Exhaust-gas after-treatment device

The invention claimed is: 1. An exhaust gas after-treatment device for an internal combustion engine, comprising: a housing through which exhaust gas from the internal combustion engine flows; exhaust gas purification chambers having substantially parallel walls arranged in the housing and configured to accommodate at least one of catalytic converters and particulate filters; and muffler chambers having substantially parallel walls arranged in the housing, each having a defined depth in a flow direction and configured to muffle, wherein each gas purification chamber is bounded by a respective muffler chamber at each gas purification chamber's input and output in the flow direction; wherein the exhaust gas purification chambers and the muffler chambers are arranged in series spatially, and wherein the exhaust gas purification chambers and the muffler chambers are arranged parallel to one another with respect to flow, wherein respective end faces of each muffler chamber and each gas purification chamber are arranged in parallel, so that a standing wave can form. 2. The exhaust gas after-treatment device according to claim 1 , wherein at least two of the muffler chambers have different depths. 3. The exhaust gas after-treatment device according to claim 1 , wherein each muffler chamber has a different depth. 4. The exhaust gas after-treatment device according to claim 1 , wherein all exhaust gas purification chambers and all muffler chambers are one of jointly formed in the housing and integrated in the housing. 5. The exhaust gas after-treatment device according to claim 1 , further comprising a sound absorption material arranged on one or more walls of the muffler chambers and the housing, which are not flowed through. 6. The exhaust gas after-treatment device according to claim 1 , wherein the exhaust gas purification chambers and the muffler chambers are arranged parallel to one another with respect to flow such that an exhaust gas flow, which flows through the housing, is divisible into a number N of partial exhaust gas flows, wherein each of the N partial exhaust gas flows flows through a respective exhaust gas purification chamber and a respective muffler chamber, wherein the partial exhaust gas flows having flowed through the exhaust gas purification chambers and muffler chambers are reunited to form the exhaust gas flow. 7. The exhaust gas after-treatment device according to claim 6 , wherein each exhaust gas purification chamber is formed as an exhaust gas purification chamber that is dedicated for a respective partial exhaust flow such that each exhaust gas purification chamber is always flowed through exclusively by one of the partial exhaust gas flows. 8. The exhaust gas after-treatment device according to claim 6 , wherein the exhaust gas purification chambers and the muffler chambers are arranged parallel to one another with respect to flow such that one or each individual exhaust gas purification chamber and muffler chamber of an i-th partial exhaust gas flow is connected in terms of flow parallel to the one or each individual exhaust gas purification chamber and muffler chamber of an (i+1)-th partial exhaust gas flow, wherein i=1 to (N−1). 9. The exhaust gas after-treatment device according to claim 6 , wherein the exhaust gas purification chambers and the muffler chambers are arranged serially with respect to one another in terms of space such that one or each individual exhaust purification chamber and muffler chamber of an i-th partial exhaust gas flow is arranged spatially in front of the one or each individual exhaust gas purification chamber and muffler chamber of an (i+1)-th partial exhaust gas flow, wherein i=1 to (N−1). 10. The exhaust gas after-treatment device according to claim 6 , wherein one or more of the muffler chambers are formed as muffler chambers that are individual for the partial exhaust gas flows such that a respective muffler chamber is always flowed through exclusively by one of the partial exhaust gas flows. 11. The exhaust gas after-treatment device according to claim 10 , wherein one or more of the muffler chambers are formed as common muffler chambers for the partial exhaust gas flows such that a respective muffler chamber is jointly flowed through by a plurality of the partial exhaust gas flows. 12. A marine diesel engine operated with heavy fuel oil comprising: an exhaust gas after-treatment device for the marine diesel engine, comprising: a housing through which exhaust gas from the marine diesel engine flows; exhaust gas purification chambers arranged in the housing and configured to accommodate at least one of catalytic converters and particulate filters; and muffler chambers having substantially parallel walls arranged in the housing, each having a defined depth in a flow direction and configured to muffle, wherein each gas purification chamber is bounded by a respective muffler chamber at each gas purification chamber's input and output in the flow direction; wherein the exhaust gas purification chambers and the muffler chambers are arranged in series spatially, and wherein the exhaust gas purification chambers and the muffler chambers are arranged parallel to one another with respect to flow, wherein respective end faces of each muffler chamber and each gas purification chamber are arranged in parallel, so that a standing wave can form. 13. An exhaust gas after-treatment device for an internal combustion engine, comprising: a housing through which exhaust gas from the internal combustion engine flows; exhaust gas purification chambers having substantially parallel walls arranged in the housing and configured to accommodate at least one of catalytic converters and particulate filters, each exhaust gas purification chamber having an input and output; and muffler chambers having substantially parallel walls arranged in the housing, each having a defined depth in a flow direction and configured to muffle, wherein each gas purification chamber is bounded by a respective muffler chamber at each gas purification chamber's input and output in the flow direction; wherein the exhaust gas purification chambers and the muffler chambers are arranged in series spatially, and wherein the exhaust gas purification chambers and the muffler chambers are arranged parallel to one another with respect to flow, wherein the defined depth of each of the muffler chambers corresponds to a quarter of a wavelength to be attenuated.