At present, incineration is the major treatment way of the municipal solid waste in Taiwan, while it produced large amount of ash and residuals should be handled carefully. Bottom ash was usually recovered as the aggregates of construction engineering in many developed countries, but the heavy metals are not stable enough in the field, it will influence the value during the recovering and reusing. This study is aim to explore the feasibility to regenerate the lightweight aggregate by sintering of the coarse grain of MSWI bottom ash, in order to stabilize the heavy metals and increase the reusing value of bottom ash. Bottom ash was extracted twice by water, sieved with 200# mesh (0.074mm) to separate the coarse grain form fine grain. The former was milled to particle size less then 8 mm, while the later was using as the adjuvant agent during the experiment. Foaming agent (SiO2、Fe2O3) were added in different proportion relatively, and 5% fine grain was blended into coarse grain, pressed to form pellet manually, and then sintering at 1100oC. The result showed that, addition of 0.1~0.4 g Fe2O3 into 10 g coarse grain could generate lightweight aggregate with density less then 1.6 g/cm3, compressive strength greater then 100 kgf/cm2, while addition of 1~ 2.5 g SiO2 and few Fe2O3 can generate better product with density less then 1.6 g/cm3, water absorption less then 10%, and compressive strength greater then 175 kgf/cm2. These products all satisfied the criteria of high-strength aggregate, which could be used in the structural lightweight concrete. Light-weight aggregate sintering with 5% fine grain bottom ash can be sintered to lower density, but has higher water absorption rate. In conclusion, sintering of high-strength aggregate with coarse grain MSWI bottom ash after proper pretreatment and blending is feasible; it could elevate the safety and vale of the product evidently during the management of ashes