Your search keyword '"Zeeshan, Faisal"' showing total 14 results

1. Development of improved CTMP with even sulphonate distribution at fibre level using XRF analysis : Discussion contributions

Author

Rahman, Hafizur, Engstrand, Per, Persson, Erik, Siwen, An, Norlin, Börje, Zeeshan, Faisal, Granfeldt, Thomas, Rahman, Hafizur, Engstrand, Per, Persson, Erik, Siwen, An, Norlin, Börje, Zeeshan, Faisal, and Granfeldt, Thomas

Abstract

This second volume is based on all questions addressed during the presentations.

Published

2022

2. Synchrotron measurements of Sulphonation degree from Chemimechanical pulp (CTMP) to optimize the pulping process for packaging products

Author

Zeeshan, Faisal, Norlin, Börje, Rahman, Hafizur, Huthwelker, Thomas, Krapohl, David, An, Siwen, Borca, Camelia Nicoleta, Zeeshan, Faisal, Norlin, Börje, Rahman, Hafizur, Huthwelker, Thomas, Krapohl, David, An, Siwen, and Borca, Camelia Nicoleta

Abstract

The manufacturing of CTMP has a significant role in producing sustainable packaging products. But the strategy to improve the impregnation technology is still challenging due to the uneven distribution of Na2SO3. Our aim was to investigate the oxidation states of Sulphonate present in our handmade paper samples which consist of different CTMP percentages. Therefore, XANES measurements were done to investigate the oxidation states and XRF measurements were done to see the presence of other elements. XRF mapping was also done to know the distribution of Na in the samples., Fulltext arkiverad i DiVA. Kontakta Universitetsbiblioteket.

Published

2022

3. On-Site X-ray Fluorescence Spectrometry Measurement Strategy for Assessing the Sulfonation to Improve Chemimechanical Pulping Processes

Author

Rahman, Hafizur, An, Siwen, Norlin, Börje, Persson, Erik, Engstrand, Per, Zeeshan, Faisal, Granfeldt, T., Slavicek, Tomas, Pettersson, Gunilla, Rahman, Hafizur, An, Siwen, Norlin, Börje, Persson, Erik, Engstrand, Per, Zeeshan, Faisal, Granfeldt, T., Slavicek, Tomas, and Pettersson, Gunilla

Abstract

Minimizing the fiber property distribution would have the potential to improve the pulp properties and the process efficiency of chemimechanical pulp. To achieve this, it is essential to improve the level of knowledge of how evenly distributed the sulfonate concentration is between the individual chemimechanical pulp fibers. Due to the variation in quality between pulpwood and sawmill chips, as well as the on-chip screening method, it is difficult to develop an impregnation system that ensures the even distribution of sodium sulfite (Na2SO3) impregnation liquid. It is, therefore, crucial to measure the distribution of sulfonate groups within wood chips and fibers on a microscale. Typically, the degree of unevenness, i.e., the amount of fiber sulfonation and softening prior to defibration, is unknown on a microlevel due to excessively robust or complex processing methods. The degree of sulfonation at the fiber level can be determined by measuring the distribution of elemental sulfur and counterions of sulfonate groups, such as sodium or calcium. A miniaturized energy-dispersive X-ray fluorescence (ED-XRF) method has been developed to address this issue, enabling the analysis of sulfur distributions. It is effective enough to be applied to industrial laboratories for further development, i.e., improved image resolution and measurement time.

Published

2022

4. Development of improved CTMP with even sulphonate distribution at fibre level using XRF analysis

Author

Rahman, Hafizur, Engstrand, Per, Persson, Erik, An, Siwen, Norlin, Börje, Zeeshan, Faisal, Granfeldt, Thomas, Rahman, Hafizur, Engstrand, Per, Persson, Erik, An, Siwen, Norlin, Börje, Zeeshan, Faisal, and Granfeldt, Thomas

Abstract

Optimizing the fiber property distribution could increase the pulp properties as well as the process efficiency of chemimechanical pulps (CMP/CTMP). This can only be achieved with a better understanding of how evenly distributed sulphonate concentrations are between the individual CTMP fibres. Given that the quality of wood chips varies with the chipping methods used in pulpwood processing and sawmill processing, as well as with the chip screening system, it is a challenge to develop an impregnation process that ensures even distribution of sodium sulphite (Na2SO3) in the liquid used to impregnate the chemimechanical pulp (CMP/CTMP). Therefore, the distribution of sulphonate groups within wood chips and individual fibers must be measured at the microscale level. On a micro level, the degree of unevenness, ie, the amount of fiber sulphonation and softening before defibration, cannot be determined due to the use of excessively robust or complex processing methods. By having it, we could better understand how sulphonation occurs before defibration, so we could improve impregnation. Developing a laboratory-scale miniaturized energy dispersive X-ray fluorescence (ED-XRF) method that measures sulfur distribution at the fiber level can enable us to study the influence of impregnation on improving processes., There will be a second volume published based on all questions addressed during the presentation by the main author at the Conference, Micro X-ray project

Published

2022

5. Improve the competitive advantages of pulp fiber-based products over fossil-based materials

Author

Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, Zeeshan, Faisal, Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, and Zeeshan, Faisal

Abstract

To improve the competitive advantages of pulp fibre based materials such as tissue and packaging products over the fossil-based products, it is of key importance to improve the knowledge of the selectivity of the cooking process. There is also demand to expand the fundamental scientific understanding of pulp and paper manufacturing systems because of growing demand for replacing plastics. However, it is challenged to improve the selectivity of the cooking process by optimizing unit operation such as impregnation, cooking and refining. For pulp production based on chips regardless of chemical (kraft or sulphite) or high-yield (chemimechanical or semi-chemical pulp) pulping process, the efficiency of the impregnation is always crucial. To improve impregnation uniformity, we need to study how even distribution of lignin releases down to fibre level via easily impregnated wood chips. It can be achieved, using classic measures such as; equalized hydroxide ion concentration, increased initial sulphide ion concentration, low sodium ion concentration and low boiling temperature combined with the oxidative and reductive environment to understand how the chemicals quickly enter and distribute in the chips. However, we have studied the uniformity of impregnation at fibre level by the possibility of accurately measuring S and Na content by collimating the X-ray beam into a ~200 µm spot in diameter using energy-dispersive X-ray fluorescence (ED-XRF) spectrometry. In addition, we have also studied improved impregnation by selective cooking systems for sulphate pulp in oxidative (polysulfide) and reductive (sodium borohydride, NaBH4) environments. Our aim is to develop standard measurement methods to improve the smoothness of fibre properties for tissue and packaging products to reach the sustainable development goal (SDG) stated by the UN at target 9.5 “Enhance research and upgrade industrial technologies”.

Published

2021

6. Study of heavy metals including mercury within Fiber Banks of Västernorrland and Norrbotten counties by portable X-RayFluorescence (pXRF) spectrometry

Author

Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, Rahman, Hafizur, Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, and Rahman, Hafizur

Abstract

Discharge of waste water from pulp and paper industries has led to environmental impact in the formation of sediment layers, so called fiber banks, on the coast of Västernorrland and Norrbotten counties in Sweden. These fiber banks are thick underwater deposits which are highly contaminated with some toxic metals such as Al, Cr, Fe, Cu, Zn, As, Pb, Hg. These metals can lead to several consequences for the environment, thus ultimately having harmful effects on living organisms. Our purpose is to study several of these toxic metals and analyze the concentration level by using portable X-ray Fluorescence (pXRF) spectrometry for rapid sample characterization of wet samples. Field analyses are highly affected by moisture and it is difficult to obtain measurement accuracy. Therefore, moisture tests were performed by air drying samples at room temperature from 0 to 24 h. Some of the samples were oven dried for 48 h at 950 C, dried, grinded and turned into pellets and performed laboratory measurements to compare results with field measurements. Our aim is to provide an improved state of facts for decision makers to prevent and reduce marine pollution and to protect and restore ecosystems in order to avoid significant adverse impacts, and take actions for their restoration in order to achieve healthy and productive oceans. A future outcome is to reach the sustainable development goal (SDG) stated by the UN at target 14.1 and 14.2 “Life below water”.

Published

2021

7. Study of heavy metals including mercury within Fiber Banks of Västernorrland and Norrbotten counties by portable X-RayFluorescence (pXRF) spectrometry

Author

Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, Rahman, Hafizur, Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, and Rahman, Hafizur

Abstract

Discharge of waste water from pulp and paper industries has led to environmental impact in the formation of sediment layers, so called fiber banks, on the coast of Västernorrland and Norrbotten counties in Sweden. These fiber banks are thick underwater deposits which are highly contaminated with some toxic metals such as Al, Cr, Fe, Cu, Zn, As, Pb, Hg. These metals can lead to several consequences for the environment, thus ultimately having harmful effects on living organisms. Our purpose is to study several of these toxic metals and analyze the concentration level by using portable X-ray Fluorescence (pXRF) spectrometry for rapid sample characterization of wet samples. Field analyses are highly affected by moisture and it is difficult to obtain measurement accuracy. Therefore, moisture tests were performed by air drying samples at room temperature from 0 to 24 h. Some of the samples were oven dried for 48 h at 950 C, dried, grinded and turned into pellets and performed laboratory measurements to compare results with field measurements. Our aim is to provide an improved state of facts for decision makers to prevent and reduce marine pollution and to protect and restore ecosystems in order to avoid significant adverse impacts, and take actions for their restoration in order to achieve healthy and productive oceans. A future outcome is to reach the sustainable development goal (SDG) stated by the UN at target 14.1 and 14.2 “Life below water”.

Published

2021

8. Improve the competitive advantages of pulp fiber-based products over fossil-based materials

Author

Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, Zeeshan, Faisal, Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, and Zeeshan, Faisal

Abstract

To improve the competitive advantages of pulp fibre based materials such as tissue and packaging products over the fossil-based products, it is of key importance to improve the knowledge of the selectivity of the cooking process. There is also demand to expand the fundamental scientific understanding of pulp and paper manufacturing systems because of growing demand for replacing plastics. However, it is challenged to improve the selectivity of the cooking process by optimizing unit operation such as impregnation, cooking and refining. For pulp production based on chips regardless of chemical (kraft or sulphite) or high-yield (chemimechanical or semi-chemical pulp) pulping process, the efficiency of the impregnation is always crucial. To improve impregnation uniformity, we need to study how even distribution of lignin releases down to fibre level via easily impregnated wood chips. It can be achieved, using classic measures such as; equalized hydroxide ion concentration, increased initial sulphide ion concentration, low sodium ion concentration and low boiling temperature combined with the oxidative and reductive environment to understand how the chemicals quickly enter and distribute in the chips. However, we have studied the uniformity of impregnation at fibre level by the possibility of accurately measuring S and Na content by collimating the X-ray beam into a ~200 µm spot in diameter using energy-dispersive X-ray fluorescence (ED-XRF) spectrometry. In addition, we have also studied improved impregnation by selective cooking systems for sulphate pulp in oxidative (polysulfide) and reductive (sodium borohydride, NaBH4) environments. Our aim is to develop standard measurement methods to improve the smoothness of fibre properties for tissue and packaging products to reach the sustainable development goal (SDG) stated by the UN at target 9.5 “Enhance research and upgrade industrial technologies”.

Published

2021

9. Study of heavy metals including mercury within Fiber Banks of Västernorrland and Norrbotten counties by portable X-RayFluorescence (pXRF) spectrometry

Author

Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, Rahman, Hafizur, Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, and Rahman, Hafizur

Abstract

Discharge of waste water from pulp and paper industries has led to environmental impact in the formation of sediment layers, so called fiber banks, on the coast of Västernorrland and Norrbotten counties in Sweden. These fiber banks are thick underwater deposits which are highly contaminated with some toxic metals such as Al, Cr, Fe, Cu, Zn, As, Pb, Hg. These metals can lead to several consequences for the environment, thus ultimately having harmful effects on living organisms. Our purpose is to study several of these toxic metals and analyze the concentration level by using portable X-ray Fluorescence (pXRF) spectrometry for rapid sample characterization of wet samples. Field analyses are highly affected by moisture and it is difficult to obtain measurement accuracy. Therefore, moisture tests were performed by air drying samples at room temperature from 0 to 24 h. Some of the samples were oven dried for 48 h at 950 C, dried, grinded and turned into pellets and performed laboratory measurements to compare results with field measurements. Our aim is to provide an improved state of facts for decision makers to prevent and reduce marine pollution and to protect and restore ecosystems in order to avoid significant adverse impacts, and take actions for their restoration in order to achieve healthy and productive oceans. A future outcome is to reach the sustainable development goal (SDG) stated by the UN at target 14.1 and 14.2 “Life below water”.

Published

2021

10. Improve the competitive advantages of pulp fiber-based products over fossil-based materials

Author

Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, Zeeshan, Faisal, Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, and Zeeshan, Faisal

Abstract

To improve the competitive advantages of pulp fibre based materials such as tissue and packaging products over the fossil-based products, it is of key importance to improve the knowledge of the selectivity of the cooking process. There is also demand to expand the fundamental scientific understanding of pulp and paper manufacturing systems because of growing demand for replacing plastics. However, it is challenged to improve the selectivity of the cooking process by optimizing unit operation such as impregnation, cooking and refining. For pulp production based on chips regardless of chemical (kraft or sulphite) or high-yield (chemimechanical or semi-chemical pulp) pulping process, the efficiency of the impregnation is always crucial. To improve impregnation uniformity, we need to study how even distribution of lignin releases down to fibre level via easily impregnated wood chips. It can be achieved, using classic measures such as; equalized hydroxide ion concentration, increased initial sulphide ion concentration, low sodium ion concentration and low boiling temperature combined with the oxidative and reductive environment to understand how the chemicals quickly enter and distribute in the chips. However, we have studied the uniformity of impregnation at fibre level by the possibility of accurately measuring S and Na content by collimating the X-ray beam into a ~200 µm spot in diameter using energy-dispersive X-ray fluorescence (ED-XRF) spectrometry. In addition, we have also studied improved impregnation by selective cooking systems for sulphate pulp in oxidative (polysulfide) and reductive (sodium borohydride, NaBH4) environments. Our aim is to develop standard measurement methods to improve the smoothness of fibre properties for tissue and packaging products to reach the sustainable development goal (SDG) stated by the UN at target 9.5 “Enhance research and upgrade industrial technologies”.

Published

2021

11. Improve the competitive advantages of pulp fiber-based products over fossil-based materials

Author

Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, Zeeshan, Faisal, Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, and Zeeshan, Faisal

Abstract

To improve the competitive advantages of pulp fibre based materials such as tissue and packaging products over the fossil-based products, it is of key importance to improve the knowledge of the selectivity of the cooking process. There is also demand to expand the fundamental scientific understanding of pulp and paper manufacturing systems because of growing demand for replacing plastics. However, it is challenged to improve the selectivity of the cooking process by optimizing unit operation such as impregnation, cooking and refining. For pulp production based on chips regardless of chemical (kraft or sulphite) or high-yield (chemimechanical or semi-chemical pulp) pulping process, the efficiency of the impregnation is always crucial. To improve impregnation uniformity, we need to study how even distribution of lignin releases down to fibre level via easily impregnated wood chips. It can be achieved, using classic measures such as; equalized hydroxide ion concentration, increased initial sulphide ion concentration, low sodium ion concentration and low boiling temperature combined with the oxidative and reductive environment to understand how the chemicals quickly enter and distribute in the chips. However, we have studied the uniformity of impregnation at fibre level by the possibility of accurately measuring S and Na content by collimating the X-ray beam into a ~200 µm spot in diameter using energy-dispersive X-ray fluorescence (ED-XRF) spectrometry. In addition, we have also studied improved impregnation by selective cooking systems for sulphate pulp in oxidative (polysulfide) and reductive (sodium borohydride, NaBH4) environments. Our aim is to develop standard measurement methods to improve the smoothness of fibre properties for tissue and packaging products to reach the sustainable development goal (SDG) stated by the UN at target 9.5 “Enhance research and upgrade industrial technologies”.

Published

2021

12. Study of heavy metals including mercury within Fiber Banks of Västernorrland and Norrbotten counties by portable X-RayFluorescence (pXRF) spectrometry

Author

Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, Rahman, Hafizur, Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, and Rahman, Hafizur

Abstract

Discharge of waste water from pulp and paper industries has led to environmental impact in the formation of sediment layers, so called fiber banks, on the coast of Västernorrland and Norrbotten counties in Sweden. These fiber banks are thick underwater deposits which are highly contaminated with some toxic metals such as Al, Cr, Fe, Cu, Zn, As, Pb, Hg. These metals can lead to several consequences for the environment, thus ultimately having harmful effects on living organisms. Our purpose is to study several of these toxic metals and analyze the concentration level by using portable X-ray Fluorescence (pXRF) spectrometry for rapid sample characterization of wet samples. Field analyses are highly affected by moisture and it is difficult to obtain measurement accuracy. Therefore, moisture tests were performed by air drying samples at room temperature from 0 to 24 h. Some of the samples were oven dried for 48 h at 950 C, dried, grinded and turned into pellets and performed laboratory measurements to compare results with field measurements. Our aim is to provide an improved state of facts for decision makers to prevent and reduce marine pollution and to protect and restore ecosystems in order to avoid significant adverse impacts, and take actions for their restoration in order to achieve healthy and productive oceans. A future outcome is to reach the sustainable development goal (SDG) stated by the UN at target 14.1 and 14.2 “Life below water”.

Published

2021

13. Improve the competitive advantages of pulp fiber-based products over fossil-based materials

Author

Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, Zeeshan, Faisal, Rahman, Hafizur, Engstrand, Per, An, Siwen, Norlin, Börje, Persson, Erik, and Zeeshan, Faisal

Abstract

To improve the competitive advantages of pulp fibre based materials such as tissue and packaging products over the fossil-based products, it is of key importance to improve the knowledge of the selectivity of the cooking process. There is also demand to expand the fundamental scientific understanding of pulp and paper manufacturing systems because of growing demand for replacing plastics. However, it is challenged to improve the selectivity of the cooking process by optimizing unit operation such as impregnation, cooking and refining. For pulp production based on chips regardless of chemical (kraft or sulphite) or high-yield (chemimechanical or semi-chemical pulp) pulping process, the efficiency of the impregnation is always crucial. To improve impregnation uniformity, we need to study how even distribution of lignin releases down to fibre level via easily impregnated wood chips. It can be achieved, using classic measures such as; equalized hydroxide ion concentration, increased initial sulphide ion concentration, low sodium ion concentration and low boiling temperature combined with the oxidative and reductive environment to understand how the chemicals quickly enter and distribute in the chips. However, we have studied the uniformity of impregnation at fibre level by the possibility of accurately measuring S and Na content by collimating the X-ray beam into a ~200 µm spot in diameter using energy-dispersive X-ray fluorescence (ED-XRF) spectrometry. In addition, we have also studied improved impregnation by selective cooking systems for sulphate pulp in oxidative (polysulfide) and reductive (sodium borohydride, NaBH4) environments. Our aim is to develop standard measurement methods to improve the smoothness of fibre properties for tissue and packaging products to reach the sustainable development goal (SDG) stated by the UN at target 9.5 “Enhance research and upgrade industrial technologies”.

Published

2021

14. Study of heavy metals including mercury within Fiber Banks of Västernorrland and Norrbotten counties by portable X-RayFluorescence (pXRF) spectrometry

Author

Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, Rahman, Hafizur, Zeeshan, Faisal, An, Siwen, Norlin, Börje, Krapohl, David, and Rahman, Hafizur

Abstract

Discharge of waste water from pulp and paper industries has led to environmental impact in the formation of sediment layers, so called fiber banks, on the coast of Västernorrland and Norrbotten counties in Sweden. These fiber banks are thick underwater deposits which are highly contaminated with some toxic metals such as Al, Cr, Fe, Cu, Zn, As, Pb, Hg. These metals can lead to several consequences for the environment, thus ultimately having harmful effects on living organisms. Our purpose is to study several of these toxic metals and analyze the concentration level by using portable X-ray Fluorescence (pXRF) spectrometry for rapid sample characterization of wet samples. Field analyses are highly affected by moisture and it is difficult to obtain measurement accuracy. Therefore, moisture tests were performed by air drying samples at room temperature from 0 to 24 h. Some of the samples were oven dried for 48 h at 950 C, dried, grinded and turned into pellets and performed laboratory measurements to compare results with field measurements. Our aim is to provide an improved state of facts for decision makers to prevent and reduce marine pollution and to protect and restore ecosystems in order to avoid significant adverse impacts, and take actions for their restoration in order to achieve healthy and productive oceans. A future outcome is to reach the sustainable development goal (SDG) stated by the UN at target 14.1 and 14.2 “Life below water”.

Published

2021