[NIU, Fang 牛芳, LUO, Wei 罗伟, WANG, Hanfeng 王翰锋, ZHANG, Hongshun 张红顺, WANG, Naiji 王乃继, JI, Renshan 纪任山, SHI, Liang 石亮, LIANG, Xing 梁兴, GONG, Yanyan 龚艳艳, WANG, Pengtao 王鹏涛, WEI, Yanrong 魏琰荣, LIU, Pengzhong 刘鹏中, LI, Xiaojiong 李小炯, CUI, Yuhong 崔豫泓, QIU, Xing 裘星, JIA, Nan 贾楠, WANG, Zhixing 王志星, ZHENG, Xiangyu 郑祥玉, LIU, Gang 刘刚, YAN, Lili 闫黎黎, LIU, Zhenyu 刘振宇, MIAO, Peng 苗鹏, YAN, Shujuan 颜淑娟, DU, Boxi 杜伯犀, MENG, Changfang 孟长芳, WANG, Xuewen 王学文, WANG, Shijun 王诗珺, CUI, Mingshuang 崔名双, WANG, Jianpeng 王建朋, CHEN, Huaijun 陈怀俊, DONG, Zhi 董智, YU, Haipeng 于海鹏, CHEN, Zhe 陈喆, ZHANG, Song 张松, MA, Huiyan 马慧艳] No. 5, Yulong Street, Caiyu Economic Development Zone 中国北京市大兴区采育镇北京采育经济开发区育隆大街5号, Beijing 102600Caiyu Town, Daxing DistrictBeijing 102600 A two-channel burner and a multi-channel single-cone burner. The two-channel burner comprises a pulverized coal supply mechanism (1), a transition channel (2), an inner secondary airflow guide tube (3), an outer secondary airflow guide tube (4), a burning stabilization cavity (5), and a flow smoothing cavity (6). The outer secondary airflow guide tube (4), the burning stabilization cavity (5), and the flow smoothing cavity (6) are sequentially connected to form a main body of the burner. The pulverized coal supply mechanism (1) passes through an interior of the main body of the burner. The transition channel (2) is fitted on the pulverized coal supply mechanism (1). The inner secondary airflow guide tube (3) is disposed between the transition channel (2) and the outer secondary airflow guide tube (4), and forms an inner secondary airflow channel together with the transition channel (2), and forms an outer secondary airflow channel together with the outer secondary airflow guide tube (4). An outlet end of the inner secondary airflow guide tube (3) is formed to have a flared opening, and an angle of the flared opening is the same as an angle of the burning stabilization cavity (5). The device can divide air into an inner secondary airflow and an outer secondary airflow which separately enter into the burner, such that the pulverized coal and the air are sufficiently mixed. The outer secondary airflow can form, within the burning stabilization cavity (5), a cooling air layer along a wall surface of the burning stabilization cavity (5), thereby preventing soot formation and coking on the wall surface of the burning stabilization cavity (5). A two-channel burner and a multi-channel single-cone burner. The two-channel burner comprises a pulverized coal supply mechanism (1), a transition channel (2), an inner secondary airflow guide tube (3), an outer secondary airflow guide tube (4), a burning stabilization cavity (5), and a flow smoothing cavity (6). The outer secondary airflow guide tube (4), the burning stabilization cavity (5), and the flow smoothing cavity (6) are sequentially connected to form a main body of the burner. The pulverized coal supply mechanism (1) passes through an interior of the main body of the burner. The transition channel (2) is fitted on the pulverized coal supply mechanism (1). The inner secondary airflow guide tube (3) is disposed between the transition channel (2) and the outer secondary airflow guide tube (4), and forms an inner secondary airflow channel together with the transition channel (2), and forms an outer secondary airflow channel together with the outer secondary airflow guide tube (4). An outlet end of the inner secondary airflow guide tube (3) is formed to have a flared opening, and an angle of the flared opening is the same as an angle of the burning stabilization cavity (5). The device can divide air into an inner secondary airflow and an outer secondary airflow which separately enter into the burner, such that the pulverized coal and the air are sufficiently mixed. The outer secondary airflow can form, within the burning stabilization cavity (5), a cooling air layer along a wall surface of the burning stabilization cavity (5), thereby preventing soot formation and coking on the wall surface of the

[Qimei CUI, Zhenyu XU, Tao CUI, Xiaofeng TAO, Bowen CAI, Jing LIU] JP Tokyo The present invention provides an electronic device and method for wireless communication, and a computer readable storage medium. The electronic device comprises a processing circuit configured to: set a first timer used for counting the activation time of a current bandwidth part (BWP) for a user equipment on an unlicensed frequency band; and switch, when the first timer times out, the user equipment onto another BWP on the unlicensed frequency band.

[Qimei Cui, Zhenyu Xu, Tao Cui, Xiaofeng Tao, Bowen Cai, Jing Liu] JP Tokyo The present invention provides an electronic device and method for wireless communication, and a computer readable storage medium. The electronic device comprises a processing circuit configured to: set a first timer used for counting the activation time of a current bandwidth part (BWP) for a user equipment on an unlicensed frequency band; and switch, when the first timer times out, the user equipment onto another BWP on the unlicensed frequency band.

[CUI, Qimei, XU, Zhenyu, CUI, Tao, TAO, Xiaofeng, CAI, Bowen, LIU, Jing] JP,Tokyo 108-0075,1-7-1, Konan Minato-ku; The present invention provides an electronic device and method for wireless communication, and a computer readable storage medium. The electronic device comprises a processing circuit configured to: set a first timer used for counting the activation time of a current bandwidth part (BWP) for a user equipment on an unlicensed frequency band; and switch, when the first timer times out, the user equipment onto another BWP on the unlicensed frequency band.

[CUI YUPING, HOU YUN, DONG YUANSHUAI, ZHANG YANHONG, TONG XINLONG, ZHANG HAOYU, QIAN ZHENYU, ZHANG YUNLING, YANG XUAN, SUN TIANCHENG, CUI LI, HU LIN, HU RUNTING] CN;CN;CN

[Qimei CUI, Zhenyu XU, Tao CUI, Xiaofeng TAO, Bowen CAI, Jing LIU] JP Tokyo The present disclosure relates to an electronic device, a wireless communication method, and a computer readable medium. The electronic device for wireless communication according to one embodiment comprises a processing circuit. The processing circuit is configured to: perform control, so as to perform channel idle detection on an unlicensed band at a predetermined bandwidth; and perform control on the basis of a result of the channel idle detection, so as to transmit a hybrid automatic retransmission request on one or more sub-bandwidth blocks having the predetermined bandwidth.

[ZHANG, Yunling 张蕴灵, CUI, Yuping 崔玉萍, HOU, Yun 侯芸, LI, Zhenhong 李振洪, DONG, Yuanshuai 董元帅, DING, Mingtao 丁明涛, ZHANG, Xinlai 张新来, HE, Naiwu 何乃武, YU, Yonghua 俞永华, DENG, Xiaolong 邓小龙, QIAN, Zhenyu 钱振宇, CUI, Li 崔丽, SONG, Zhangliang 宋张亮, HU, Lin 胡林] Block A, 9th Floor, Jiahao International Centre, 116Zizhuyuan Road 中国北京市海淀区紫竹院路116号嘉豪国际中心A座9层, Beijing 100097Haidian District, Beijing 100097;Block A, 9th Floor, Jiahao International Centre, 116Zizhuyuan Road 中国北京市海淀区紫竹院路116号嘉豪国际中心A座9层, Beijing 100097Haidian District, Beijing 100097;Block A, 9th Floor, Jiahao International Centre, 116Zizhuyuan Road 中国北京市海淀区紫竹院路116号嘉豪国际中心A座9层, Beijing 100097Haidian District, Beijing 100097 Disclosed in the present invention is a mountain landslide and collapse disaster classification method based on a decision tree. The method comprises: step one, acquiring a ground mountain topographical distribution and hillside elevation data, calculating a hillside slope and performing statistical analysis; step two, defining values of k1, k2 and k3, wherein (I); and step three, when at least two of the value of k1 being greater than a first threshold value, the value of k2 being less than a second threshold value and the value of k3 being greater than a third threshold value, determining that a mountain disaster is a landslide; otherwise, determining that same is collapse. Further disclosed in the present invention are an electronic device and a storage medium. By means of the present invention, collapse and a landslide can be accurately classified by means of acquiring a digital elevation model (DEM) of geological disasters, without the need for manual field survey, such that a large amount of manpower and time are saved on, and the safety guarantee is improved. Disclosed in the present invention is a mountain landslide and collapse disaster classification method based on a decision tree. The method comprises: step one, acquiring a ground mountain topographical distribution and hillside elevation data, calculating a hillside slope and performing statistical analysis; step two, defining values of k1, k2 and k3, wherein (I); and step three, when at least two of the value of k1 being greater than a first threshold value, the value of k2 being less than a second threshold value and the value of k3 being greater than a third threshold value, determining that a mountain disaster is a landslide; otherwise, determining that same is collapse. Further disclosed in the present invention are an electronic device and a storage medium. By means of the present invention, collapse and a landslide can be accurately classified by means of acquiring a digital elevation model (DEM) of geological disasters, without the need for manual field survey, such that a large amount of manpower and time are saved on, and the safety guarantee is improved.

[XU, Zhenyu, CUI, Tao, TAO, Xiaofeng, CAI, Bowen, LIU, Jing, CUI, Qimei] 1-7-1 Konan Minato-ku, 108-0075 Tokyo, JP The present invention provides an electronic device and method for wireless communication, and a computer readable storage medium. The electronic device comprises a processing circuit configured to: set a first timer used for counting the activation time of a current bandwidth part (BWP) for a user equipment on an unlicensed frequency band; and switch, when the first timer times out, the user equipment onto another BWP on the unlicensed frequency band.＜img id="iaf01" file="imgaf001.tif" wi="133" he="73" img-content="drawing" img-format="tif" /＞

[LI, Meijun 李美军, WANG, Hanfeng 王翰锋, ZHANG, Hongshun 张红顺, LIU, Zengbin 刘增斌, NIU, Fang 牛芳, JI, Renshan 纪任山, ZHANG, Xin 张鑫, WANG, Naiji 王乃继, SHI, Liang 石亮, LUO, Wei 罗伟, ZHANG, Xufang 张旭芳, JIA, Dongliang 贾东亮, MENG, Changfang 孟长芳, LIANG, Xing 梁兴, LI, Xiaojiong 李小炯, HU, Yawen 胡亚文, YU, Daqian 于大千, GONG, Yanyan 龚艳艳, WANG, Xuewen 王学文, LI, Yueqian 李玥蒨, CUI, Guohui 崔国辉, BAI, Yifei 白一飞, HE, Hongxing 何红兴, LI, Xiaojiao 李晓娇, JIA, Ranyang 贾冉阳, YANG, Jinfang 杨晋芳, YU, Haipeng 于海鹏, QIU, Xing 裘星, ZHANG, Xiaoming 张小明, WANG, Peng 王朋, CHENG, Peng 程鹏, ZHANG, Chao 张朝, WEI, Yanrong 魏琰荣, DUAN, Lu 段璐, CHEN, Long 陈隆, YANG, Shi 杨石, LIU, Zhenyu 刘振宇, WANG, Shipu 王实朴, WANG, Zhixing 王志星, XIAO, Cuiwei 肖翠微, CUI, Mingshuang 崔名双, LI, Ting 李婷, WANG, Yongying 王永英, WANG, Zhiqiang 王志强, LIU, Gang 刘刚, DU, Boxi 杜伯犀, ZHANG, Song 张松, WANG, Shijun 王诗珺, ZHANG, Bin 张斌, YAN, Lili 闫黎黎, LI, Weihang 李伟航, ZHANG, Jing 张静, CAI, Peng 蔡鹏, ZHANG, Guangqi 张广琦, XIAO, Xu 肖旭, YAN, Shujuan 颜淑娟, MA, Huiyan 马慧艳, BAI, Yuejuan 白月娟] 18 Fuqian Street, Dachengzi Town 中国北京市密云区大城子镇府前街18号, Beijing 101502Miyun District, Beijing 101502 The present application discloses a thermal energy recovery system. The thermal energy recovery system comprises a boiler, a generator, and a falling-film type absorber. A reaction liquid is arranged inside the generator, and the generator is communicated with the boiler, so that water flowing out of the boiler flows into the generator to heat and concentrate the reaction liquid. The falling-film type absorber comprises an air inlet, a water inlet, a water outlet, a liquid inlet, and a first liquid outlet. The air inlet is communicated with the boiler, so that flue gas flowing out of the boiler flows into the falling-film type absorber; one end of the generator is communicated with the liquid inlet, so that the reaction liquid heated and concentrated by the generator flows into the falling-film type absorber and then the reaction liquid absorbs heat and moisture in the flue gas; the water inlet is suitable for introducing boiler feedwater; the water outlet is communicated with the boiler; and the first liquid outlet is connected to the other end of the generator. The thermal energy recovery system of the present application has the advantages of simple structure, low cost, high thermal efficiency utilization rate, and the like.

[CUI, Qimei, XU, Zhenyu, CUI, Tao, TAO, Xiaofeng, CAI, Bowen, LIU, Jing] JP,Tokyo 108-0075,1-7-1, Konan Minato-ku; The present invention provides an electronic device and method for wireless communication, and a computer readable storage medium. The electronic device comprises a processing circuit configured to: set a first timer used for counting the activation time of a current bandwidth part (BWP) for a user equipment on an unlicensed frequency band; and switch, when the first timer times out, the user equipment onto another BWP on the unlicensed frequency band.