中国农学通报
中國農學通報
중국농학통보
CHINESE AGRICULTURAL SCIENCE BULLETIN
2013年
23期
135-139
,共5页
林向阳%王质斌%王宇迪%赖志彬%王静%沈英%Roger Ruan
林嚮暘%王質斌%王宇迪%賴誌彬%王靜%瀋英%Roger Ruan
림향양%왕질빈%왕우적%뢰지빈%왕정%침영%Roger Ruan
生物质%稻壳%微波裂解%生物质油%生物质能源
生物質%稻殼%微波裂解%生物質油%生物質能源
생물질%도각%미파렬해%생물질유%생물질능원
bio-mass%rice hull%microwave pyrolysis%bio-oil%bio-energy
近年来生物质能逐渐兴起,因此生物质的热解也受到了越来越广泛的关注。为了充分利用生物质废弃物,提供制备可再生新能源的新途径,通过采用微波快速裂解的技术,以稻壳为原料,通过微波裂解技术制备生物质油,结果表明稻壳在微波裂解温度为600℃,微波功率为2 kW,微波吸收剂用量为3%,微波时间为5 min的条件下,生物质油的得率最高。由此可知稻壳可以通过微波裂解技术制备生物质油。
近年來生物質能逐漸興起,因此生物質的熱解也受到瞭越來越廣汎的關註。為瞭充分利用生物質廢棄物,提供製備可再生新能源的新途徑,通過採用微波快速裂解的技術,以稻殼為原料,通過微波裂解技術製備生物質油,結果錶明稻殼在微波裂解溫度為600℃,微波功率為2 kW,微波吸收劑用量為3%,微波時間為5 min的條件下,生物質油的得率最高。由此可知稻殼可以通過微波裂解技術製備生物質油。
근년래생물질능축점흥기,인차생물질적열해야수도료월래월엄범적관주。위료충분이용생물질폐기물,제공제비가재생신능원적신도경,통과채용미파쾌속렬해적기술,이도각위원료,통과미파렬해기술제비생물질유,결과표명도각재미파렬해온도위600℃,미파공솔위2 kW,미파흡수제용량위3%,미파시간위5 min적조건하,생물질유적득솔최고。유차가지도각가이통과미파렬해기술제비생물질유。
Biomass energy has expanded rapidly in recent years, and more and more attention has been paid to the pyrolysis of biomass. In this study, rice hull was chosen as the raw material for microwave pyrolysis to produce bio-oil,in order to take full advantage of the biomass waste and to provide a new way of obtaining renewable energy. The results showed that the optimum conditions for the microwave pyrolysis were as follow:pyrolysis temperature was 600℃ , microwave power was 2 kW, addition of microwave absorbent was 3% , reaction time was 5 min. Therefore rice hull was suitable for the preparation of bio-oil by microwave pyrolysis process.