Sewage sludge from municipal wastewater treatment plants is a growing problem, as there is currently no clear vision of how to use sludge sustainably in agriculture or any other sector in an environmentally and economically sound manner. Currently, incineration is one of the most widely used methods for sewage sludge removal. The aim of the thesis was to determine the benefits and potential risks of biochar produced from sewage sludge. The literature review includes studies that have studied the effects of adding biochar from sewage sludge in field experiments. Researchers who investigated the effects of the addition of biochar from sewage sludge on the uptake of potentially toxic metals (PTM) in plants reported that the composition of the input material and pyrolysis temperature had the greatest impact on biochar preparation, as well as the dose of biochar. However, in general, excessive PTM levels in useful plant parts do not occur, except at higher rates of biochar, i.e. 15 tons dry matter and above per ha. The results show that biochar from sewage sludge can easily replace mineral fertilizers because it contains sufficient amount of macro- and micronutrients. However, biochar cannot increase the content of nutrients that are deficient in the soil to an optimal level. We must be careful when using biochar from sewage sludge, as the safety of the crop depends largely on the basic material and its background (PTM content in sewage sludge). It also follows that it is difficult to determine the safe amount of biochar added. It is necessary to take into account the PTM content in the soil to which the biochar will be added, and the presence of PTM in biochar from sewage sludge.