CO N T E N T
Company profile Presentation of Future development and and results for 2020 business overview outlook Company profile and business overview 1.1 Company profile
China Conch Environment Protection Holdings Limited(“Conch EP”) was incorporated in the Cayman Islands,our
company was focused on disposal of SW & HW business. At present,our company has 86 subsidiaries,presence in 21
provinces, municipalities and autonomous regions in China,disposal of 8.95mt SW/HW per year,leader in domestic waste
disposal market.
Jilin 1 project
Liaoning 1 project Gansu the Nei Monggol 3 projects Autonomous Region Hebei 3 projects 1 project Shandong 8 projects
Shaanxi Henan 7 Jiangsu 10 projects projects 1 project Anhui 12 Sichuan projects Chongqin 2 projects Zhejiang 3 2 projects projects Hunan 6 Jiangxi 4 projects projects Guizhou Fujian 2 3 projects projects
Yunnan Guangdong Guangxi 2 projects 5 projects Coverage of the SW & HW Disposal 5 projects
4 1.2 Business overview
Conch EP is a company focusing on disposal of industrial solid & hazardous waste
A process where suitable SW with or without pretreatment is A SW & HW Disposal by cement kilns put into the cement kiln for decontamination and for producing clinker simultaneously.
Disposed of fly ash with proprietary fly ash elution technology, washed ash drying technology, ash washing water purification Fly ash washing B technology, purified water salt production technology and dry 固危废 ash calcination by cement kiln technology.
处置 Mainly use incinerators to incinerate harmful components Oil-bearing sludge disposal C in the concentrated oil-bearing sludge, which will no longer cause secondary pollution after treatment.
Take advantage of the features of rotary cement kilns, suc Pulluted soil restoration D as high temperature, & no slag discharge, to incinerate and solidify the polluted soil.
Through the high-temperature anaerobic dry distillator, E Anaerobic pyrolysis the macromolecule substances in domestic garbages are pyrolyzed to produce a mixture of gas and steam and solid residue. After cooling, the mixture is decomposed into combustible gas and oil. 5 1.2 Business overview (contd)
A Disposal of SW & HW by cement kilns technology
5 disposal systems 5 disposal systems with advanced technologies Grab crane Dis p os a l of SW & H W b y cement k i l n s technology is currently the most economical, eco-friendly & thorough treatment vs other Shear technologies. crusher Preheater
Belt Fully use the high-temperature of conveyor Stabiliz cement kilns High er incli Pan feeder natio Electronic belt Thorough disposal of industrial SW & HW of n conveyor scale angl Calciner certain types and forms, free of ash or slag, with Mixer Storage e Crusher belt Belt conveyor high resource utilization, and good heavy metal Dust conv solidification. collector eyor SW feeder Flue chamber Belt conveyor Rotary Belt conveyor kiln SW feeder Solids Continued innovation bump
Continued development of new technologies such as retort treatment, expanding along the industry chain with cement kiln treatment. Inorganic sludge Slag waste SW Liquid waste Fly ash
6 1.2 Business overview (contd)
B Fly ash washing + disposal by cement kilns
Comprising 5 systems Technical advantages
Ø Meet the environmental requirements for d e c o n t a m i n a t i o n , r e d u c t i o n a n d Finished product utilization of fly ash. L1 centrifuge L2 washing pool Dryer silo Collaborative disposal by cement Ø Cost less than high-temperature melting, kiln landfill.
L2 centrifuge L3 centrifuge Ø More eco-friendly than landfill. Fly ash silo L1 washing pool L2 washing pool Recycled water pool
How it works L1 filtration system L2 filtration system
Ø Fly ash washing + disposal by cement kilns Water treatment Water treatment Neutralization reactor tank Storage pool Multi-layer filter reactor technology extracts K, Na & Cl from fly ash reactor Crystallizatio Crystallizatio n section n section using physical means, which are reused as NACL KCL industrial products. crystalline crystalline salt salt Ø Remainder sent to cement kilns for high- temperature calcination to solidify heavy metals, decompose Dioxins and recycle Evaporation & Ash wash Water purification Mixed & drying Calcination in kilns dissolving salt. Salt making
7 1.2 Business overview (contd)
C Oil-bearing sludge disposal & utilization technology
Higher recovery efficiency through Solid oil-bearing sludge Semi-solid oil-bearing Waste oil-based slurry, sludge separation oil-bearing drilling Steam boiler cuttings, polluted soil, Oil-bearing sludge divided into liquid and solid sludge at Water etc. source, treated through hot washing, tempering, Steam centrifugal separation + spiral pyrolysis desorption and Recycled oil
crushing screening + rotary pyrolysis desorption. Oily Oil-bearing sludge Exhaust discharge
contaminants from pretreatment are treated with crushing Treated solids + pyrolysis carbonization technology. Sludge storage pool
Liquid oil-bearing sludge Semi-solid oil-bearing sludge Centrifuge Reduced tailings with collaborative separation Continuous pyrolysis disposal system
Tailings from pyrolysis desorption and pyrolysis carbonization are disposed by cement kilns, with a Heating, tempering
high degree of reduction, without the need for brick- Oil storage making equipment and tailings landfill. Storage pool
Tailings recycle
Excessive waste water Waste water treatment discharge High return on one-time investment system 技术分离,提高 Low one-time investment in pyrolysis desorption and 回收效率 disposal by cement kilns, less investment in environmental protection equipment required, lower operating cost than Combined disposal technology for different oil-bearing sludge and different wastes therein other traditional oil-bearing sludge disposal technologies, (pretreatment + hot washing + pyrolysis desorption + wastewater treatment up to standard + residue and higher return on investment. disposed by cement kilns).
8 1.3 Business overview (contd)
D Contaminated soil restoration technology
Polluted soil Reduction Decontamination Advantages of disposal by cement Recycle/disposal kilns technology Ø Soil restored can be used as , cement raw materials For building reducing the impact of demand for raw materials on natural Rubble Washing materials environment. Ø Maximize soil recycling and utilization, and achieve the Drying Crushing, Sintering brick- pretreatment making, goal of centralized decontamination and re-utilization of Gravel calcination contaminated soil. ceramsites Ø Solve the problem of incomplete removal of pollutants after Disposal by Polluted Disposal by cement solidification of heavy metal-contaminated soil. Partition Screening Restoration cement kiln soil Clay kiln Ex-Situ thermal Sample desorption Business model analysis Ex-Situ chemical Soil for landscaping oxidation Soil for mine Ex-Situ room reclamation Ø Strong strategic partnership with leaders in temperature resolution Soil for backfill restoration contracting on a price-for-volume basis. Tempering Soil for roadbed Ø Pre-bid support to key strategic partners to secure cooperation in advance. Reduction via screening Restoration & treatment Recycle Ø Direct cooperation with major waste producers by covering upstream of the industry chain utilizing terminal advantages. The disposal of contaminated soil by cement kilns technology aims to solve the challenges to the society caused by proliferation of contaminated soil, currently the most economical, eco-friendly and thorough waste treatment with no ash or slag discharge, high utilization, and good solidification of heavy metals. 9 1.2 Business overview (contd)
E Anaerobic pyrolysis of organic SW
Used paint Ester spray barrel Shredder organic waste Acid spray Alkali spray Water spray
Warehouse High-temperature Project features flue gas
Draught fan Pretreatment High-temperature Ø A new way of harmless disposal & reuse system flue gas bypass Pyrolysis & carbonization of organic waste, eliminating dioxins and system Raw materials High-temperature Variable frequency wind control valve turbine fly ash from traditional incineration, with Dry distillation slag
small amount of tailings disposed of by Gas flue High-temperature Gas flue treatment flue gas system Steam Cooling & High-temperature transfer combustion chamber cement kilns. Water Natural gas Dry distillation liquid combustion Natural gas combustion
magnetic separator Condensation separation Recycling pool Business adaptability device Pump B
Scrap metal Slag Ø Organic waste not suitable for disposal Pump A Cooling tower
by cement kilns can be treated and Brick making Thermal storage minimized via pyrolysis & carbonization, Loading & Recycle system for dry tank Solvent & transport distillation slag tar recovery with low investment and operation cost. Recycle system for pyrolysis liquid Tailings generated are disposed of by cement kilns. Dry distillation is a reaction process where organic matters are heated and decomposed in isolation of air. Through the high- temperature anaerobic dry distillator, the macromolecule substances in solid waste are pyrolyzed to produce a mixture of gas and steam and solid residue. After cooling, the mixture is decomposed into combustible gas and oil. . 10 Presentation of results for 2020 2.1 Result highlights
Break-through in Overachivement of 29 new projects Rising KPIs diversification 5-year plan target n Continue to develop segments n 29 SW disposal projects with n Received 432kt HW, up 41% n Annual SW disposal capacity total annual capacity of 3.23mt of fly ash washing 、 oil-bearing y-o-y; 1.061mt SW, up 195% of 8.95mt YTD, 44% more (1.76mt for cement kilns, 0.7mt sludge disposal and Pulluted y-o-y. than the contractual target for fly ash wash, 0.68mt for oil- soil restoration by acquiring for the year in the five-year bearing sludge, 90kt for re- Bangda EP, building a fly ash plan. utilization). disposal and soil restoration platform, and founding Anhui H a i h u a E P & B e i j i n g C V Nengyuan to expand along the industry chain.
12 2.2 Project development
29 new SW disposal projects with combined annual capacity of 3.23mt in 2020YTD。
⑫Inner Mongolia Arun Banner SW & HW disposal Coverage (100kt/y)
⑬Liaoning Jinzhou incineration & oil-bearing sludge disposal (62kt/y)
①Shaanxi Yulin oil-bearing sludge disposal (100kt/y) ⑭Hebei Baoding conteminated soil disposal (100kt/y) ②Shaanxi Yan’an oil-bearing sludge disposal(170kt/y) ⑮Shandong Tengzhou conteminated soil disposal (201.5kt/y) ⑯Shandong Longkou SW & HW disposal (200kt/y) ⑰Shandong Jining fly ash washing (100kt/y) ③Gansu Qingyang oil-bearing sludge ⑱ disposal (80kt/y) Shandong Dongying oil-bearing sludge disposal(160kt/y) ⑲⑳Shandong Rizhao conteminated soil disposal & fly ash washing (100+100kt/y)
㉑㉒Anhui Quanjiao SW & HW disposal & fly ash washing (60+100kt/y) ④ Guizhou fly ash washing (100kt/y) ㉓Anhui Zongyang SW disposal (2×100kt/y)
㉔Jiangxi Fuzhou SW & HW disposal(100kt/y) ⑤Henan Wolong SW (100kt/y) ㉕Jiangxi Ganzhou SW & HW disposal (200kt/y) ⑥⑦Henan Dengzhou SW & fly ash washing (50+50kt/y) ⑧⑨Henan Anyang SW & fly ash washing (100+100kt/y) ㉖Fujian Longyan fly ash washing (100kt/y) ⑩⑪Henan Xin'an SW & fly ash washing (50+50kt/y)
㉗Guangdong Qingyuan SW & HW disposal (100kt/y) ㉘Guangdong Yunfu SW disposal (100kt/y) ㉙Guangdong Leizhou oil-bearing sludge disposal and resource utilization project (200kt/y) 13 2.3 Break-through in diversification
Fly ash washing C N B M c e m e n t p r o d u c t i o n l i n e s Anhui Haihua EP established as platform for fly ash business with 9 new projects with annual Sinochem International in Aug 2020. capacity of 0.95mt.
Soil restoration Non-kiln-
Collaborative treatment Beijing CV Nengyuan established as treatment by new platform for soil restoration with cement kilns businesses Shanghai Nengyuan Environment in Nov 2020.
Oil-bearing sludge disposal C o n c h c e m e n t p r o d u c t i o n l i n e s Expansion into oil-bearing sludge disposal 4 new projects with annual sector via acquisition of Bangda EP, obtaining 6 capacity of 0.56mt. projects with annual capacity of 680kt in Yulin and Yan'an, Dongying and Leizhou.
14 2.4 Rising KPIs
During the Reporting Period: ü The intake volume was 1,493.2kt, including 1,061.3kt of solid waste, accounting for 71.08%; 385.4kt of hazardous waste, accounting for 25.81%; and 46.5kt of oil-bearing sludge, accounting for 3.11%. ü Realized gross profit of ¥578m,and realized net profit attributable to parent of ¥494m. ü The trends of intake volume, treatment capacity, scale in hand and net profit attributable to parent from 2016 to 2020, are as follows.
1000 单位:万吨/亿元 895 494 500 SW132.5 800 400 629 600 HW575 312 300 410 239 400 SW181 200 285 Fly ash105 254 HW207 215 177 149.32 Fly ash10 200 SW106.13 Oil-bearing 100 105 Oil-bearing sludge68 47 66.66 HW38.54 55 sludge10 27 40.34 27 Anaerobic Anaerobic 7.04 10.9 thermal thermal Oil-bearing cracking1.5 cracking14.7 0 sludge4.65 0 Intake volume Treatment capacity Scale in hand Net profit to parent
15 2.4 Rising KPIs (contd)
SW & HW disposal data by region
Average price for HW Average price for SW Region HW intake SW intake (pre-tax/post-tax) (pre-tax/post-tax) East China 670,000 tons ¥2589/2291 392,100 tons ¥338/299
North West 65,600 tons ¥1584/1402 134,500 tons ¥640/566
South West 151,300 tons ¥1937/1714 2,530,00 tons ¥336/297
South China 50,900 tons ¥2533/2242 27,900 tons ¥601/532
Central China 50,700 tons ¥2803/2481 47,500 tons ¥404/358 Oil-bearing sludge disposal and ¥1768/1565 ¥178/158 Others① 46,500 tons 206,400 tons Total ②③ 431,900 tons ¥2138/1892 1,061,300 tons ¥354/314 Notes : ①Oil-bearing sludge disposal and other regions include Shaanxi Bangda Oil Mud Project. Eastern China including those projects, such as, Wuhu (including fly ash), Suzhou, Huaining, Huaibei, Fanchang, Chizhou and Sishui, put into operation; and northwestern China including those projects, such as, Fuping, Ganxian, Mianxian, Tongchuan and Qianyang, put into operation; Southwest region includes projects in Chongqing, Wenshan, Qingzhen, Liangping and Guangyuan that have been put into operation. South China includes projects in Xingye and Yangchun that have been put into operation; Central China includes projects of Yiyang and Qiyang that have been put into operation. ②The joint treatment hazardous waste products of the Group's cement kiln mainly include: Hw02 pharmaceutical waste, HW04 pesticide waste, HW06 waste organic solvent and waste containing organic solvent, HW08 waste mineral spring oil and waste containing mineral oil. There are 32 types of hazardous wastes, including HW11 fine distillation residue, HW12 fuel, coating waste, HW13 organic resin waste, HW39 phenol-containing waste, HW45 organic halide waste and HW49 other waste. ③The types of solid waste solutions in East China are mainly municipal sludge, and solid waste products in Northwest China include fluorine-containing Samsung Electronics and municipal sludge. 16 2.5 Overachivement of 5-year plan target
To be China's No. 1 & world-leading large environmental conglomerate in line with the 5-year plan.
Planned contracted Planned operational 10kt/y capacity 10kt/y capacity
1000 860 895 885 735 760
620 565
480 390 410
162
2019 2020 2020YTD 2021E 2022E 2023E 2019 2020 2020YTD 2021E 2022E 2023E Contract completed Construction completed 5-year plan target Contracted 5-year plan target Constructed
17 Future development and outlook 3.1 Sustained rapid growth of environmental industry
Trends for three-year plan covering 2021E, 2022E & 2023E (10kt/¥100m)
32.4 35 1378 1,400 30 1,200 23.6 1027 21.8 25 1,000 20 800 763 800 16 13.3 15 565 Fly ash washing 600 50 Fly ash washing 10.6 0.15 Fly ash washing 10 400 301 0.15 Oil-bearing sludge Oil-bearing sludge 0.85 Fly ash washing 53 Oil-bearing sludge 200 7.5 0.48 5 Oil-bearing sludge 0 10.81 0 Intake volume Treatment capacity Total profit Net profit to parent
2021E 2022E 2023E
19 Appendix 1 Project list-HW developed
Hazardous waste No. Construction status Project location Processing capacity Time of completion Way of cooperation qualification 1 Fuping, Shaanxi 100kt/year 100kt/year Apr 2016 2 Qian County, Shaanxi 70kt/year 63.6kt/year Apr 2017 100% Held by Yaobai Environmental 3 Qianyang, Shaanxi 100kt/year 100kt/year Oct 2018 Protection 4 Tongchuan, Shaanxi 100kt/year 81.5kt/year Aug 2019 5 Wuhu, Anhui 2×100kt/year 130kt/year (2 phases) Dec 2017 6 Yiyang, Jiangxi 2×100kt/year 170kt/year (2 phases) May 2018
7 Xingye, Guangxi 2×100kt/year 16.15kt/year(2 pharses) Aug 2018
8 Suzhou, Anhui 2×100kt/year 125kt/year (2 phases) Aug 2018 Wholly owned 9 Put-into-operation Wenshan, Yunnan (Phase 1) 100kt/year 66kt/year Aug 2019 projects 10 Sishui, Shandong 100kt/year 13.95kt/year Jan 2020
11 Qiyang, Hunan 100kt/year 59kt/year Jan 2020
12 Yangchun, Guangdong 100kt/year 70kt/year Aug 2020
13 Zhong County, Chongqing 2×100kt/year 90kt/year (2 phases) Jun 2019 65% Held by the Group
14 Qingzhen, Guizhou 100kt/year 100kt/year Sep 2019 85% Held by the Group
15 Longan, Guangxi 100kt/year TBC Dec 2020 Wholly owned projects 16 Linxiang, Hunan 100kt/year TBC Jan 2021
Subtotal 2070kt/year 1330.6kt/year
20 Appendix 2 Project list-HW planned & in-progress
Construction Estimated time of No. Processing capacity status Project location completion Way of cooperation Remark
Project under 17 Ningguo, Anhui 100kt/year Jun 2021 Wholly owned project CKK to SW construction
Subtotal 100kt/year
18 Wenshan, Yunnan (Phase 2) 100kt/year Wholly owned project Submit for approval 19 Ganzhou, Jiangxi 2×100kt/year 70% Held by the Group
20 Baoshan, Yunnan 100kt/year / Wholly owned project CKK to SW
21 Reserve projects Qingyuan, Guangdong 100kt/year 65% Held by the Group
22 Dazhou, Sichuan 200kt/year 80% Held by the Group
Subtotal 700kt/year
Total 2870kt/year
21 Appendix 3 Project list-SW
Construction Estimated time of No. Project location Processing capacity Way of cooperation status completion 100% Held by Yaobai 1 Mianxian, Shaanxi 45kt/year Oct 2017 Environmental Protection 2 Huaining, Anhui 70kt/year Sep 2017 3 Huaibei, Anhui 70kt/year Dec 2017 4 Xianyang, Shaanxi 300kt/year Aug 2019
5 Liangping, Chongqing 75kt/year Sep 2019 Put-into-operation 6 Guangyuan, Sichuan 70kt/year Jan 2020 Wholly owned projects
7 Fanchang, Anhui 210kt/year Jul 2020
8 Chizhou, Anhui 100kt/year Nov 2020
9 Yiyang, Hunan 70kt/year Jan 2021
1010kt/year Subtotal 10 Quanjiao, Anhui 60kt/year Jun 2021 Projects under 11 Zongyang, Anhui (Phase 1) 100kt/year Jul 2021 construction Wholly owned projects
12 Xinhua,Hunan 100kt/year Aug 2021
13 Reserve project Zongyang, Anhui (Phase 2) 100kt/year /
Subtotal 360kt/year
Total 1370kt/year 22 Appendix 4 Project list-Partnership with CNBM, Mengxi, etc
Construction H a z a r d o u s W a s t e T i m e o f W a y o f No. P a r t n e r ( s ) P r o j e c t l o c a t i o n P r o c e s s i n g c a p a c i t y R e m a r k s status Q u a l i f i c a t i o n c o m p l e t i o n c o o p e r a t i o n 1 Sanming, Fujian 100kt/year 20.5kt/year Aug 2019 35% by Haizhong 2 South Cement Yixing, Jiangsu 100kt/year 100kt/year Dec 2019 3 Congzuo, Guangxi 100kt/year 85kt/year Mar 2021 4 Put-into- Luoyang, Henan 100kt/year 72kt/year Dec 2020 100% by Haizhong 5 operation Jiyuan, Henan 100kt/year 50kt/year Dec 2020 6 CUCC Dezhou, Shandong 100kt/year 75kt/year Dec 2020 89% by Haizhong 7 Tai'an, Shandong 100kt/year 100kt/year Dec 2020 51% by Haizhong 8 Baoding, Hebei 100kt/year / Mar 2021 Polluted soil Subtotal 800kt/year 502.5kt/year
9 CUCC Dengfeng, Henan 100kt/year Jun 2021 100% by Haizhong
Projects under 10 Guilin, Guangxi 100kt/year / Apr 2021 100% by Haizhong construction South Cement 11 Fuyang, Zhejiang 200kt/year Oct 2021 65% by Haizhong 12 Hulun Buir, IM 50kt/year Sep 2021 Mengxi Cement 65% by the Group 13 Aron Banner, IM 100kt/year Jun 2022 Subtotal 550kt/year 14 Xin'an, Henan 50kt/year 100% by Haizhong General SW CUCC 15 Rizhao, Shandong 100kt/year 70% by Haizhong Polluted soil 16 Luoding, Guangdong 80kt/year 40% by Haizhong Sinoma Cement 17 Submit for Yunfu, Guandong 100kt/year / / 100% by Haizhong approval Qilianshan 18 Jiayuguan, Gansu 200kt/year Cement 19 Quzhou, Zhejiang 100kt/year 100% by Haizhong General SW South Cement 20 Fuzhou, Jiangxi 100kt/year 29.4% by Haizhong 21 Wolong, Henan 100kt/year 22 Dengzhou, Henan 50kt/year 100% by Haizhong General SW CUCC 23 Reserve Anyang, Henan 100kt/year 24 projects Tengzhou, Shandong 20.150kt/year 51% by Haizhong Polluted soil 25 Mengxi Cement Erdos, IM 100kt/year 65% by the Group 26 Fanlin Cement Longkou, Shandong 200kt/year 53% by the Group Subtotal 1481.5kt/year Total 2831.5kt/year 502.5kt/year 23 Appendix 5 Project list-Fly ash washing, Oil-bearing sludge, etc.
H a z a r d o u s W a s t e No. Construction status P a r t n e r ( s ) P r o j e c t l o c a t i o n P r o c e s s i n g c a p a c i t y Q u a l i f i c a t i o n Remarks 1 Completed Wuhu, Anhui 100kt/year Dec 2020 2 Yiyang, Hunan 50kt/year Nov 2021 3 Projects under Yiyang, Jiangxi 100kt/year Dec 2021 construction 4 Quanjiao, Anhui 100kt/year Dec 2021 5 Qian County, Shanxi 100kt/year 6 Jiing, Shandong 100kt/year Approval for Fly ash washing 100% by Haizhong 7 Xin'an, Henan 50kt/year construction 8 Rizhao, Shandong 100kt/year 70% by Haizhong / 9 Qingzhen, Guizhou 100kt/year 85% by the Group 10 Dengzhou, Henan 50kt/year 100% by Haizhong 11 Reserve projects Anyang, Henan 100kt/year 12 Longyan, Fujian 100kt/year 51% by the Group Subtotal 1050kt/year oil-bearing sludge 13 Yulin, Shaanxi (Bangda) 100kt/year May 2020 (acquired) 70% by the Group Completed disposal 14 Dry distillation Wuhu, Anhui 15kt/year Jan 2021 15 Resource utilization Ninghai, Zhejiang 40kt/year Mar 2021 70% by the Group Projects under Oil-bearing sludge oil-bearing sludge 16 construction Jinzhou, Liaoning disposal: 20kt/year Oct 2021 52% by the Group disposal+incineration Incineration: 42kt/year oil-bearing sludge 17 Dongying, Shandong 160kt/year disposal Oil-bearing sludge oil-bearing sludge 70% by the Group Approval for disposal: 150kt/year 18 disposal+ Leizhou, Guangdong / construction Resource utilization: Resource utilization 50kt/year oil-bearing sludge 19 Yan'an, Shaanxi 170kt/year 60% by the Group disposal oil-bearing sludge 20 Reserve project Qingyang, Gansu 80kt/year 80% by the Group disposal Subtotal 827kt/year Total 1877kt/year 24 Appendix 6 SW disposal project list
The Group currently has annual capacity of 8.95mt SW & HW, as detailed below: (10kt/y)
HW SW
Collaborative disposal by cement kilns Dry Oil- distillation, Type Fly ash bearing (complet resource Conch projects Partnership sludge In ed & in utilization Operating (completed progress progress) (completed & in In In & in Operating HW Operating HW progress) progress progress progress)
Capacity 170 98.55 80 121.5 84.76 203.15 105 14.7 68 96.5 36
25 THANKS