | 0.7% | 40 | 150 | 20000 | 800Pa | 10% |
| 12 | 0.7% | 40 | 150 | 32000 | 800Pa | 10% |
| 13 | 0.7% | 40 | 150 | 12000 | 700Pa | 10% |
| 14 | 0.7% | 40 | 150 | 12000 | 900Pa | 10% |
| 17 | 0.7% | 40 | 150 | 12000 | 800Pa | 5% |
| 18 | 0.7% | 40 | 150 | 12000 | 800Pa | 15% |
| 19 | 0.7% | 60 | 450 | 32000 | 700Pa | 5% |
| 20 | 0.7% | 60 | 450 | 20000 | 700Pa | 5% |
| 21 | 0.7% | 60 | 450 | 6000 | 900Pa | 15% |
| 22 | 0.9% | 60 | 450 | 6000 | 700Pa | 15% |
| 23 | 0.7% | 30 | 300 | 20000 | 900Pa | 5% |
| 24 | 0.7% | 30 | 300 | 6000 | 700Pa | 15% |
| 25 | 0.9% | 30 | 300 | 6000 | 900Pa | 5% |
The 6th standard of behaviour cigarette sample and design parameter thereof wherein.
Carry out multiple stepwise regression for above-mentioned data, the cigarette material design parameter affects Analyzing on Size such as table 2 to the carbon monoxide in flue gas burst size:
Each cigarette material design parameter of table 2 is on the analysis of carbon monoxide burst size impact size
| Influence factor | Standardization returns factor | Standard error | The P value | Conspicuousness |
| Cigarette paper material (citrate addition) b1 | 421.05 | 487.86 | 0.4001 | Certain correlation |
| Air permeance for cigarette paper b2 | 0.0224 | 0.0469 | 0.6393 | Than weak dependence |
| Tipping paper air permeability b3 | -0.0103 | 0.0033 | 0.0063 | Significantly |
| Forming paper air permeability b4 | 3.18E-05 | 6.67E-05 | 0.6396 | Than weak dependence |
| Filter stick pressure drop b5 | 4.71E-05 | 0.0066 | 0.9944 | Uncorrelated |
| Swollen stem ginseng proportioning b6 | 20.4336 | 12.4145 | 0.1181 | More remarkable |
Thereby can get the regression equation (getting P<0.5) of carbon monoxide burst size under each cigarette material design parameter
A?=?7.9716?+?421.05?×?b1?-?0.0103?×?b3?+?20.4336?×?b6
Analytical table 2 and above regression equation can be known: 1. cigarette tipping paper air permeability paper (b3) is to the having the greatest impact of carbon monoxide in flue gas burst size, and its multiple stepwise regression gained P value is less than 0.01, less than 1/10th of other each factor P value.And b3 is larger, and the burst size of carbon monoxide is lower in the flue gas.2. other pipe tobacco ginseng dosage (b6) and citrate addition (b1) also have certain influence to A, and b6 and b1 are lower, and the A value is less.
But when using this regression equation and carrying out the prediction of carbon monoxide in flue gas burst size, its predict the outcome with the ISO pattern under the gained detected value relatively, it is 14.3% that relative deviation on average is lower than 15%(), depart from larger.That is, the tipping paper air permeability is not direct linear correlation relation on the impact of fume indication A very remarkable (the P value is less than 0.01, well below other factors) but it and carbon monoxide discharge the relationship between quantities under the ISO pattern, therefore is necessary it is carried out classification analysis.And can intuitively carry out simple and reasonably adjusting to the various components in the cigarette simply according to above-mentioned testing result, thereby realize in process of production according to productive target design cigarette.
Embodiment 2
When tipping paper air permeability (b3)=150CU
Through multiple stepwise regression, the cigarette material design parameter is to analysis of Influential Factors such as the table 3 of carbon monoxide in flue gas burst size:
The analysis of Influential Factors of table 3 carbon monoxide burst size (the ISO pattern, b3=150CU)
| Influence factor | Standardization returns factor | Standard error | The P value | Conspicuousness |
| Cigarette paper material (citrate addition) b1 | -152.50 | 468.45 | 0.7531 | Uncorrelated |
| Air permeance for cigarette paper b2 | -0.0407 | 0.0567 | 0.491 | Certain correlation |
| Tipping paper air permeability b3 | - | - | - | Significantly |
| Forming paper air permeability b4 | 1.39E-05 | 6.21E-05 | 0.8279 | Uncorrelated |
| Filter stick pressure drop b5 | 0.0024 | 0.0094 | 0.8048 | Uncorrelated |
| Swollen stem ginseng proportioning b6 | 53.8000 | 17.7829 | 0.0144 | Significantly |
During according to b3=150CU, the regression equation of carbon monoxide burst size (getting P<0.5):
A?=?7.8441?-?0.0407?×?b2?+?53.8000?×?b6
Analytical table 3 and above regression equation can be known: 1. when tipping paper air permeability lower (b3=150CU), other pipe tobacco ginseng proportioning (b6) is higher than other factors far away to the impact of A, and the less A value of b6 is lower.2. air permeance for cigarette paper (b2) also has certain influence to the A value, and b2 is larger, and the A value is lower.Thereby can intuitively carry out simple and reasonably adjusting to the various components in the cigarette simply according to above-mentioned testing result, thereby realize in process of production according to productive target design cigarette.
Embodiment 3
When tipping paper air permeability=300
Through multiple stepwise regression, the cigarette material design parameter is to analysis of Influential Factors such as the table 4 of carbon monoxide in flue gas burst size:
The analysis of Influential Factors of table 4 carbon monoxide burst size (the ISO pattern, b3=300CU)
| Influence factor | Standardization returns factor | Standard error | The P value | Conspicuousness |
| Cigarette paper material (citrate addition) b1 | 40 | NaN | NaN | Uncorrelated |
| Air permeance for cigarette paper b2 | 0.3015 | 0.0066 | 0.014 | Significantly |
| Tipping paper air permeability b3 | - | - | - | Significantly |
| Forming paper air permeability b4 | -5.71E-06 | NaN | NaN | Uncorrelated |
| Filter stick pressure drop b5 | 0.0134 | 3.46E-04 | 0.0165 | Significantly |
| Swollen stem ginseng proportioning b6 | 0 | NaN | NaN | Uncorrelated |
During according to b3=300CU, the regression equation of carbon monoxide burst size (getting P<0.5):
A?=?-11.8800?+?0.3015?×?b2?+?0.0134?×?b5
Analytical table 4 and above regression equation can be known: 1. when the tipping paper air permeability is medium (b3=300CU), the impact of b2 significantly improves, but effect is opposite during with b=150CU, and the less A value of b2 is lower.The impact of 2. filter stick pressure drop (b5) is remarkable equally, and effect is similar to b2.
Embodiment 4
When tipping paper air permeability=450
Through multiple stepwise regression, the cigarette material design parameter is to analysis of Influential Factors such as the table 5 of carbon monoxide in flue gas burst size:
The analysis of Influential Factors of table 5 carbon monoxide burst size (the ISO pattern, b3=450CU)
| Influence factor | Standardization returns factor | Standard error | The P value | Conspicuousness |
| Cigarette paper material (citrate addition) b1 | 2860 | 445.01 | 0.0234 | Significantly |
| Air permeance for cigarette paper b2 | -0.119 | 0.0445 | 0.116 | Significantly |
| Tipping paper air permeability b3 | - | - | - | Significantly |
| Forming paper air permeability b4 | -2.96E-05 | 5.13E-05 | 0.6663 | Than weak dependence |
| Filter stick pressure drop b5 | 3.00E-04 | 0.0067 | 0.9714 | Uncorrelated |
| Swollen stem ginseng proportioning b6 | 0.6 | 13.3368 | 0.9714 | Uncorrelated |
During according to b3=450CU, the regression equation of carbon monoxide burst size (getting P<0.5):
A?=?-5.6600?+?2860?×?b1?-?0.119?×?b2
Analytical table 5 and above regression equation can be known: 1. when the tipping paper air permeability is higher when (b3=450CU), the situation of the impact of b2 during to low tipping paper air permeability is similar.2. the impact of cigarette paper material becomes significantly, and the CO content burst size in the less flue gas of the consumption of cigarette paper additive citrate (b1) is lower.
Embodiment 5
Comparison to its predicted value of the designed cigarette of foundation the present invention and actual value
Use the cigarette material design parameter under the table 6 ISO suction mode to the interpretation of result of flue gas nuisance burst size prediction.
Use each regression equation predicting the outcome by cigarette material coaptation flue gas composition burst size, less with the lower deviation that obtains to detect data of ISO suction mode, show this regression equation ideal that predicts the outcome, correlation analysis to the cigarette material factor is comparatively accurate: it is 5.7% that the relative deviation mean value of carbon monoxide index is lower than 6%(), the relative deviation value of other data is all less than 16% except one group of data;
Each cigarette material parameter is as follows on the impact of carbon monoxide in flue gas burst size: 1. reduce citrate addition (b1) in the cigarette paper material, can reduce the carbon monoxide in flue gas burst size.2. air permeance for cigarette paper (b2) has considerable influence to carbon monoxide in flue gas burst size (A), but different for the effect under ISO suction mode, different tipping paper air permeability (b3) condition---and b3 hour, b2 was conducive to greatly reduce A; When b3 was medium, b2 is little to be conducive to reduce A; When b3 was large, b2 was conducive to greatly reduce A.3. improve tipping paper air permeability design load (b3), can effectively reduce the A value.4. only when tipping paper paper air permeability higher (b3=450CU), improve forming paper air permeability (b4) reduction of carbon monoxide burst size is just had certain effect.5. reduce filter stick pressure drop (b5) and be conducive to reduce the carbon monoxide burst size, but only when air permeance for cigarette paper b3=300CU effect just comparatively obvious.6. reduce other pipe tobacco ginseng dosage (b6), also can reduce the A value, effect is especially obvious when low tipping paper air permeability (b3=150CU).
Therefore, the design of low CO burst size cigarette is: 1. reduce cigarette paper material citrate consumption (b1), adjust air permeance for cigarette paper design load (b2) according to different tipping paper air permeability values, improve tipping paper air permeability (b3), under the ventilative tipping paper condition of height, improve forming paper air permeability (b4), under medium air permeability tipping paper (b3=300CU) condition, reduce the filter stick pressure drop, and reduce other pipe tobacco ginseng dosage (b6), all be conducive to reduce the carbon monoxide in flue gas burst size.2. under the ISO pattern, the relevance size of different materials parameter and flue gas nuisance burst size is b3 (+)〉b6 (-)〉b2 (+)〉b1 (-)〉b4 (+, b3=450CU)〉b5 (, b3=300CU).
Claims (10)
1. the method for adjustment based on each Cigarette design parameter in the Cigarette design of carbon monoxide burst size is characterized in that, said method comprising the steps of:
1) determines the step of the discharge index of carbon monoxide in flue gas;
2) set up the carbon monoxide emission relational model of joining proportioning based on cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop, expanded cut stem;
3) select relevant parameter according to the carbon monoxide emission relational model, obtain the step of carbon monoxide emission model value, described parameter comprises cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expanded cut stem ginseng proportioning;
4) make comparisons according to sample value and discharge index, if described model value is not more than discharge index, adopt corresponding parameter to carry out Cigarette design, otherwise adjust repeating step 3 after each Cigarette design parameter).
2. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 1, it is characterized in that, when not distinguishing the tipping paper air permeability, described carbon monoxide emission relational model is: A=7.9716+421.05 * b1-0.0103 * b3+20.4336 * b6, wherein A is the discharge capacity of carbon monoxide, b1 is the cigarette paper additive consumption, and b3 is the tipping paper air permeability, and b6 is expanded cut stem ginseng proportioning.
3. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 1, it is characterized in that, when the tipping paper air permeability is 150CU, described carbon monoxide emission relational model is: A=7.8441-0.0407 * b2+53.8000 * b6, wherein b2 is air permeance for cigarette paper, b6 is expanded cut stem ginseng proportioning, and A is CO emission.
4. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 1, it is characterized in that, when the tipping paper air permeability is 300CU, described carbon monoxide emission relational model is: A=-11.8800+0.3015 * b2+0.0134 * b5, wherein b2 is air permeance for cigarette paper, b5 is the filter stick pressure drop, and A is CO emission.
5. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 1, it is characterized in that, when the tipping paper air permeability is 450CU, described carbon monoxide emission relational model is: A=-5.6600+2860 * b1-0.119 * b2, wherein b1 is the cigarette paper additive consumption, b2 is air permeance for cigarette paper, and A is CO emission.
6. arbitrary described method of adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 1~5, it is characterized in that, repeating step 3 in the step 4)) time, also comprise according to the carbon monoxide emission relational model obtain cigarette paper additive consumption, air permeance for cigarette paper, tipping paper air permeability, forming paper air permeability, filter stick pressure drop and expanded cut stem ginseng proportioning respectively with the relevance of CO emission, and regulate the step of described parameter according to this relevance;
Control method for described parameter is: the relevance according to parameters and carbon monoxide burst size is regulated the parameter of current use, at first determine the tipping paper air permeability, then increase or reduce the value of parameters according to the relevance formula of each corresponding Cigarette design parameter and carbon monoxide burst size under the different tipping paper air permeabilities.
7. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 6, it is characterized in that, control method for described parameter is when the tipping paper air permeability is 150CU, improves air permeance for cigarette paper and/or reduce expanded cut stem ginseng proportioning.
8. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 6, it is characterized in that, control method for described parameter is when the tipping paper air permeability is 300CU, reduces air permeance for cigarette paper and/or reduce the filter stick pressure drop.
9. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 6, it is characterized in that, control method for described parameter is when the tipping paper air permeability is 450CU, reduces the cigarette paper additive consumption and/or improve air permeance for cigarette paper.
10. the method for adjustment based on each parameter in the Cigarette design of carbon monoxide burst size according to claim 6, it is characterized in that, parameters on the size of carbon monoxide burst size impact is: the tipping paper air permeability〉swollen silk ginseng proportioning expands〉air permeance for cigarette paper〉the cigarette paper additive consumption〉the forming paper air permeability〉the filter stick pressure drop.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210534630.8A CN102940311B (en) | 2012-12-12 | 2012-12-12 | Method for adjusting each component in cigarette design based on carbon monoxide release amount |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210534630.8A CN102940311B (en) | 2012-12-12 | 2012-12-12 | Method for adjusting each component in cigarette design based on carbon monoxide release amount |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102940311A true CN102940311A (en) | 2013-02-27 |
| CN102940311B CN102940311B (en) | 2015-06-03 |
Family
ID=47723390
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201210534630.8A Active CN102940311B (en) | 2012-12-12 | 2012-12-12 | Method for adjusting each component in cigarette design based on carbon monoxide release amount |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102940311B (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108303499A (en) * | 2018-01-30 | 2018-07-20 | 福建中烟工业有限责任公司 | The prediction technique and prediction meanss of carbon monoxide release amount in cigarette mainstream flue gas |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102692380A (en) * | 2012-06-13 | 2012-09-26 | 广东中烟工业有限责任公司 | Method for detecting smoke harmful ingredient emission in deep smoking mode |
| CN102697175A (en) * | 2012-05-24 | 2012-10-03 | 广东中烟工业有限责任公司 | Cigarette design adjusting method based on phenol discharging amount under deep-smoking condition |
| US20120302474A1 (en) * | 2011-05-26 | 2012-11-29 | Altria Client Services, Inc. | Oil soluble taggants |
-
2012
- 2012-12-12 CN CN201210534630.8A patent/CN102940311B/en active Active
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20120302474A1 (en) * | 2011-05-26 | 2012-11-29 | Altria Client Services, Inc. | Oil soluble taggants |
| CN102697175A (en) * | 2012-05-24 | 2012-10-03 | 广东中烟工业有限责任公司 | Cigarette design adjusting method based on phenol discharging amount under deep-smoking condition |
| CN102692380A (en) * | 2012-06-13 | 2012-09-26 | 广东中烟工业有限责任公司 | Method for detecting smoke harmful ingredient emission in deep smoking mode |
Non-Patent Citations (1)
| Title |
|---|
| 杨红燕等: "卷烟材料组合对主流烟气中7种有害成份释放量的影响", 《中国烟草学报》 * |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108303499A (en) * | 2018-01-30 | 2018-07-20 | 福建中烟工业有限责任公司 | The prediction technique and prediction meanss of carbon monoxide release amount in cigarette mainstream flue gas |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102940311B (en) | 2015-06-03 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN104931430B (en) | A kind of redried natural alcoholization quality evaluation and model building method | |
| CN102697175B (en) | Cigarette design adjusting method based on phenol discharging amount under deep-smoking condition | |
| CN105157157B (en) | A kind of VMC and its ventilation control method and device | |
| CN106447210A (en) | Distribution network equipment health degree dynamic diagnosis method involving credibility evaluation | |
| CN103134850A (en) | Tea quality rapid detection apparatus and detection method based on characteristic fragrance | |
| CN110163424B (en) | Rice grain cadmium pollution risk early warning method based on gradient film diffusion technology | |
| CN105445421A (en) | Method for predicting sensory quality in lamina alcoholization process via appearance indexes | |
| CN102338780A (en) | Method for discriminating cigarette brands | |
| CN102226802A (en) | Specialist evaluation system for sensory deviation degree in tobacco processing procedure | |
| CN103892435B (en) | Method for preparing tobacco powder raw materials and stabilizing quality of reconstituted tobacco | |
| CN108519425A (en) | A method of identifying tobacco mildew using High-Field unsymmetric ion migration spectral analysis technology | |
| CN102940311B (en) | Method for adjusting each component in cigarette design based on carbon monoxide release amount | |
| CN102823943B (en) | Cigarette design adjusting method based on NNK release amount in deep smoking case | |
| CN102940310B (en) | A kind of method of adjustment based on each component in the Cigarette design of N-nitrosamine burst size | |
| CN103412002A (en) | Vinegar flavor analysis device and method | |
| CN103005704A (en) | Method for adjusting cigarette design parameters in cigarette design based on phenol release amount | |
| CN103005703B (en) | Cigarette designing method based on smoke perniciousness index | |
| CN109022650B (en) | Method for identifying distribution of upper gas flow of blast furnace | |
| CN102823944B (en) | Cigarette design adjusting method based on carbon monoxide emission load under deep inspiration condition | |
| CN103593561B (en) | A kind of method using characteristic index to characterize tobacco style feature | |
| CN108828132B (en) | Method for analyzing content of main components in cigarette smoke | |
| CN106198809A (en) | A kind of flat-flavor flue-cured tobacco authentication method based on activity threshold | |
| CN203672848U (en) | Smoke component adjusting device used during smoke component detection | |
| CN103005702B (en) | Design method of less harmful cigarette based on harm index under deep smoking | |
| CN103412015A (en) | Device and method for analyzing flavour of blended vinegar |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |