The Kraft Recovery Process - TAPPI

1 THE Kraft CHEMCIAL Recovery operation, and advanced technologies that have been Process developed to overcome the problems. Fibre Honghi Tran Pulp & Paper Centre Lignin University of Toronto Fibre Toronto, Ontario, CANADA. White Esa K. Vakkilainnen + Liquor P yry Forest Industry Oy (NaOH + Na2S). Vantaa, FINLAND. Wood Black Liquor ABSTRACT. Figure 1. Kraft pulping Process The Kraft chemical Recovery Process is a mature, effective technology that provides for recycling of the pulping chemicals, efficient generation of steam and electrical THE Recovery Process . power from the fuel value of the black liquor, and effective disposal of dissolved wood substances. The Figure 2 shows a simple flowsheet of the Kraft chemical Process now faces significant challenges with respect to Recovery Process . The Process has three main functions: i). air emissions, effluent discharge, and the need for minimizing the environmental impact of waste material improved energy Recovery and utilization.

2 Means for (black liquor) from the pulping Process ; ii) recycling dealing with these issues are available, but they can costly. pulping chemicals, NaOH and Na2S; and iii) co-generating New technology may result in significant energy benefits. steam and power. Wood Lime Kiln INTRODUCTION Digester pulping White Pulp The Kraft Process , which uses sodium hydroxide (NaOH) Lime Liquor Washing Washing Lime and sodium sulphide (Na2S) to pulp wood, is the dominant Mud Weak pulping Process in the pulp and paper industry. About 130 Black Liquor Causticizing Causticizing million tons/year of Kraft pulp are produced globally, Plant Plant Evaporators accounting for two-thirds of the world's virgin pulp production and for over 90% of chemical pulp. The high Green Water Liquor Heavy strength of Kraft pulp, the ability of the Process to handle Black Liquor Recovery almost all species of softwood and hardwood, and the Smelt Boiler favourable economics due to high chemical Recovery efficiency (about 97%) give the Kraft Process an advantage Figure 2.

3 Kraft Recovery Process over other pulping processes. The magnitude of the Recovery Process is often not fully In the Kraft Process , about half of the wood is dissolved, appreciated. Globally over billion tons per year of and together with the spent pulping chemicals, forms a weak black liquor are processed; about 200 million tons liquid stream called weak black liquor (Figure 1). The per year of black liquor dry solids are burned in Recovery weak black liquor is separated from the pulp by washing, boilers to recover 50 million tons of cooking chemicals as and is sent to the Kraft Recovery system, where the Na2O, and to produce 700 million tons of high pressure inorganic pulping chemicals are recovered for reuse, while steam. This makes black liquor the fifth most important the dissolved organics are used as a fuel to make steam fuel in the world, next to coal, oil, natural gas, and and power. gasoline [1]. Since black liquor is derived from wood, it is the most important renewable bio-fuel, particularly in For every ton of pulp produced, the Kraft pulping Process Sweden and Finland.

4 Produces about 10 tons of weak black liquor or about tons of black liquor dry solids that need to be processed The chemical , physical and combustion properties of through the chemical Recovery Process . This paper black liquor vary from mill to mill depending on many discusses the basic steps in the Kraft Recovery Process , factors, including mill location (inland or coastal), digester problems encountered and challenges in Recovery conditions, pulp yield, wood species, white liquor The amount of steam produced is typically about kg properties, chemicals-to-wood ratio and brownstock per kg black liquor solids, but can range from to about washing efficiency. In general, hardwood pulping requires kg steam per kg black liquor solids, depending on the less chemicals, has a higher pulp yield, and consequently, thermal efficiency of the Recovery boiler. The high generates less black liquor solids than softwood pulping . pressure steam is passed through a steam turbine to Harwood black liquor generally contains less organics, tall generate electricity.

5 Depending on the quality of the oil and soap, and has a lower heating value (about 5% steam, and the type/ of the turbine, a 1000 t/d Kraft pulp lower) than softwood black liquor. In Brazil, Chile and mill can generate 25 to 35 MW of electricity by burning tropical countries, eucalyptus is the dominant wood 1500 t/d black liquor dry solids in its Recovery boiler. The species used in Kraft pulping . Since the properties of lowered pressure steam exiting from the turbine is used in eucalyptus black liquor are similar to those of other types various processes in the mill. of hardwood black liquor, the chemical Recovery Process in eucalyptus Kraft mills is essentially the same as others. OPERATIONAL PROBLEMS. Recovery of pulping Chemicals, NaOH and Na2S Although the Kraft Recovery Process is straightforward in principle, it is not easy to operate at high efficiency. Many As shown in Figure 2, weak black liquor from brown problems, both mechanical and Process , can occur.

6 Stock washers is concentrated in multi-effect evaporators and concentrators to a point where it can be effectively Multi-effect evaporators often experience problems with burned in a Recovery boiler, usually at 65% solids or liquor side fouling, tube corrosion and foaming, higher. Concentrated black liquor is sprayed into the lower particularly as the liquor becomes concentrated. These part of the Recovery boiler where it is burned in an oxygen problems result in frequent evaporator boilouts, high deficient environment so that Na2S is formed. The extent steam consumption, and low solids in the product liquor. of sulphide formation is measured by the reduction Recovery boilers also have many problems including efficiency, typically over 90%. The inorganic sodium and fouling of heat transfer tubes and plugging of flue gas sulphur are recovered as a molten smelt which consists passages by fireside deposits, tube corrosion and cracking, mostly of Na2S and sodium carbonate (Na2CO3).

7 The floor tube damage, poor water circulation, smelt-water molten smelt enters a dissolving tank where it is dissolved explosions, unsteady smelt run-off, high dregs in smelt, in water to form green liquor. The green liquor is then sent poor smelt reduction, low steam production, blackouts and to the causticizing plant, where it is reacted with lime, air emissions. CaO, to convert the Na2CO3 to NaOH. Conversion is measured by causticizing efficiency, typically 80 to 83%. Many problems can also occur in lime kilns including: low The Na2S passes through the causticizing step unchanged. thermal efficiency, high fuel consumption, ringing, balling, dusting, refractory and chain damage, poor lime The causticized green liquor is known as white liquor quality and air emissions. In the causticizing plant, which contains mostly NaOH and Na2S. It is returned to problems often encountered are overliming, poor mud the digester for reuse in pulping .

8 The precipitated CaCO3 settling and washing efficiency, high sodium and low (lime mud) from the causticizing reaction is washed, and solids contents in the lime mud, low liquor causticizing sent to a lime kiln where it is heated to a high temperature efficiency, high dregs carryover and liquor-line corrosion to regenerate CaO for reuse. in storage tanks. Recovery of Heat from Combustion of Organics Depending on the performance of the Recovery boiler and the causticizing plant, and the amount and the way in The organic compounds in black liquor serve as a fuel for which makeup chemicals are added into the system, the the production of steam which is used to generate liquor cycle may have problems with non Process element electricity. The heat released as a result of black liquor accumulation, particularly chloride (Cl) and potassium combustion is recovered as high pressure/temperature (K), with high Na2CO3 and Na2SO4 deadload, and with Na superheated steam in the Recovery boiler.

9 The efficiency in and S imbalance. converting the fuel value in Kraft black liquor (13,000 to 15,000 kJ/kg) to steam is typically lower than for fossil These operational problems result in poor pulping liquor fuel combustion, because of the heat used to evaporate the quality, poor pulp quality, increased mill energy water entering with the black liquor, the heat of reaction consumption, and decreased mill production capacity. consumed in producing Na2S, and the heat carried out They also make it difficult for mills to comply with with the molten smelt. increasingly stringent environmental regulations, particularly during the Process disturbance periods. EVIRONMENTAL CHALLENGES is not clear if NOx emissions can be controlled through changes in boiler operating practices. NOx emissions from Air Emissions lime kilns have recently attracted attention, particularly for kilns that burn NCG. One of the key environmental challenges is control of air emissions from the Recovery cycle.

10 The main concerns Combustion control in modern Recovery boilers is quite have historically been particulate, TRS (total reduced good, and CO concentrations during normal operation are sulphur gases, mainly H2S), SO2, and recently NOx. Now, typically only a few hundred ppm. However, CO. there is increasing focus on other gases, such as HCl, NH3, concentrations can be considerably higher during upset CO, methanol, and other volatile organic compounds. operation. Particulate emissions are mainly from the Recovery boiler, HCl can be emitted from the Recovery boiler, as a result of the smelt dissolving tank and the lime kiln. Modern sulphation of alkali chlorides (NaCl and KCl), if SO2. Recovery boilers are equipped with sectionalized, dry- concentrations are high and if there is sufficient chloride bottom electrostatic precipitators that operate at high in the black liquor. Reductions in HCl emissions can be efficiencies (> ). Smelt dissolving tank vent stacks achieved by operating the Recovery boiler with high bed are equipped with high efficiency wet scrubbers to control temperatures to minimize SO2 concentrations in the flue particulate emissions.